Your search keyword '"Amorphous Solids"' showing total 168 results

1. Manifold learning for coarse-graining atomistic simulations: Application to amorphous solids

Author

Chris H. Rycroft, Katiana Kontolati, Darius Alix-Williams, Michael L. Falk, Michael D. Shields, and Nicholas M. Boffi

Subjects

Optimization, Materials science, Amorphous solids, Polymers and Plastics, FOS: Physical sciences, 02 engineering and technology, 01 natural sciences, law.invention, Surrogate model, Shear transformation zone, Kriging, law, 0103 physical sciences, Parameter calibration, Molecular dynamics simulation, Statistical physics, Materials, Bayesian optimization, 010302 applied physics, Probabilistic learning, Continuum (topology), Mechanical Engineering, Metals and Alloys, Nonlinear dimensionality reduction, Materials Engineering, Computational Physics (physics.comp-ph), 021001 nanoscience & nanotechnology, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Nonlinear system, Manifold learning, Flow (mathematics), physics.comp-ph, Ceramics and Composites, Granularity, Coarse-graining, 0210 nano-technology, Manifold (fluid mechanics), Physics - Computational Physics

Abstract

We introduce a generalized machine learning framework to probabilistically parameterize upper-scale models in the form of nonlinear PDEs consistent with a continuum theory, based on coarse-grained atomistic simulation data of mechanical deformation and flow processes. The proposed framework utilizes a hypothesized coarse-graining methodology with manifold learning and surrogate-based optimization techniques. Coarse-grained high-dimensional data describing quantities of interest of the multiscale models are projected onto a nonlinear manifold whose geometric and topological structure is exploited for measuring behavioral discrepancies in the form of manifold distances. A surrogate model is constructed using Gaussian process regression to identify a mapping between stochastic parameters and distances. Derivative-free optimization is employed to adaptively identify a unique set of parameters of the upper-scale model capable of rapidly reproducing the system's behavior while maintaining consistency with coarse-grained atomic-level simulations. The proposed method is applied to learn the parameters of the shear transformation zone (STZ) theory of plasticity that describes plastic deformation in amorphous solids as well as coarse-graining parameters needed to translate between atomistic and continuum representations. We show that the methodology is able to successfully link coarse-grained microscale simulations to macroscale observables and achieve a high-level of parity between the models across scales., 34 pages, 12 figures, references added, Section 4 added, Section 2.1 updated

Published

2021

2. Ultra-precise quantification of mRNA targets across a broad dynamic range with nanoreactor beads

Author

Katrin Steinmetzer, Thomas Ernst, Ivan Francisco Loncarevic, Andreas Hochhaus, Thomas Ellinger, Susanne Klingner, Lea Kanitz, Stephan Hubold, Eugen Ermantraut, and Susanne Toepfer

Subjects

0301 basic medicine, Fluorescence-lifetime imaging microscopy, Response to therapy, Microfluidics, Fusion Proteins, bcr-abl, Gene Expression, Artificial Gene Amplification and Extension, Nanoreactor, Polymerase Chain Reaction, Biochemistry, 0302 clinical medicine, Wide dynamic range, Nanotechnology, Digital polymerase chain reaction, Materials, Fluids, Multidisciplinary, Dynamic range, Physics, Hydrogels, Lipids, Orders of magnitude (mass), 030220 oncology & carcinogenesis, Physical Sciences, Engineering and Technology, Medicine, Fluidics, Algorithms, Research Article, States of Matter, Materials science, Imaging Techniques, Amorphous Solids, Science, Materials Science, Research and Analysis Methods, Real-Time Polymerase Chain Reaction, 03 medical and health sciences, Leukemia, Myelogenous, Chronic, BCR-ABL Positive, Fluorescence Imaging, Genetics, Humans, RNA, Messenger, Molecular Biology Techniques, Molecular Biology, DNA Primers, Messenger RNA, Biology and Life Sciences, Liquids, Reverse Transcriptase-Polymerase Chain Reaction, Reverse Transcription, 030104 developmental biology, Mixtures, Gels, Oils, Biomedical engineering

Abstract

Precise quantification of molecular targets in a biological sample across a wide dynamic range is a key requirement in many diagnostic procedures, such as monitoring response to therapy or detection of measurable residual disease. State of the art digital PCR assays provide for a dynamic range of four orders of magnitude. However digital assays are complex and require sophisticated microfluidic tools. Here we present an assay format that enables ultra-precise quantification of RNA targets in a single measurement across a dynamic range of more than seven orders of magnitude. The approach is based on hydrogel beads that provide for microfluidic free compartmentalization of the sample as they are used as digital nanoreactors for reverse transcription, PCR amplification and combined real time and digital detection of gene transcripts. We have applied these nanoreactors for establishing an assay for the detection and quantification of BCR-ABL1 fusion transcripts. The assay has been characterized for its accuracy and linear dynamic range. A comparison of the new method against the current clinical standard procedure with clinical samples from patients with chronic myeloid leukemia (CML) revealed good agreement between the results obtained with the respective method.

Published

2020

3. Swimming direction of the glass catfish is responsive to magnetic stimulation

Author

Mark Reimers, Ryan D. Hunt, Assaf A. Gilad, Gabriela Saldana De Jimenez, Michael L. Moore, Galit Pelled, Ryan C. Ashbaugh, and Lalita Udpa

Subjects

Physiology, Social Sciences, Tracking (particle physics), Psychology, Materials, Catfishes, Physics, Multidisciplinary, Animal Behavior, Magnetism, Eukaryota, Software Engineering, Condensed Matter Physics, Magnetic field, Osteichthyes, Physical Sciences, Vertebrates, Magnets, Medicine, %22">Fish , Engineering and Technology, Catfish, Research Article, Animal Navigation, Computer and Information Sciences, Science, Acoustics, Amorphous Solids, Materials Science, Marine species, Computer Software, Magnetoreception, Animals, Swimming, Behavior, Biological Locomotion, Organisms, Biology and Life Sciences, Magnetic response, Magnetic Fields, Fish, Magnet, Predatory Behavior, Animal Migration, Glass, Zoology

Abstract

Several marine species have developed a magnetic perception that is essential for navigation and detection of prey and predators. One of these species is the transparent glass catfish that contains an ampullary organ dedicated to sense magnetic fields. Here we examine the behavior of the glass catfish in response to static magnetic fields which will provide valuable insight on function of this magnetic response. By utilizing state of the art animal tracking software and artificial intelligence approaches, we quantified the effects of magnetic fields on the swimming direction of glass catfish. The results demonstrate that glass catfish placed in a radial arm maze, consistently swim away from magnetic fields over 20 µT and show adaptability to changing magnetic field direction and location.

Published

2020

4. 3D printing of bioreactors in tissue engineering: A generalised approach

Author

Gensler, Marius, Leikeim, Anna, Möllmann, Marc, Komma, Miriam, Heid, Susanne, Müller, Claudia, Boccaccini, Aldo R., Salehi, Sahar, Groeber-Becker, Florian, Hansmann, Jan, and Publica

Subjects

Male, Cell Culture Techniques, Electronics engineering, Engineering and technology, Biochemistry, Epithelium, Bioreactors, Animal Cells, Medicine and Health Sciences, Materials, Cells, Cultured, Software Engineering, 3D printing, Equipment Sterilization, Optical Equipment, Printing, Three-Dimensional, Physical Sciences, Medicine, Cellular Types, Anatomy, bioprinting, Research Article, Equipment Preparation, Computer and Information Sciences, Science, printability, Amorphous Solids, Materials Science, Equipment, Bioengineering, Research and Analysis Methods, Computer Software, Humans, ddc:610, Tissue Engineering, Lasers, Endothelial Cells, Biology and Life Sciences, Proteins, Epithelial Cells, Biobehavioral Sciences, Cell Biology, Fibroblasts, Biological Tissue, Autoclaving, Mixtures, ddc:600, Gels, Collagens

Abstract

3D printing is a rapidly evolving field for biological (bioprinting) and non-biological applications. Due to a high degree of freedom for geometrical parameters in 3D printing, prototype printing of bioreactors is a promising approach in the field of Tissue Engineering. The variety of printers, materials, printing parameters and device settings is difficult to overview both for beginners as well as for most professionals. In order to address this problem, we designed a guidance including test bodies to elucidate the real printing performance for a given printer system. Therefore, performance parameters such as accuracy or mechanical stability of the test bodies are systematically analysed. Moreover, post processing steps such as sterilisation or cleaning are considered in the test procedure. The guidance presented here is also applicable to optimise the printer settings for a given printer device. As proof of concept, we compared fused filament fabrication, stereolithography and selective laser sintering as the three most used printing methods. We determined fused filament fabrication printing as the most economical solution, while stereolithography is most accurate and features the highest surface quality. Finally, we tested the applicability of our guidance by identifying a printer solution to manufacture a complex bioreactor for a perfused tissue construct. Due to its design, the manufacture via subtractive mechanical methods would be 21-fold more expensive than additive manufacturing and therefore, would result in three times the number of parts to be assembled subsequently. Using this bioreactor we showed a successful 14-day-culture of a biofabricated collagen-based tissue construct containing human dermal fibroblasts as the stromal part and a perfusable central channel with human microvascular endothelial cells. Our study indicates how the full potential of biofabrication can be exploited, as most printed tissues exhibit individual shapes and require storage under physiological conditions, after the bioprinting process.

Published

2020

5. Variety-seeking, learning and performance

Author

Ji-hyun Kim and Gino Cattani

Subjects

Computer science, Social Sciences, Systems Science, Learning and Memory, Agent-Based Modeling, Psychology, Materials, Mammals, Multidisciplinary, Point (typography), Learning environment, Simulation and Modeling, Eukaryota, Variance (accounting), Variety seeking, Knowledge, Specialization (logic), Physical Sciences, Vertebrates, Apes, Medicine, Research Article, Primates, Computer and Information Sciences, Gorillas, Science, Amorphous Solids, Materials Science, Geometry, Digital Imaging, Research and Analysis Methods, Human Learning, Humans, Learning, Animals, Computer Simulation, Cognitive Psychology, Organisms, Biology and Life Sciences, Data science, Radii, Amniotes, Superior knowledge, Cognitive Science, Glass, Zoology, Mathematics, Neuroscience

Abstract

According to thevariance hypothesis, variety-seeking or exploration is a critical condition for improving learning and performance over time. Extant computational learning models support this hypothesis by showing how individuals who are exposed to diverse knowledge sources are more likely to find superior solutions to a particular problem. Yet this research provides no precise guidelines about how broadly individuals should search. Our goal in this paper is to elucidate the conditions under which variety-seeking in organizations is beneficial. To this end, we developed a computational model in which individuals learn as they interact with other individuals, and update their knowledge as a result of this interaction. The model reveals how the type of learning environment (performance landscape) in which the learning dynamic unfolds determines when the benefits of variety-seeking outweigh the costs. Variety-seeking is performance-enhancing only when the knowledge of the chosen learning targets (i.e., individuals to learn from) provide useful information about the features of the performance landscape. The results further suggest that superior knowledge might be available locally, i.e., in the proximity of an individual’s current location. We also identify the point beyond which variety-seeking causes a sharp performance decline and show how this point depends on the type of landscape in which the learning dynamic unfolds and the degree of specialization of individual knowledge. The presence of this critical point explains why exploration becomes very costly. The implications of our findings for establishing the boundaries of exploration are discussed.

Published

2020

6. SiCTeC: an inexpensive, easily assembled Peltier device for rapid temperature shifting during single-cell imaging

Author

Lillian Zhu, Benjamin D. Knapp, and Kerwyn Casey Huang

Subjects

0301 basic medicine, Pathology and Laboratory Medicine, Stiffness, Open Science, 0302 clinical medicine, Medicine and Health Sciences, Cell Cycle and Cell Division, Biology (General), Materials, Escherichia Coli, General Neuroscience, Methods and Resources, Temperature, Software Engineering, Equipment Design, Microfluidic Analytical Techniques, Bacterial Pathogens, Phenotypes, Experimental Organism Systems, Cell Processes, Medical Microbiology, Physical Sciences, Engineering and Technology, Prokaryotic Models, Optoelectronics, Genetic Oscillators, Pathogens, Single-Cell Analysis, General Agricultural and Biological Sciences, Open Source Software, Escherichia, Computer and Information Sciences, Thermoelectric cooling, Materials science, QH301-705.5, Science Policy, Thermometers, Amorphous Solids, Materials Science, Material Properties, Microfluidics, Equipment, Biology, Heat sink, Research and Analysis Methods, Microbiology, Temperature measurement, General Biochemistry, Genetics and Molecular Biology, Computer Software, Heating, Stress (mechanics), 03 medical and health sciences, Model Organisms, Enterobacteriaceae, Control theory, Thermoelectric effect, Genetics, Mechanical Properties, Microbial Pathogens, Temperature control, Bacteria, General Immunology and Microbiology, Imaging Equipment, business.industry, Gut Bacteria, Organisms, Biology and Life Sciences, Cell Biology, Microcontroller, 030104 developmental biology, Mixtures, Animal Studies, business, Gels, 030217 neurology & neurosurgery

Abstract

Single-cell imaging, combined with recent advances in image analysis and microfluidic technologies, have enabled fundamental discoveries of cellular responses to chemical perturbations that are often obscured by traditional liquid-culture experiments. Temperature is an environmental variable well known to impact growth and to elicit specific stress responses at extreme values; it is often used as a genetic tool to interrogate essential genes. However, the dynamic effects of temperature shifts have remained mostly unstudied at the single-cell level, due largely to engineering challenges related to sample stability, heatsink considerations, and temperature measurement and feedback. Additionally, the few commercially available temperature-control platforms are costly. Here, we report an inexpensive (, The Single-Cell Temperature Controller (SiCTeC), made using inexpensive and accessible components, can maintain sample temperatures within 0.2°C from room temperature to 90°C, with upshifts and downshifts equilibrating within minutes. This study uses SiCTeC to explore the effects of extreme temperatures on Escherichia coli, and to probe the properties of temperature-sensitive cell-wall mutants.

Published

2020

7. Sensitivity of Radio-Photoluminescence Glass Dosimeters to Accumulated Doses

Author

Jin Sung Kim, Myonggeun Yoon, Han Back Shin, Jaeman Son, Dong Wook Kim, Kyung Hwan Chang, Yu Yun Noh, Min Cheol Han, Hojae Kim, Minjoo Kim, D Shin, Jiwon Sung, Kwangwoo Park, Hojin Kim, Su Chul Han, and Jihun Kim

Subjects

Light, Analytical chemistry, Cancer Treatment, Glass Science, Toxicology, Pathology and Laboratory Medicine, 030218 nuclear medicine & medical imaging, Electronics Engineering, 0302 clinical medicine, Medicine and Health Sciences, Photon beam, Materials, Multidisciplinary, Phantoms, Imaging, Physics, Electromagnetic Radiation, Radiotherapy Dosage, Cancer treatment, Oncology, 030220 oncology & carcinogenesis, Physical Sciences, Engineering and Technology, Medicine, Elementary Particles, Research Article, Clinical Oncology, Materials science, Photoluminescence, Amorphous Solids, Science, Materials Science, Radiation Therapy, Radiation Dosage, Sensitivity and Specificity, 03 medical and health sciences, Irradiation, Particle Physics, Photons, Dosimeter, Toxicity, Radiation Dosimeters, business.industry, Biology and Life Sciences, Diodes, Photon beams, Glass, Clinical Medicine, Electronics, Nuclear medicine, business, Sensitivity (electronics)

Abstract

Background This study investigated the effect of accumulated doses on radio-photoluminescence glass dosimeters (RPLGDs) from measurements involving mega-voltage photons. Methods Forty-five commercially available RPLGDs were irradiated to estimate their dose responses. Photon beams of 6, 10, and 15 MV were irradiated onto the RPLGDs inside a phantom, which were divided into five groups with different doses and energies. Groups 1 and 2 were irradiated at 1, 5, 10, 50, and 100 Gy in a sequential manner; Group 3 was irradiated 10 times with a dose of 10 Gy; and Groups 4 and 5 followed the same method as that of Group 3, but with doses of 50 Gy and 100 Gy, respectively. Each device was subjected to a measurement reading procedure each time irradiation. Results For the annealed Group 1, RPLGD exhibited a linearity response with variance within 5%. For the non-annealed Group 2, readings demonstrated hyperlinearity at 6 MV and 10 MV, and linearity at 15 MV. Following the 100 Gy irradiation, the readings for Group 2 were 118.7 ± 1.9%, 112.2 ± 2.7%, and 101.5 ± 2.3% at 6, 10, and 15 MV, respectively. For Groups 3, 4, and 5, the responsiveness of the RPLGDs gradually decreased as the number of repeated irradiations increased. The percentage readings for the 10th beam irradiation with respect to the readings for the primary beam irradiation were 84.6 ± 1.9%, 87.5 ± 2.4%, and 93.0 ± 3.0% at 6 MV, 10 MV, and 15 MV, respectively. Conclusions The non-annealed RPLGD response to dose was hyperlinear for the 6 MV and 10 MV photon beams but not for the 15 MV photon beam. Additionally, the annealed RPLGD exhibited a fading phenomenon when the measurement was repeated several times and demonstrated a relatively large fading effect at low energies than at high energies.

Published

2020

8. A new perfusion culture method with a self-organized capillary network

Author

Yoshimi Yamaguchi, Shiori Usui, Koichi Nishiyama, Kei Sugihara, Yuji Nashimoto, Etsuko Kiyokawa, Sanshiro Hanada, Akiyoshi Uemura, Ryuji Yokokawa, and Takashi Miura

Subjects

Physiology, Microfluidics, Cell Culture Techniques, Biochemistry, Epithelium, Mice, Animal Cells, Blood Flow, Medicine and Health Sciences, Materials, Cells, Cultured, 0303 health sciences, Multidisciplinary, Chemistry, 030302 biochemistry & molecular biology, Extravasation, Cell biology, Body Fluids, Perfusion, Blood, Physical Sciences, Medicine, Engineering and Technology, Fluidics, Cellular Types, Anatomy, Lumen (unit), Research Article, Science, Amorphous Solids, Materials Science, 03 medical and health sciences, Perfusion Culture, Organoid, Human Umbilical Vein Endothelial Cells, Animals, Humans, 030304 developmental biology, Fibrin, Tissue Engineering, Spheroid, Biology and Life Sciences, Endothelial Cells, Proteins, Epithelial Cells, Cell Biology, Fibroblasts, Embryonic stem cell, In vitro, Capillaries, Biological Tissue, Mixtures, Cardiovascular Anatomy, Blood Vessels, Pericytes, Gels, Collagens

Abstract

A lack of perfusion has been one of the most significant obstacles for three-dimensional culture systems of organoids and embryonic tissues. Here, we developed a simple and reliable method to implement a perfusable capillary network in vitro. The method employed the self-organization of endothelial cells to generate a capillary network and a static pressure difference for culture medium circulation, which can be easily introduced to standard biological laboratories and enables long-term cultivation of vascular structures. Using this culture system, we perfused the lumen of the self-organized capillary network and observed a flow-induced vascular remodeling process, cell shape changes, and collective cell migration. We also observed an increase in cell proliferation around the self-organized vasculature induced by flow, indicating functional perfusion of the culture medium. We also reconstructed extravasation of tumor and inflammatory cells, and circulation inside spheroids including endothelial cells and human lung fibroblasts. In conclusion, this system is a promising tool to elucidate the mechanisms of various biological processes related to vascular flow.

Published

2020

9. Association of radiologic findings with mortality of patients infected with 2019 novel coronavirus in Wuhan, China

Author

Ming-Li Yuan, Yi Hu, Weijun Tan, Zhaowu Tao, and Wen Yin

Subjects

Male, Viral Diseases, Pulmonology, COVID-19, Glass, Pulmonary imaging, Pleural effusion, Computed axial tomography, Pneumonia, SARS, Death rates, Opacity, Comorbidity, Gastroenterology, Ground-glass opacity, Diagnostic Radiology, 030218 nuclear medicine & medical imaging, Lower zone, 0302 clinical medicine, Medicine and Health Sciences, Medicine, 030212 general & internal medicine, Lung, Optical Properties, Tomography, Materials, Multidisciplinary, Radiology and Imaging, Middle Aged, Prognosis, Pulmonary Imaging, Infectious Diseases, Predictive value of tests, Physical Sciences, Female, medicine.symptom, Coronavirus Infections, Zones of the lung, Research Article, China, medicine.medical_specialty, Optimal cutoff, Imaging Techniques, Death Rates, Amorphous Solids, Science, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Pneumonia, Viral, Materials Science, Material Properties, Air bronchogram, Neuroimaging, Research and Analysis Methods, Sensitivity and Specificity, 03 medical and health sciences, Population Metrics, Predictive Value of Tests, Diagnostic Medicine, Diabetes mellitus, Internal medicine, Humans, Aged, Retrospective Studies, Population Biology, Receiver operating characteristic, business.industry, Biology and Life Sciences, Retrospective cohort study, medicine.disease, Computed Axial Tomography, Pleural Effusion, ROC Curve, Tomography, X-Ray Computed, business, Neuroscience

Abstract

BackgroundRadiologic characteristics of 2019 novel coronavirus (2019-nCoV) infected pneumonia (NCIP) which had not been fully understood are especially important for diagnosing and predicting prognosis.PurposeTo summarize the clinical and radiologic characteristics of NCIP cases and analyze the association of radiologic findings with mortality cases.Material and methodsWe retrospective studied 27 consecutive patients who were confirmed NCIP, the clinical characteristics and CT image findings were collected, and the association of radiologic findings with mortality of patients was evaluated.Results27 patients included 12 men and 15 women, with median age of 60 years (IQR 47-69). 17 patients discharged in recovered condition and 10 patients died in hospital. The median age of mortality group was higher compared to survival group (68 (IQR 63-73) vs 55 (IQR 35-60), P = 0.003). The comorbidity rate in mortality group was significantly higher than in survival group (80% vs 29%, P = 0.018). The predominant CT characteristics consisted of ground glass opacity (67%), bilateral sides involved (86%), both peripheral and central distribution (74%), and lower zone involvement (96%). The median CT score of mortality group was higher compared to survival group (30 (IQR 7-13) vs 12 (IQR 11-43), P = 0.021), with more frequency of consolidation (40% vs 6%, P = 0.047) and air bronchogram (60% vs 12%, P = 0.025). An optimal cutoff value of a CT score of 24.5 had a sensitivity of 85.6% and a specificity of 84.5% for the prediction of mortality.Conclusions2019-nCoV was more likely to infect elderly people with chronic comorbidities. CT findings of NCIP were featured by predominant ground glass opacities mixed with consolidations, mainly peripheral or combined peripheral and central distributions, bilateral and lower lung zones being mostly involved. A simple CT scoring method was capable to predict mortality.

Published

2020

10. A Photonic crystal fiber with large effective refractive index separation and low dispersion

Author

Xun Xu, Hongzhi Jia, Weicheng Wang, Zhihao Geng, Hui Kang, Liu Xing, Ning Wang, and Keyao Li

Subjects

Optical Phenomena, Optical communication, Optical Analysis, Substrate (electronics), Multiplexing, Electricity, Photonic Crystals, Dispersion (optics), Fiber Optic Technology, Materials, Optical Fibers, Multidisciplinary, Crystallography, Refractive Index, Optical Materials, Physics, Applied Mathematics, Equipment Design, Condensed Matter Physics, Electric Field, Physical Sciences, Crystal Structure, Telecommunications, Medicine, Optoelectronics, Engineering and Technology, Photonic-crystal fiber, Research Article, Materials science, Science, Amorphous Solids, Materials Science, Finite Element Analysis, Research and Analysis Methods, Crystals, Zero-dispersion wavelength, Photonic Materials, Solid State Physics, Computer Simulation, Chemical Characterization, business.industry, Supercontinuum, Optical phenomena, Refractometry, Glass, business, Refractive index, Mathematics

Abstract

A photonic crystal fiber (PCF) structure with a ring-core and 5 well-ordered semiellipse air-holes has been creatively proposed. Through a comparison between the structures with a high refractive index (RI) ring-core and the structure without, it conclude that a PCF with a high RI ring-core can work better. Schott SF57 was elected as the substrate material of ring-core. This paper compares the effects of long-axis and short-axis changes on the PCF and selects the optimal solution. Especially TE0,1 mode's dispersion is maintained between 0 and 3 ps / (nm · km) ranging from 1.45 μm to 1.65 μm. This property can be used to generate a supercontinuum with 200 μm long zero dispersion wavelength (ZDM). In addition, Δneff reaches up to 10-3, which enables the near -degeneracy of the eigenmodes to be almost neglected. The proposed PCF structure will have great application value in the field of optical communications.

Published

2020

11. Effect of thermal ballast loading on temperature stability of domestic refrigerators used for vaccine storage

Author

Alexandra L Rodriguez and Michal J. Chojnacky

Subjects

Ballast, Science and Technology Workforce, Thermal Stability, Careers in Research, 0302 clinical medicine, Vaccine administration, Door opening, Refrigeration, Medicine and Health Sciences, 030212 general & internal medicine, Materials, Vaccines, Multidisciplinary, Waste management, Physics, Temperature, Equipment Design, Professions, Infectious Diseases, Thermocouples, Research Design, Physical Sciences, Medicine, Engineering and Technology, Thermodynamics, Algorithms, Research Article, Infectious Disease Control, Clinical Research Design, Science Policy, Science, Drug Storage, Amorphous Solids, 030231 tropical medicine, Materials Science, Refrigerator car, Equipment, Research and Analysis Methods, 03 medical and health sciences, Measurement Equipment, Temperature control, Engineers, Storage and Handling, People and Places, Environmental science, Population Groupings, Glass, Adverse Events

Abstract

Vaccine temperature control failures represent a significant public and private healthcare cost. Vaccines damaged by excessive heat or freezing lose their effectiveness, putting public health at risk. Some vaccine administration programs recommend placing water bottles inside domestic refrigerators used for vaccine storage as a thermal ballast, to mitigate temperature excursion risks. However, the effect of variable thermal ballast loading on refrigerator performance has not been thoroughly quantified or documented, and generalized programmatic recommendations are subject to end-user interpretation. Here we show that a thermal ballast load comprising ten to fifteen percent of the total refrigerator storage volume provides a measurable effect on domestic refrigerator temperature stability during power outage events, maintaining vaccine temperatures between 2 °C and 8 °C for 4 to 6 hours without power. Thermal ballast usage does not reliably reduce the frequency or severity of temperature excursions caused by repeated door opening, accidental "door left open" events, or refrigerator defrost cycle activation. Use of a moderate thermal ballast load is a practical strategy for mitigating temperature excursions risks in areas with frequent or protracted power outages, but the practice has limited benefit in other adverse scenarios. Empowering providers to make informed decisions about the use of thermal ballast materials supports better, safer vaccine management.

Published

2020

12. Mechanical characterization of PVA hydrogels' rate-dependent response using multi-axial loading

Author

Adil Al-Mayah and Wanis Nafo

Subjects

Economics, Polymers, Macroeconomics, Social Sciences, 02 engineering and technology, 0203 mechanical engineering, Indentation, Materials Testing, Instrument Calibration, Composite material, Materials, Instrumentation, Shear Stresses, Tensile testing, Multidisciplinary, Viscosity, Physics, Applied Mathematics, Rate dependent, Classical Mechanics, Hydrogels, 021001 nanoscience & nanotechnology, Finite element method, Deformation, Biomechanical Phenomena, Chemistry, 020303 mechanical engineering & transports, Elastomers, Macromolecules, Self-healing hydrogels, Physical Sciences, Medicine, Engineering and Technology, Mechanical Stress, 0210 nano-technology, Material properties, Research Article, Equipment Preparation, Materials science, Science, Amorphous Solids, Finite Element Analysis, Materials Science, Material Properties, Bioengineering, Research and Analysis Methods, Viscoelasticity, Elasticity (economics), Damage Mechanics, Inflation Rates, Polymer Chemistry, Elasticity, Polyvinyl Alcohol, Mixtures, Acrylics, Stress, Mechanical, Gels, Mathematics

Abstract

The time-dependent properties of rubber-like synthesized and biological materials are crucial for their applications. Currently, this behavior is mainly measured using axial tensile test, compression test, or indentation. Limited studies performed on using multi-axial loading measurements of time-dependent material behavior exist in the literature. Therefore, the aim of this study is to investigate the viscoelastic response of rubber-like materials under multi-axial loading using cavity expansion and relaxation tests. The tests were performed on PVA hydrogel specimens. Three hyperelasitc models and one term Prony series were used to characterize the viscoelastic response of the hydrogels. Finite element (FE) simulations were performed to verify the validity of the calibrated material coefficients by reproducing the experimental results. The excellent agreement between the experimental, analytical and numerical data proves the capability of the cavity expansion technique to measure the time-dependent behavior of viscoelastic materials.

Published

2020

13. Injectable diblock copolypeptide hydrogel provides platform to deliver effective concentrations of paclitaxel to an intracranial xenograft model of glioblastoma

Author

Harley I. Kornblum, Alexander M. Bernstein, Derek Hung, Timothy M. O’Shea, Alexander L. Wollenberg, Horacio Soto, Brittany Staarman, Timothy J. Deming, Michael V. Sofroniew, Matthew Garrett, and Fillmore, Helen

Subjects

Central Nervous System, Macroglial Cells, Luminescence, Future studies, Cancer Treatment, Improved survival, Optical Analysis, Mice, SCID, chemistry.chemical_compound, Mice, 0302 clinical medicine, Animal Cells, Mice, Inbred NOD, Phytogenic, Medicine and Health Sciences, Materials, Chemotherapeutic Agents, Cancer, Drug Carriers, Multidisciplinary, Tumor, Physics, Electromagnetic Radiation, Drugs, Hydrogels, Survival Rate, Oncology, Paclitaxel, 030220 oncology & carcinogenesis, Physical Sciences, Medicine, Oncology Agents, Bioluminescence, Cellular Types, medicine.symptom, Research Article, medicine.drug, Imaging Techniques, General Science & Technology, Science, Amorphous Solids, Materials Science, Glial Cells, Inflammation, Antineoplastic Agents, Bioengineering, Research and Analysis Methods, SCID, Cell Line, 03 medical and health sciences, Malignant Tumors, Rare Diseases, Cell Line, Tumor, medicine, Temozolomide, Animals, Humans, Chemical Characterization, Pharmacology, Bioluminescence Imaging, business.industry, Neurotoxicity, Neurosciences, Cancers and Neoplasms, Biology and Life Sciences, Cell Biology, medicine.disease, Antineoplastic Agents, Phytogenic, Xenograft Model Antitumor Assays, Brain Disorders, First line treatment, Brain Cancer, chemistry, Mixtures, Astrocytes, Cancer research, Inbred NOD, business, Glioblastoma, Peptides, Gels, 030217 neurology & neurosurgery

Abstract

Author(s): Garrett, Matthew C; O'Shea, Timothy M; Wollenberg, Alexander L; Bernstein, Alexander M; Hung, Derek; Staarman, Brittany; Soto, Horacio; Deming, Timothy J; Sofroniew, Michael V; Kornblum, Harley I | Abstract: IntroductionSurgical resection and systemic chemotherapy with temozolomide remain the mainstay for treatment of glioblastoma. However, many patients are not candidates for surgical resection given inaccessible tumor location or poor health status. Furthermore, despite being first line treatment, temozolomide has only limited efficacy.MethodsThe development of injectable hydrogel-based carrier systems allows for the delivery of a wide range of chemotherapeutics that can achieve high local concentrations, thus potentially avoiding systemic side effects and wide-spread neurotoxicity. To test this modality in a realistic environment, we developed a diblock copolypeptide hydrogel (DCH) capable of carrying and releasing paclitaxel, a compound that we found to be highly potent against primary gliomasphere cells.ResultsThe DCH produced minimal tissue reactivity and was well tolerated in the immune-competent mouse brain. Paclitaxel-loaded hydrogel induced less tissue damage, cellular inflammation and reactive astrocytes than cremaphor-taxol (typical taxol-carrier) or hydrogel alone. In a deep subcortical xenograft model of glioblastoma in immunodeficient mice, injection of paclitaxel-loaded hydrogel led to local tumor control and improved survival. However, the tumor cells were highly migratory and were able to eventually escape the area of treatment.ConclusionsThese findings suggest this technology may be ultimately applicable to patients with deep-seated inoperable tumors, but as currently formulated, complete tumor eradication would be highly unlikely. Future studies should focus on targeting the migratory potential of surviving cells.

Published

2020

14. Maintaining resting cardiac fibroblasts in vitro by disrupting mechanotransduction

Author

Cord Brakebusch, George K. Gilles, Andrew D. McCulloch, and Kate M. Herum

Subjects

0301 basic medicine, Cardiac fibrosis, Cellular differentiation, Receptor, Transforming Growth Factor-beta Type I, Social Sciences, Gene Expression, 030204 cardiovascular system & hematology, Cell morphology, Mechanotransduction, Cellular, Biochemistry, Stiffness, Mice, 0302 clinical medicine, Animal Cells, Medicine and Health Sciences, Psychology, Mechanotransduction, Materials, Musculoskeletal System, Connective Tissue Cells, rho-Associated Kinases, Smooth Muscles, Multidisciplinary, biology, Chemistry, Muscles, Cell Differentiation, Cell biology, Phenotype, Connective Tissue, Physical Sciences, Medicine, Cellular Types, Anatomy, ACTA2, Myofibroblast, Research Article, Amorphous Solids, Science, Materials Science, Material Properties, macromolecular substances, Periostin, 03 medical and health sciences, Genetics, medicine, Animals, Mechanical Properties, Behavior, Myocardium, Biology and Life Sciences, Proteins, Cell Biology, Fibroblasts, medicine.disease, Biological Tissue, 030104 developmental biology, Mixtures, biology.protein, Sedentary Behavior, Gels, Collagens, Developmental Biology, Transforming growth factor

Abstract

Mechanical cues activate cardiac fibroblasts and induce differentiation into myofibroblasts, which are key steps for development of cardiac fibrosis. In vitro, the high stiffness of plastic culturing conditions will also induce these changes. It is therefore challenging to study resting cardiac fibroblasts and their activation in vitro. Here we investigate the extent to which disrupting mechanotransduction by culturing cardiac fibroblasts on soft hydrogels or in the presence of biochemical inhibitors can be used to maintain resting cardiac fibroblasts in vitro. Primary cardiac fibroblasts were isolated from adult mice and cultured on plastic or soft (4.5 kPa) polyacrylamide hydrogels. Myofibroblast marker gene expression and smooth muscle α-actin (SMA) fibers were quantified by real-time PCR and immunostaining, respectively. Myofibroblast differentiation was prevented on soft hydrogels for 9 days, but had occurred after 15 days on hydrogels. Transferring myofibroblasts to soft hydrogels reduced expression of myofibroblast-associated genes, albeit SMA fibers remained present. Inhibitors of transforming growth factor β receptor I (TGFβRI) and Rho-associated protein kinase (ROCK) were effective in preventing and reversing myofibroblast gene expression. SMA fibers were also reduced by blocker treatment although cell morphology did not change. Reversed cardiac fibroblasts maintained the ability to re-differentiate after the removal of blockers, suggesting that these are functionally similar to resting cardiac fibroblasts. However, actin alpha 2 smooth muscle (Acta2), lysyl oxidase (Lox) and periostin (Postn) were no longer sensitive to substrate stiffness, suggesting that transient treatment with mechanotransduction inhibitors changes the mechanosensitivity of some fibrosis-related genes. In summary, our results bring novel insight regarding the relative importance of specific mechanical signaling pathways in regulating different myofibroblast-associated genes. Furthermore, combining blocker treatment with the use of soft hydrogels has not been tested previously and revealed that only some genes remain mechano-sensitive after phenotypic reversion. This is important information for researchers using inhibitors to maintain a "resting" cardiac fibroblast phenotype in vitro as well as for our current understanding of mechanosensitive gene regulation.

Published

2020

15. 3D engineered human gingiva fabricated with electrospun collagen scaffolds provides a platform for in vitro analysis of gingival seal to abutment materials

Author

Wichurat Sakulpaptong, Isabelle A. Clairmonte, Britani N. Blackstone, Binnaz Leblebicioglu, and Heather M. Powell

Subjects

Keratinocytes, Surface Properties, Science, Amorphous Solids, Materials Science, Gingiva, Bioengineering, Research and Analysis Methods, Biochemistry, Epithelium, Production Engineering, Animal Cells, Industrial Engineering, Materials Testing, Medicine and Health Sciences, Cell Adhesion, Humans, Electron Microscopy, Materials, Connective Tissue Cells, Skin, Dental Implants, Titanium, Microscopy, Multidisciplinary, Biology and Life Sciences, Proteins, Cell Biology, Dermis, Fibroblasts, Biological Tissue, Connective Tissue, Mixtures, Physical Sciences, Medicine, Engineering and Technology, Scanning Electron Microscopy, Collagen, Cellular Types, Anatomy, Integumentary System, Collagens, Gels, Research Article

Abstract

In order to advance models of human oral mucosa towards routine use, these models must faithfully mimic the native tissue structure while also being scalable and cost efficient. The goal of this study was to develop a low-cost, keratinized human gingival model with high fidelity to human attached gingiva and demonstrate its utility for studying the implant-tissue interface. Primary human gingival fibroblasts (HGF) and keratinocytes (HGK) were isolated from clinically healthy gingival biopsies. Four matrices, electrospun collagen (ES), decellularized dermis (DD), type I collagen gels (Gel) and released type I collagen gels (Gel-R)) were tested to engineer lamina propria and gingiva. HGF viability was similar in all matrices except for Gel-R, which was significantly decreased. Cell penetration was largely limited to the top layers of all matrices. Histomorphometrically, engineered human gingiva was found to have similar appearance to the native normal human gingiva except absence of rete pegs. Immunohistochemical staining for cell phenotype, differentiation and extracellular matrix composition and organization within 3D engineered gingiva made with electrospun collagen was mostly in agreement with normal gingival tissue staining. Additionally, five types of dental material posts (5-mm diameter x 3-mm height) with different surface characteristics were used [machined titanium, SLA (sandblasted-acid etched) titanium, TiN-coated (titanium nitride-coated) titanium, ceramic, and PEEK (Polyetheretherketone) to investigate peri-implant soft tissue attachment studied by histology and SEM. Engineered epithelial and stromal tissue migration to the implant-gingival tissue interface was observed in machined, SLA, ceramic, and PEEK groups, while TiN was lacking attachment. Taken together, the results suggest that electrospun collagen scaffolds provide a scalable, reproducible and cost-effective lamina propria and 3D engineered gingiva that can be used to explore biomaterial-soft tissue interface.

Published

2022

16. Efficacy and safety of a thermosensitive hydrogel for endoscopic submucosal dissection: An in vivo swine study

Author

Han Jo Jeon, Hyuk Soon Choi, Eun Ju Bang, Kang Won Lee, Sang Hyun Kim, Jae Min Lee, Eun Sun Kim, Bora Keum, Yoon Tae Jeen, Hong Sik Lee, Hoon Jai Chun, Seung Jeong, and Jong Hyuk Kim

Subjects

Endoscopic Mucosal Resection, Colon, Swine, Physiology, Science, Amorphous Solids, Materials Science, Surgical and Invasive Medical Procedures, Hemorrhage, Vascular Medicine, Injections, Body Temperature, Signs and Symptoms, Medicine and Health Sciences, Animals, Hyaluronic Acid, Materials, Mammals, Ulcers, Chitosan, Multidisciplinary, Stomach, Organisms, Biology and Life Sciences, Eukaryota, Hydrogels, Endoscopy, Gastrointestinal Tract, Physiological Parameters, Glycerophosphates, Mixtures, Vertebrates, Amniotes, Physical Sciences, Medicine, Thermodynamics, Female, Saline Solution, Anatomy, Clinical Medicine, Zoology, Digestive System, Gels, Research Article

Abstract

Injectable thermo-sensitive chitosan hydrogels have recently been developed for the use of submucosal fluids in endoscopic submucosal dissections (ESD). This study aimed to investigate the efficacy and safety of chitosan hydrogels during ESD. Submucosal fluids were administered as follows: 0.9% normal saline (NS), 0.4% hyaluronic acid (HA) and chitosan/β-glycerophosphate (CS/GP) hydrogel. Each solution was administered twice into the stomach and colon of a pig, with a total of 72 ESD procedures performed on 12 pigs. The injected volume and procedure-related parameters were recorded and analyzed. ESDs that created ulcers after 7 days were histologically compared. All ESD specimens were resected en bloc. The total injected volumes during ESD of the stomach (NS, 16.09±3.27 vs. HA, 11.17±2.32 vs. CS/GP, 9.44±2.33; p2/vol; NS, 35.70±9.00 vs. CS/GP 57.48±20.77; p = 0.001) and consumption rate (vol/min; NS, 2.59±0.86 vs. CS/GP, 1.62±0.65; p = 0.013) in the stomach. Histological examination revealed preserved muscularis propria, although the chitosan hydrogel resulted in a partial inflammatory response, with a hypertrophied submucosal layer. Chitosan hydrogel was found to be superior to normal saline, with an efficacy similar to that of hyaluronic acid. Nonetheless, long-term histological changes should be evaluated before clinical implementation.

Published

2021

17. Construction of ferritin hydrogels utilizing subunit–subunit interactions

Author

Michio Ogihara, Shun Hirota, Takayuki Uchihashi, Mei Okamoto, Tsuyoshi Mashima, and Masaru Yamanaka

Subjects

Biocompatible Materials, Microscopy, Atomic Force, Biochemistry, Mass Spectrometry, Analytical Chemistry, chemistry.chemical_compound, Spectrum Analysis Techniques, Desorption, Macromolecular Structure Analysis, Denaturation (biochemistry), Matrix-Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry, Guanidine, Materials, Extracellular Matrix Proteins, Microscopy, Multidisciplinary, biology, Hydrogels, Matrix-Assisted Laser Desorption Ionization Mass Spectrometry, Atomic Force Microscopy, Denaturation, Chemistry, Metals, Physical Sciences, Self-healing hydrogels, Medicine, Research Article, inorganic chemicals, Protein Structure, Iron, Amorphous Solids, Science, Metal ions in aqueous solution, Materials Science, Ethylenediaminetetraacetic acid, macromolecular substances, Research and Analysis Methods, complex mixtures, Adsorption, Molecular Biology Techniques, Molecular Biology, Ions, Ferritin, Scanning Probe Microscopy, technology, industry, and agriculture, Proteins, Water, Biology and Life Sciences, Protein Complexes, Nanostructures, chemistry, Chemical engineering, Mixtures, Apoferritins, Ferritins, biology.protein, Protein Structure Networks, Gels

Abstract

Various proteins form nanostructures exhibiting unique functions, making them attractive as next-generation materials. Ferritin is a hollow spherical protein that incorporates iron ions. Here, we found that hydrogels are simply formed from concentrated apoferritin solutions by acid denaturation and subsequent neutralization. The water content of the hydrogel was approximately 80%. The apoferritin hydrogel did not decompose in the presence of 1 M HCl, 2-mercaptoethanol, or methanol but was dissolved in the presence of 1 M NaOH, by heating at 80°C, or by treatment with trypsin or 6 M guanidine hydrochloride. The Young’s modulus of the hydrogel was 20.4 ± 12.1 kPa according to local indentation experimentes using atomic force microscopy, indicating that the hydrogel was relatively stiff. Transition electron microscopy measurements revealed that a fibrous network was constructed in the hydrogel. The color of the hydrogel became yellow-brown upon incubation in the presence of Fe3+ ions, indicating that the hydrogel adsorbed the Fe3+ ions. The yellow-brown color of the Fe3+-adsorbed hydrogel did not change upon incubation in pure water, whereas it became pale by incubating it in the presence of 100 mM ethylenediaminetetraacetic acid (EDTA). The apoferritin hydrogel also adsorbed Co2+ and Cu2+ ions and released them in the presence of EDTA, while it adsorbed less Ni2+ ions; more Fe3+ ions adsorbed to the apoferritin hydrogel than other metal ions, indicating that the hydrogel keeps the iron storage characteristic of ferritin. These results demonstrate a new property of ferritin: the ability to form a hydrogel that can adsorb/desorb metal ions, which may be useful in designing future biomaterials.

Published

2021

18. Poly(amino acid) based fibrous membranes with tuneable in vivo biodegradation

Author

Kristof Molnar, Krisztina Nagy, Gábor Varga, Zoltan Kiss, David Juriga, Andrea Ferencz, Eniko Krisch, Miklós Zrínyi, Constantinos Voniatis, György Wéber, Angela Jedlovszky-Hajdu, Györgyi Szabó, Lilla Reiniger, Rita Varga, and Daniella Fehér

Subjects

Male, Medical Implants, Applied Microbiology, Biocompatible Materials, Physical Chemistry, Aspartic acid, Medicine and Health Sciences, Cross-Linking, Electron Microscopy, Amino Acids, Immune Response, Materials, Fixation (histology), chemistry.chemical_classification, Microscopy, Multidisciplinary, Chemistry, Hydrolysis, Chemical Reactions, Amino acid, Membrane, Connective Tissue, Physical Sciences, Biodegradation, Engineering and Technology, Medicine, Scanning Electron Microscopy, Anatomy, Research Article, Biotechnology, Amorphous Solids, Science, Biomaterial Implants, Immunology, Materials Science, Bioengineering, Research and Analysis Methods, Microbiology, Signs and Symptoms, Environmental Biotechnology, In vivo, Cell Line, Tumor, Ultimate tensile strength, Animals, Humans, Rats, Wistar, Inflammation, Chemical Bonding, Biology and Life Sciences, Membranes, Artificial, Biological Tissue, Mixtures, Granulation Tissue, Biophysics, Medical Devices and Equipment, Stress, Mechanical, Clinical Medicine, Gels

Abstract

In this work two types of biodegradable polysuccinimide-based, electrospun fibrous membranes are presented. One contains disulfide bonds exhibiting a shorter (3 days) in vivo biodegradation time, while the other one has alkyl crosslinks and a longer biodegradation time (more than 7 days). According to the mechanical measurements, the tensile strength of the membranes is comparable to those of soft the connective tissues and visceral tissues. Furthermore, the suture retention test suggests, that the membranes would withstand surgical handling and in vivo fixation. The in vivo biocompatibility study demonstrates how membranes undergo in vivo hydrolysis and by the 3rd day they become poly(aspartic acid) fibrous membranes, which can be then enzymatically degraded. After one week, the disulfide crosslinked membranes almost completely degrade, while the alkyl-chain crosslinked ones mildly lose their integrity as the surrounding tissue invades them. Histopathology revealed mild acute inflammation, which diminished to a minimal level after seven days.

Published

2021

19. Ambient light level varies with different locations and environmental conditions: Potential to impact myopia

Author

Vishwa Sanghavi, Rohit Dhakal, Shashank Kishore Bhandary, and Pavan K. Verkicharla

Subjects

Time Factors, Light, Meteorology, Summer, Amorphous Solids, Science, Materials Science, Lux, Environment, 03 medical and health sciences, Light level, 0302 clinical medicine, Light source, Ocular System, Medicine and Health Sciences, Myopia, Humans, 030212 general & internal medicine, Materials, Weather, Visual Impairments, Sunlight, Multidisciplinary, Artificial light, Physics, Electromagnetic Radiation, Biology and Life Sciences, Floor level, Illuminance, Ophthalmology, Artificial Light, Physical Sciences, Porch, Earth Sciences, 030221 ophthalmology & optometry, Eyes, Medicine, Environmental science, Solar Radiation, Seasons, Glass, Anatomy, Head, Research Article

Abstract

Purpose Considering that time spent outdoors is protective for myopia, we investigated how ambient light levels reaching the eye varies across 9 outdoor and 4 indoor locations in 5 different environmental conditions. Methods Illuminance (lux) was recorded using a lux meter under conditions of weather (sunny/cloudy), time of a day (7:00,10:00,13:00, and 16:00 hours), seasons (summer/winter), and sun protection (hat and cap) in outdoor and indoor locations. Nine outdoor locations were “open playground”, “under a translucent artificial-shade”, “under a porch facing east”, “under a porch facing south”, “under a big tree”, “between three buildings”, “within 4 buildings”, and “canopy”. As a ninth outdoor location, “Under a glass bowl” in the outdoor location was used as a simulation for “glass classroom model” and measurement was taken at the floor level only to determine in overall the illuminance conditions with glass covered on all sides. The 4 indoor locations included “room with multiple large windows”, “room with combination light source”, “room with multiple artificial lights”, and “room with single artificial light”. Results The overall median illuminance level (median; Q1-Q3) recorded in 9 outdoor locations was 8 times higher than that of all indoor locations (1175;197–5400 lux vs. 179;50–333 lux). Highest illuminance in outdoor locations was recorded in “open playground” (9300;4100–16825 lux), followed by “under a translucent artificial shade (8180;4200–13300 lux) and the lowest in “within 4 buildings” (11;6–20 lux). Illuminance under ‘Canopy’, ‘between three buildings’ and ‘within four buildings’ was similar to that of indoor locations (1000 to Conclusions Illuminance levels in outdoors and indoors varied with location type, but not with other conditions. Given the variation in illuminance in different locations, and the impact it may have on myopia control, appropriate detailed recommendations seems necessary while suggesting time outdoors as an anti-myopia strategy to ensure desired outcomes.

Published

2021

20. Hyaluronic acid on the urokinase sustained release with a hydrogel system composed of poloxamer 407: HA/P407 hydrogel system for drug delivery

Author

Yi-Chen Li, Ke-Cheng Chen, Hao-Ying Hsieh, Tai-Horng Young, Yi-Jane Chen, Wei-Yang Lin, and An Li Lee

Subjects

Time Factors, Polymers, Cytotoxicity, 02 engineering and technology, Toxicology, Pathology and Laboratory Medicine, 01 natural sciences, Physical Chemistry, chemistry.chemical_compound, Materials Physics, Hyaluronic acid, Medicine and Health Sciences, Hyaluronic Acid, Materials, Microstructure, Drug Carriers, Multidisciplinary, Chemistry, Pharmaceutics, Physics, Temperature, Hydrogels, 021001 nanoscience & nanotechnology, Extracellular Matrix, Solutions, medicine.anatomical_structure, Macromolecules, Drug delivery, Physical Sciences, Medicine, Engineering and Technology, 0210 nano-technology, medicine.drug, Research Article, Science, Amorphous Solids, Materials Science, Material Properties, Poloxamer, Aqueous Solutions, 010402 general chemistry, Cell Line, Fibrinolytic Agents, Toxicity Tests, medicine, Humans, Empyema, Pleural, Urokinase, Fibrin, Chromatography, Surface Treatments, Pleural empyema, Biology and Life Sciences, Pleural cavity, medicine.disease, Polymer Chemistry, Urokinase-Type Plasminogen Activator, Empyema, 0104 chemical sciences, Chemical Deposition, Drug Liberation, Solubility, Manufacturing Processes, Delayed-Action Preparations, Mixtures, Poloxamer 407, Drug Delivery, Gels

Abstract

Pleural empyema is an inflammatory condition characterized by accumulation of pus inside the pleural cavity, which is usually followed by bacterial pneumonia. During the disease process, the pro-inflammatory and pro-fibrotic cytokines in the purulent pleural effusion cause proliferation of fibroblasts and deposition of extracellular matrix, which lead to fibrin deposition and fibrothorax. Urokinase instillation therapy through a chest drainage tube is frequently used for fibrinolysis in patients with empyema. However, urokinase treatment requires multiple instillation (2-3 times per day, for 4-8 days) and easily flows out from the chest drainage tube due to its high water solubility. In this in vitro study, we developed a thermo-responsive hydrogel based on poloxamer 407 (P407) combined with hyaluronic acid (HA) for optimal loading and release of urokinase. Our results show that the addition of HA to poloxamer gels provides a significantly more compact microstructure, with smaller pore sizes (**p < 0.001). The differential scanning calorimetry (DSC) profile revealed no influence on the micellization intensity of poloxamer gel by HA. The 25% poloxamer-based gel was significantly superior to the 23% poloxamer-based gel, with slower gel erosion when comparing the 16th hour residual gel weight of both gels (*p < 0.05; **p < 0.001). The 25% poloxamer-HA gel also exhibited a superior urokinase release profile and longer release time. A Fourier-transform infrared spectroscopy (FT-IR) study of the P407/HA hydrogel showed no chemical interactions between P407 and HA in the hydrogel system. The thermoresponsive P407/HA hydrogel may have a promising potential in the loading and delivery of hydrophilic drugs. On top of that, in vitro toxicity test of this combination demonstrates a lower toxicity.

Published

2019

21. Rapid exposure of macrophages to drugs resolves four classes of effects on the leading edge sensory pseudopod: Non-perturbing, adaptive, disruptive, and activating

Author

Danijel Djukovic, Joseph J. Falke, Thomas C. Buckles, and Brian P. Ziemba

Subjects

0301 basic medicine, Leukocyte migration, Physiology, Cell, Ibuprofen, Biochemistry, Wortmannin, chemistry.chemical_compound, Mice, White Blood Cells, Cell Signaling, Cell Movement, Animal Cells, Medicine and Health Sciences, Pseudopodia, Materials, education.field_of_study, Multidisciplinary, biology, Chemistry, Cell Polarity, Adaptation, Physiological, Lipids, Cell biology, Body Fluids, medicine.anatomical_structure, Blood, Lipid Signaling, Physical Sciences, Medicine, Biological Cultures, medicine.symptom, Cellular Types, Anatomy, Platelet-derived growth factor receptor, Research Article, Signal Transduction, Diclofenac, Imaging Techniques, Science, Immune Cells, Amorphous Solids, Population, Immunology, Materials Science, Inflammation, Research and Analysis Methods, Time-Lapse Imaging, Blood Plasma, 03 medical and health sciences, Fluorescence Imaging, medicine, Animals, Humans, education, Acetaminophen, Innate immune system, Blood Cells, 030102 biochemistry & molecular biology, Aspirin, Macrophages, Biology and Life Sciences, Cell Biology, Cell Cultures, Immunity, Innate, 030104 developmental biology, RAW 264.7 Cells, biology.protein, Glass

Abstract

Leukocyte migration is controlled by a membrane-based chemosensory pathway on the leading edge pseudopod that guides cell movement up attractant gradients during the innate immune and inflammatory responses. This study employed single cell and population imaging to investigate drug-induced perturbations of leading edge pseudopod morphology in cultured, polarized RAW macrophages. The drugs tested included representative therapeutics (acetylsalicylic acid, diclofenac, ibuprofen, acetaminophen) as well as control drugs (PDGF, Gö6976, wortmannin). Notably, slow addition of any of the four therapeutics to cultured macrophages, mimicking the slowly increasing plasma concentration reported for standard oral dosage in patients, yielded no detectable change in pseudopod morphology. This finding is consistent with the well established clinical safety of these drugs. However, rapid drug addition to cultured macrophages revealed four distinct classes of effects on the leading edge pseudopod: (i) non-perturbing drug exposures yielded no detectable change in pseudopod morphology (acetylsalicylic acid, diclofenac); (ii) adaptive exposures yielded temporary collapse of the extended pseudopod and its signature PI(3,4,5)P3 lipid signal followed by slow recovery of extended pseudopod morphology (ibuprofen, acetaminophen); (iii) disruptive exposures yielded long-term pseudopod collapse (Gö6976, wortmannin); and (iv) activating exposures yielded pseudopod expansion (PDGF). The novel observation of adaptive exposures leads us to hypothesize that rapid addition of an adaptive drug overwhelms an intrinsic or extrinsic adaptation system yielding temporary collapse followed by adaptive recovery, while slow addition enables gradual adaptation to counteract the drug perturbation in real time. Overall, the results illustrate an approach that may help identify therapeutic drugs that temporarily inhibit the leading edge pseudopod during extreme inflammation events, and toxic drugs that yield long term inhibition of the pseudopod with negative consequences for innate immunity. Future studies are needed to elucidate the mechanisms of drug-induced pseudopod collapse, as well as the mechanisms of adaptation and recovery following some inhibitory drug exposures.

Published

2019

22. Fibrin hydrogels are safe, degradable scaffolds for sub-retinal implantation

Author

Jarel K. Gandhi, Alan D. Marmorstein, Timothy W. Olsen, Michael P. Fautsch, Raymond Iezzi, Jose S. Pulido, Fukutaro Mano, Brad H. Holman, and Stephen A. LoBue

Subjects

Scaffold, Medical Implants, Swine, Sus scrofa, Biochemistry, chemistry.chemical_compound, Macular Degeneration, 0302 clinical medicine, Absorbable Implants, Medicine and Health Sciences, Geriatric Ophthalmology, Materials, Mammals, 0303 health sciences, Multidisciplinary, biology, Tissue Scaffolds, Chemistry, Retinal Degeneration, Eukaryota, Equipment Design, medicine.anatomical_structure, Self-healing hydrogels, Physical Sciences, Vertebrates, Medicine, Engineering and Technology, Retinal Disorders, Female, Anatomy, Research Article, Biotechnology, Science, Ocular Anatomy, Amorphous Solids, Materials Science, Bioengineering, Fibrin, Retina, 03 medical and health sciences, Ocular System, medicine, Animals, 030304 developmental biology, Retinal pigment epithelium, Organisms, Biology and Life Sciences, Proteins, Retinal, eye diseases, Transplantation, Ophthalmology, Geriatrics, Mixtures, Macular Disorders, Amniotes, 030221 ophthalmology & optometry, biology.protein, Eyes, Medical Devices and Equipment, Implant, sense organs, Head, Gels, Biomedical engineering

Abstract

Retinal pigment epithelium (RPE) transplantation for the treatment of macular degeneration has been studied for over 30 years. Human clinical trials have demonstrated that RPE monolayers exhibit improved cellular engraftment and survival compared to single cell suspensions. The use of a scaffold facilitates implantation of a flat, wrinkle-free, precisely placed monolayer. Scaffolds currently being investigated in human clinical trials are non-degradable which results in the introduction of a chronic foreign body. To improve RPE transplant technology, a degradable scaffold would be desirable. Using human fibrin, we have generated scaffolds that support the growth of an RPE monolayer in vitro. To determine whether these scaffolds are degraded in vivo, we developed a surgical approach that delivers a fibrin hydrogel implant to the sub-retinal space of the pig eye and determined whether and how fast they degraded. Using standard ophthalmic imaging techniques, the fibrin scaffolds were completely degraded by postoperative week 8 in 5 of 6 animals. Postmortem histologic analysis confirmed the absence of the scaffold from the subretinal space at 8 weeks, and demonstrated the reattachment of the neurosensory retina and a normal RPE-photoreceptor interface. When mechanical debridement of a region of native RPE was performed during implantation surgery degradation was accelerated and scaffolds were undetectable by 4 weeks. These data represent the first in situ demonstration of a fully biodegradable scaffold for use in the implantation of RPE and other cell types for treatment of macular degeneration and other retinal degenerative diseases.

Published

2019

23. Optimization of a chest computed tomography protocol for detecting pure ground glass opacity nodules: A feasibility study with a computer-assisted detection system and a lung cancer screening phantom

Author

Kyunghwa Han, Seongmin Kang, Tae Hoon Kim, Jae Min Shin, Chul Hwan Park, Baeggi Min, and Ji-Young Kim

Subjects

Male, Lung Neoplasms, Pathology and Laboratory Medicine, Ground-glass opacity, Lung and Intrathoracic Tumors, 030218 nuclear medicine & medical imaging, Diagnostic Radiology, 0302 clinical medicine, False positive paradox, Medicine and Health Sciences, Lung, Tomography, Materials, Optical Properties, Early Detection of Cancer, Multidisciplinary, Radiology and Imaging, Applied Mathematics, Simulation and Modeling, Thorax, Pulmonary Imaging, Oncology, 030220 oncology & carcinogenesis, Physical Sciences, Medicine, medicine.symptom, Cancer Screening, Algorithms, Research Article, Adult, Opacity, Scanner, Materials science, Imaging Techniques, Science, Amorphous Solids, Materials Science, Material Properties, Neuroimaging, Iterative reconstruction, Research and Analysis Methods, Imaging phantom, 03 medical and health sciences, Signs and Symptoms, Diagnostic Medicine, Hounsfield scale, Image Interpretation, Computer-Assisted, medicine, Cancer Detection and Diagnosis, Humans, business.industry, Biology and Life Sciences, Cancers and Neoplasms, Computed Axial Tomography, Lesions, Feasibility Studies, Glass, Nuclear medicine, business, Tomography, X-Ray Computed, Lung cancer screening, Mathematics, Neuroscience

Abstract

Objective This study aimed to optimize computed tomography (CT) parameters for detecting ground glass opacity nodules (GGNs) using a computer-assisted detection (CAD) system and a lung cancer screening phantom. Methods A lung cancer screening phantom containing 15 artificial GGNs (-630 Hounsfield unit [HU], 2-10 mm) in the left lung was examined with a CT scanner. Three tube voltages of 80, 100, and 120 kVp were used in combination with five tube currents of 25, 50, 100, 200, and 400 mA; additionally, three slice thicknesses of 0.625, 1.25, and 2.5 mm and four reconstruction algorithms of adaptive statistical iterative reconstruction (ASIR-V) of 30, 60, and 90% were used. For each protocol, accuracy of the CAD system was evaluated for nine target GGNs of 6, 8, or 10 mm in size. The cut-off size was set to 5 mm to minimize false positives. Results Among the 180 combinations of tube voltage, tube current, slice thickness, and reconstruction algorithms, combination of 80 kVp, 200 mA, and 1.25-mm slice thickness with an ASIR-V of 90% had the best performance in the detection of GGNs with six true positives and no false positives. Other combinations had fewer than five true positives. In particular, any combinations with a 0.625-mm slice thickness had 0 true positive and at least one false positive result. Conclusion Low-voltage chest CT with a thin slice thickness and a high iterative reconstruction algorithm improve the detection rate of GGNs with a CAD system in a phantom model, and may have potential in lung cancer screening.

Published

2019

24. Free thiol groups on poly(aspartamide) based hydrogels facilitate tooth-derived progenitor cell proliferation and differentiation

Author

Evelin Sipos, Orsolya Hegedűs, Angela Jedlovszky-Hajdu, Miklós Zrínyi, David Juriga, Abdenaccer Idrissi, Gábor Varga, Constantinos Voniatis, Krisztina Nagy, and Akos Juhasz

Subjects

Polymers, 02 engineering and technology, Matrix (biology), 01 natural sciences, Regenerative medicine, Physical Chemistry, Cell Movement, Osteogenesis, Animal Cells, Cross-Linking, Electron Microscopy, Materials, education.field_of_study, Microscopy, Multidisciplinary, Tissue Scaffolds, Chemistry, Organic Compounds, Stem Cells, Physics, Phase Contrast Microscopy, Cell Differentiation, Hydrogels, 021001 nanoscience & nanotechnology, Self-healing hydrogels, Physical Sciences, Medicine, Scanning Electron Microscopy, Cellular Types, 0210 nano-technology, Elementary Particles, Research Article, Cell Survival, Periodontal Ligament, Science, Amorphous Solids, Population, Materials Science, 010402 general chemistry, Research and Analysis Methods, Thiols, Cell Adhesion, Humans, Viability assay, Sulfhydryl Compounds, Progenitor cell, education, Particle Physics, Cell Proliferation, Aspartic Acid, Photons, Chemical Bonding, Cell growth, Regeneration (biology), Organic Chemistry, Chemical Compounds, Biology and Life Sciences, Cell Biology, 0104 chemical sciences, Mixtures, Biophysics, Molar, Third, Gels, Developmental Biology

Abstract

Cell-based tissue reconstruction is an important field of regenerative medicine. Stem and progenitor cells derived from tooth-associated tissues have strong regeneration potential. However, their in vivo application requires the development of novel scaffolds that will provide a suitable three-dimensional (3D) environment allowing not only the survival of the cells but eliciting their proliferation and differentiation. Our aim was to study the viability and differentiation capacity of periodontal ligament cells (PDLCs) cultured on recently developed biocompatible and biodegradable poly(aspartamide) (PASP)-based hydrogels. Viability and behavior of PDLCs were investigated on PASP-based hydrogels possessing different chemical, physical and mechanical properties. Based on our previous results, the effect of thiol group density in the polymer matrix on cell viability, morphology and differentiation ability is in the focus of our article. The chemical composition and 3D structures of the hydrogels were determined by FT Raman spectroscopy and Scanning Electron Microscopy. Morphology of the cells was examined by phase contrast microscopy. To visualize cell growth and migration patterns through the hydrogels, two-photon microscopy were utilized. Cell viability analysis was performed according to a standardized protocol using WST-1 reagent. PDLCs were able to attach and grow on PASP-based hydrogels. An increase in gel stiffness enhanced adhesion and proliferation of the cells. However, the highest population of viable cells was observed on the PASP gels containing free thiol groups. The presence of thiol groups does not only enhance viability but also facilitates the osteogenic direction of the differentiating cells. These cell-gel structures seem to be highly promising for cell-based tissue reconstruction purposes in the field of regenerative medicine.

Published

2019

25. Engineering a 3D in vitro model of human skeletal muscle at the single fiber scale

Author

Nicola Vitulo, Nicolò Mattei, Monica Giomo, Camilla Luni, Libero Vitiello, Giulia Selmin, Anna Urciuolo, Giorgio Valle, Nicola Elvassore, Massimo Vetralla, Rusha Ghua, Susi Zatti, Elena Serena, Urciuolo, Anna, Serena, Elena, Ghua, Rusha, Zatti, Susi, Giomo, Monica, Mattei, Nicolò, Vetralla, Massimo, Selmin, Giulia, Luni, Camilla, Vitulo, Nicola, Valle, Giorgio, Vitiello, Libero, and Elvassore, Nicola

Subjects

0301 basic medicine, Muscle Fibers, Skeletal, Cell Culture Techniques, Molecular Conformation, Skeletal muscle, Gene Expression, 02 engineering and technology, 3D topology, scaffold, myogenic differentiation, Muscle Development, Sarcomere, Biochemistry, Myoblasts, Dystrophin, Mice, Contractile Proteins, Animal Cells, ES-derived myoblasts, Myosin, Materials Testing, Medicine and Health Sciences, Morphogenesis, Myocyte, Musculoskeletal System, Materials, Cells, Cultured, 3D topological cues, 3D cell culture, hydrogel scaffold, Multidisciplinary, Tissue Scaffolds, Myogenesis, Chemistry, Muscles, Stem Cells, Skeletal muscle tissue engineering, 3D myogenic cell culture, myobundles, human myoblasts, 2D vs 3D in vitro culture comparison, Cell Differentiation, Hydrogels, myobundle, 021001 nanoscience & nanotechnology, Muscle Differentiation, Cell biology, Myotube differentiation, medicine.anatomical_structure, 3D in vitro culture, Physical Sciences, Medicine, Single-Cell Analysis, Anatomy, Cellular Types, 0210 nano-technology, Extracellular matrix organization, Research Article, hydrogel laminin transcriptome, Science, Amorphous Solids, Materials Science, Motor Proteins, Actin Motors, Myosins, Models, Biological, 03 medical and health sciences, Molecular Motors, medicine, Genetics, Animals, Humans, Dimethylpolysiloxanes, Muscle, Skeletal, Sarcolemma, Tissue Engineering, Biology and Life Sciences, Proteins, Cell Biology, embryonic stem cell, Cytoskeletal Proteins, 030104 developmental biology, Skeletal Muscles, Mixtures, myotube, myoblast, hydrogel, transcriptome, Gels, Developmental Biology

Abstract

The reproduction of reliable in vitro models of human skeletal muscle is made harder by the intrinsic 3D structural complexity of this tissue. Here we coupled engineered hydrogel with 3D structural cues and specific mechanical properties to derive human 3D muscle constructs ("myobundles") at the scale of single fibers, by using primary myoblasts or myoblasts derived from embryonic stem cells. To this aim, cell culture was performed in confined, laminin-coated micrometric channels obtained inside a 3D hydrogel characterized by the optimal stiffness for skeletal muscle myogenesis. Primary myoblasts cultured in our 3D culture system were able to undergo myotube differentiation and maturation, as demonstrated by the proper expression and localization of key components of the sarcomere and sarcolemma. Such approach allowed the generation of human myobundles of ~10 mm in length and ~120 μm in diameter, showing spontaneous contraction 7 days after cell seeding. Transcriptome analyses showed higher similarity between 3D myobundles and skeletal signature, compared to that found between 2D myotubes and skeletal muscle, mainly resulting from expression in 3D myobundles of categories of genes involved in skeletal muscle maturation, including extracellular matrix organization. Moreover, imaging analyses confirmed that structured 3D culture system was conducive to differentiation/maturation also when using myoblasts derived from embryonic stem cells. In conclusion, our structured 3D model is a promising tool for modelling human skeletal muscle in healthy and diseases conditions.

Published

2019

26. Evaluation of the biocompatibility and stability of allogeneic tissue-engineered cartilage in humanized mice

Author

Perrier-Groult, Emeline, Pérès, Eléonore, Pasdeloup, Marielle, Gazzolo, Louis, Duc Dodon, Madeleine, Mallein-Gerin, Frédéric, Papaccio, Gianpaolo, Laboratoire de Biologie Tissulaire et d'ingénierie Thérapeutique UMR 5305 (LBTI), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), Laboratoire de biologie et modélisation de la cellule (LBMC UMR 5239), Université de Lyon-Université de Lyon-École normale supérieure - Lyon (ENS Lyon)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM), Département des Facteurs Humains, Service de Santé des Armées-Ministère de la Défense, Virologie humaine, École normale supérieure - Lyon (ENS Lyon)-IFR128-Institut National de la Santé et de la Recherche Médicale (INSERM), Institut de biologie et chimie des protéines [Lyon] (IBCP), Dipartimento di Medicina Sperimentale, Seconda Università degli Studi di Napoli, MALLEIN-GERIN, Frédéric, École normale supérieure - Lyon (ENS Lyon)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), This work was supported by CNRS-Lyon 1 University and Fondation ARTHRITIS (Grant obtained by Arthritis Fondation Courtin AO 2013 #105335 for EP-G)., École normale supérieure de Lyon (ENS de Lyon)-Université Claude Bernard Lyon 1 (UCBL), and Bodescot, Myriam

Subjects

0301 basic medicine, Cartilage, Articular, Male, Medical Implants, [SDV]Life Sciences [q-bio], 02 engineering and technology, Osteoarthritis, Mice, SCID, Biochemistry, Mice, White Blood Cells, Spectrum Analysis Techniques, Mice, Inbred NOD, Animal Cells, Medicine and Health Sciences, Autologous chondrocyte implantation, Materials, ComputingMilieux_MISCELLANEOUS, Cells, Cultured, Connective Tissue Cells, [SDV.MHEP.RSOA] Life Sciences [q-bio]/Human health and pathology/Rhumatology and musculoskeletal system, Multidisciplinary, Tissue Scaffolds, Chemistry, T Cells, Hematopoietic Stem Cell Transplantation, 021001 nanoscience & nanotechnology, Flow Cytometry, 3. Good health, Cell biology, [SDV] Life Sciences [q-bio], medicine.anatomical_structure, [SDV.MHEP.RSOA]Life Sciences [q-bio]/Human health and pathology/Rhumatology and musculoskeletal system, Connective Tissue, Spectrophotometry, Self-healing hydrogels, Physical Sciences, Medicine, [SDV.IMM]Life Sciences [q-bio]/Immunology, Engineering and Technology, Female, Cytophotometry, Anatomy, Cellular Types, 0210 nano-technology, Chondrogenesis, Research Article, Biotechnology, [SDV.IMM] Life Sciences [q-bio]/Immunology, Science, Amorphous Solids, Immune Cells, Materials Science, Biomaterial Implants, Immunology, Bioengineering, Research and Analysis Methods, 03 medical and health sciences, Chondrocytes, medicine, Animals, Humans, Transplantation, Homologous, Blood Cells, Tissue Engineering, Cartilage, Regeneration (biology), Macrophages, Biology and Life Sciences, Proteins, Cell Biology, medicine.disease, Hematopoietic Stem Cells, Transplantation, [SDV.IB.BIO] Life Sciences [q-bio]/Bioengineering/Biomaterials, 030104 developmental biology, Biological Tissue, Mixtures, Humanized mouse, Medical Devices and Equipment, Collagens, Gels

Abstract

International audience; Articular cartilage (AC) has poor capacities of regeneration and lesions often lead to osteoarthritis. Current AC reconstruction implies autologous chondrocyte implantation which requires tissue sampling and grafting. An alternative approach would be to use scaffolds containing off-the-shelf allogeneic human articular chondrocytes (HACs). To investigate tolerance of allogeneic HACs by the human immune system, we developed a humanized mouse model implanted with allogeneic cartilage constructs generated in vitro. A prerequisite of the study was to identify a scaffold that would not provoke inflammatory reaction in host. Therefore, we first compared the response of hu-mice to two biomaterials used in regenerative medicine, collagen sponge and agarose hydrogel. Four weeks after implantation in hu-mice, acellular collagen sponges, but not acellular agarose hydrogels, showed positive staining for CD3 (T lymphocytes) and CD68 (macrophages), suggesting that collagen scaffold elicits weak inflammatory reaction. These data led us to deepen our evaluation of the biocompatibility of allogeneic tissue-engineered cartilage by using agarose as scaffold. Agarose hydrogels were combined with allogeneic HACs to reconstruct cartilage in vitro. Particular attention was paid to HLA-A2 compatibility between HACs to be grafted and immune human cells of hu-mice: HLA-A2+ or HLA-A2- HACs agarose hydrogels were cultured in the presence of a chondrogenic cocktail and implanted in HLA-A2+ hu-mice. After four weeks implantation and regardless of the HLA-A2 phenotype, chondrocytes were well-differentiated and produced cartilage matrix in agarose. In addition, no sign of T-cell or macrophage infiltration was seen in the cartilaginous constructs and no significant increase in subpopulations of T lymphocytes and monocytes was detected in peripheral blood and spleen. We show for the first time that humanized mouse represents a useful model to investigate human immune responsiveness to tissue-engineered cartilage and our data together indicate that allogeneic cartilage constructs can be suitable for cartilage engineering.

Published

2019

27. The relationship of pre-corneal to pre-contact lens non-invasive tear breakup time

Author

Andrew D. Graham, Meng C. Lin, and Golebiowski, Blanka

Subjects

Male, Topography, Hydrophilic, Marine and Aquatic Sciences, Eye, Cornea, Time Measurement, Risk Factors, Reflexes, Medicine and Health Sciences, Materials, Mathematics, Measurement, Eye Lens, Multidisciplinary, Contact Lenses, Hydrophilic, Physical Sciences, Engineering and Technology, Medicine, Female, Anatomy, Research Article, Freshwater Environments, Adult, medicine.medical_specialty, Contact Lenses, General Science & Technology, Ocular Anatomy, Amorphous Solids, Science, Materials Science, Ocular System, Ophthalmology, medicine, Humans, Eye lens, Eye Disease and Disorders of Vision, Landforms, Receiver operating characteristic, Ecology and Environmental Sciences, Non invasive, Biology and Life Sciences, Aquatic Environments, Repeated measures design, Geomorphology, eye diseases, Contact lens, Mixtures, Wetlands, Tears, Earth Sciences, Mixed effects, Eyes, sense organs, Head, Gels, Neuroscience

Abstract

Purpose To examine the relationship between pre-corneal and pre-contact lens tear film stability (TFS), and to determine whether pre-corneal TFS is a reliable predictor of subsequent pre-lens TFS after a contact lens is placed on the eye. Methods 667 records met inclusion criteria and were extracted from a soft contact lens multi-study database. Multivariable linear mixed effects models were fit to examine the association between pre-corneal and pre-lens TFS, adjusting for potential confounders and accounting for repeated measures. Receiver Operating Characteristic (ROC) analysis was employed to assess the predictive performance of pre-corneal TFS for subsequent pre-lens TFS. TFS was quantified for this analysis as the non-invasive tear breakup time (NITBUT). Results Pre-corneal NITBUT was significantly related to the pre-lens NITBUT at both 10 min (p Conclusions Despite the association of pre-corneal and pre-lens TFS, the inherent lability and sensitivity to environmental exposures of the tear film introduce significant variability into NITBUT measurements. Using pre-corneal NITBUT to identify likely successful contact lens candidates prior to fitting is thus not sufficiently accurate to be relied upon in the clinical setting.

Published

2021

28. Correlation of cellular traction forces and dissociation kinetics of adhesive protein zyxin revealed by multi-parametric live cell microscopy

Author

Lía I. Pietrasanta, Catalina von Bilderling, Micaela Bianchi, and Lorena Sigaut

Subjects

Intravital Microscopy, Pyridines, medicine.medical_treatment, 02 engineering and technology, Traction force microscopy, Zyxin, Extracellular matrix, Mice, Materials, Mass Diffusivity, Mice, Inbred BALB C, rho-Associated Kinases, Microscopy, 0303 health sciences, Multidisciplinary, Chemistry, Physics, Light Microscopy, Classical Mechanics, Adhesion, 021001 nanoscience & nanotechnology, Actin Cytoskeleton, Physical Sciences, Medicine, 0210 nano-technology, Research Article, Cytochalasin D, Adhesion Molecules, Fluorescence Recovery after Photobleaching, Imaging Techniques, Science, Recombinant Fusion Proteins, Amorphous Solids, Green Fluorescent Proteins, Materials Science, Material Properties, Fluorescence correlation spectroscopy, Research and Analysis Methods, Focal adhesion, 03 medical and health sciences, Fluorescence Imaging, Cell Adhesion, medicine, Animals, 030304 developmental biology, Focal Adhesions, Chemical Physics, Lasers, Endothelial Cells, Biology and Life Sciences, Fluorescence recovery after photobleaching, Cell Biology, Molecular Development, Traction (orthopedics), Amides, Vinculin, Elasticity, eye diseases, Kinetics, Mixtures, Biophysics, Cattle, Stress, Mechanical, sense organs, Gels, Developmental Biology

Abstract

Cells exert traction forces on the extracellular matrix to which they are adhered through the formation of focal adhesions. Spatial-temporal regulation of traction forces is crucial in cell adhesion, migration, cellular division, and remodeling of the extracellular matrix. By cultivating cells on polyacrylamide hydrogels of different stiffness we were able to investigate the effects of substrate stiffness on the generation of cellular traction forces by Traction Force Microscopy (TFM), and characterize the molecular dynamics of the focal adhesion protein zyxin by Fluorescence Correlation Spectroscopy (FCS) and Fluorescence Recovery After Photobleaching (FRAP). As the rigidity of the substrate increases, we observed an increment of both, cellular traction generation and zyxin residence time at the focal adhesions, while its diffusion would not be altered. Moreover, we found a positive correlation between the traction forces exerted by cells and the residence time of zyxin at the substrate elasticities studied. We found that this correlation persists at the subcellular level, even if there is no variation in substrate stiffness, revealing that focal adhesions that exert greater traction present longer residence time for zyxin, i.e., zyxin protein has less probability to dissociate from the focal adhesion.

Published

2021

29. Study on the mechanical response of anticlastic cold bending insulating glass and its coupling effect with uniform load

Author

Jinzhi Liang, Xide Zhang, and Dong Huang

Subjects

Bending, Polymers, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, 0201 civil engineering, Architecture, Materials Testing, 021105 building & construction, Composite material, Materials, Multidisciplinary, Physics, Applied Mathematics, Drop (liquid), Classical Mechanics, Torsion (mechanics), Deformation, Finite element method, Cold Temperature, Chemistry, Macromolecules, Elastomers, Physical Sciences, Mechanical Stress, Medicine, Research Article, Materials science, Amorphous Solids, Science, Finite Element Analysis, Materials Science, Material Properties, Edge (geometry), Stress (mechanics), Coupling effect, Deflection (engineering), Humans, Condensed Matter::Quantum Gases, Damage Mechanics, Polymer Chemistry, Elasticity, Thermal Stresses, Physics::Accelerator Physics, Glass, Rubber, Stress, Mechanical, Mathematics

Abstract

Cold bending is a characteristic of significance for the beautiful curved glass curtain walls, because it affects them in terms of energy-efficiency and cost-efficiency. The increasing engineering projects call for more special studies on the mechanical properties of cold-bent glass panels, especially when the walls are built by insulating glass that is currently widely used while its relevant research is very scarce. This paper is devoted to studying the mechanical properties of anticlastic cold-bent insulating glass while taking different factors into consideration, including glass thickness, cold-bent torsion rate and cavity thickness. 9 pieces of insulating glass were manufactured for anticlastic cold-bending test and their coupled effect with identical load is also studied, and numerical finite element analysis sessions were carried out to simulate the experimental results for each one of them. Further, we analyzed the stress distribution performance of the sample pieces under cold bending and a uniform load, followed by discussions about stress transfer controls in glass plates. The results showed that the cold-bent control stress is on the surface with direct loads from cold bending and close to the cold-bent corner on the short edge, and it is transferred from the parts around the corner to the center when the uniform load plays a leading role in generating stress. This transfer could occur under a relatively small load with a small cold-bent torsion rate. A higher cold-bent torsion rate in cold bending contributed mostly to greater center stress in the glass, and as the glass thickness grows, stress and deflection at the plate center would significantly drop. However, the effect of cavity thickness on the anticlastic mechanical response of insulating glass was found to be trivial.

Published

2021

30. Design and construction of a novel measurement device for mechanical characterization of hydrogels: A case study

Author

Shayan Shahab, Mehran Kasra, and Alireza Dolatshahi-Pirouz

Subjects

Biochemistry, chemistry.chemical_compound, Composite material, Materials, Shear Stresses, Gel Electrophoresis, Multidisciplinary, Sepharose, Physics, Magnetism, Classical Mechanics, Hydrogels, Condensed Matter Physics, Deformation, Physical Sciences, Self-healing hydrogels, Medicine, Mechanical Stress, Engineering and Technology, Agarose, Collagen, Deformation (engineering), Rheology, Research Article, Materials science, Biocompatibility, Science, Amorphous Solids, Materials Science, Material Properties, Bioengineering, engineering.material, Research and Analysis Methods, Shear modulus, Electrophoretic Techniques, Elastic Modulus, Shear stress, Mechanical Properties, Damage Mechanics, Tissue Engineering, Rheometry, Biology and Life Sciences, Proteins, Magnetic Fields, chemistry, Mixtures, engineering, Stress, Mechanical, Biopolymer, Gels, Collagens

Abstract

Natural biopolymer-based hydrogels especially agarose and collagen gels, considering their biocompatibility with cells and their capacity to mimic biological tissues, have widely been used for in-vitro experiments and tissue engineering applications in recent years; nevertheless their mechanical properties are not always optimal for these purposes. Regarding the importance of the mechanical properties of hydrogels, many mechanical characterization studies have been carried out for such biopolymers. In this work, we have focused on understanding the mechanical role of agarose and collagen concentration on the hydrogel strength and elastic behavior. In this direction, Amirkabir Magnetic Bead Rheometry (AMBR) characterization device equipped with an optimized electromagnet, was designed and constructed for the measurement of hydrogel mechanical properties. The operation of AMBR set-up is based on applying a magnetic field to actuate magnetic beads in contact with the gel surface in order to actuate the gel itself. In simple terms the magnetic beads leads give rise to mechanical shear stress on the gel surface when under magnetic influence and together with the associated bead-gel displacement it is possible to calculate the hydrogel shear modulus. Agarose and Collagen gels with respectively 0.2–0.6 wt % and 0.2–0.5 wt % percent concentrations were prepared for mechanical characterization in terms of their shear modulus. The shear modulus values for the different percent concentrations of the agarose gel were obtained in the range 250–650 Pa, indicating the shear modulus increases by increasing in the agar gel concentration. In addition to this, the values of shear modulus for the collagen gel increase as function of concentration in the range 240–520 Pa in accordance with an approximately linear relationship between collagen concentration and gel strength.

Published

2021

31. Fish oil supplements, oxidative status, and compliance behaviour: Regulatory challenges and opportunities

Author

Ammar Abdulrahman Jairoun, Moyad Shahwan, and Sa’ed H. Zyoud

Subjects

0301 basic medicine, Organic chemistry, 030204 cardiovascular system & hematology, Biochemistry, Toxicology, 0302 clinical medicine, Medicine and Health Sciences, Vitamin E, Medicine, Materials, chemistry.chemical_classification, Multidisciplinary, Fatty Acids, Chemical Reactions, Oxides, Vitamins, Fish oil, Lipids, Peroxides, Chemistry, Eicosapentaenoic Acid, Physical Sciences, %22">Fish , Oxidation-Reduction, Research Article, Chemical Elements, Polyunsaturated fatty acid, Docosahexaenoic Acids, Oxidative degradation, Amorphous Solids, Science, Materials Science, United Arab Emirates, 03 medical and health sciences, Fish Oils, Fatty Acids, Omega-3, Oxidation, Organic compounds, Humans, Peroxide value, Nutrition, 030109 nutrition & dietetics, business.industry, Chemical Compounds, Biology and Life Sciences, Confidence interval, Diet, chemistry, Dietary Supplements, Glass, business, Compliance behaviour, Oils, Aluminum

Abstract

Background Fish oil supplements that are rich in omega-3 long-chain polyunsaturated fatty acids (n-3 PUFAs). PUFAs are among the most widely-used dietary supplements globally, and millions of people consume them regularly. There have always been public concerns that these products should be guaranteed to be safe and of good quality, especially as these types of fish oil supplements are extremely susceptible to oxidative degradation. Objectives The aim of the current study is to investigate and examine the oxidation status of dietary supplements containing fish oils and to identify important factors related to the oxidation status of such supplements available in the United Arab Emirates (UAE). Methods A total of 44 fish oil supplements were analysed in this study. For each product, the oxidative parameters peroxide value (PV), anisidine value (AV), and total oxidation (TOTOX) were calculated, and comparisons were made with the guidelines supplied by the Global Organization for EPA and DHA Omega-3s (GOED). Median values for each of the above oxidative parameters were tested using the Kruskal-Wallis and Mann-Whitney U tests. P values < 0.05 were chosen as the statistically significant boundary. Results The estimate for the average PV value was 6.4 with a 95% confidence interval (CI) [4.2–8.7] compared to the maximum allowable limit of 5 meq/kg. The estimate for the average P-AV was 11 with a 95% CI [7.8–14.2] compared to the maximum allowable limit of 20. The estimate for the average TOTOX value was 23.8 meq/kg with a 95% CI [17.4–30.3] compared to the maximum allowable limit of 26 according to the GOED standards. Conclusion This research shows that most, although not all, of the fish oil supplements tested are compliant with the GOED oxidative quality standards. Nevertheless, it is clear that there should be a high level of inspection and control regarding authenticity, purity, quality, and safety in the processes of production and supply of dietary supplements containing fish oils.

Published

2020

32. Triphenylphosphonium derivatives disrupt metabolism and inhibit melanoma growth in vivo when delivered via a thermosensitive hydrogel

Author

Garry R. Buettner, Melissa A. Fath, Michael L. McCormick, F. Christopher Pigge, Brett A. Wagner, Prabhat C. Goswami, Michael K. Schultz, Douglas R. Spitz, Tae-Hong Lim, Colette M. Gnade, Alora S. Kraus, Kyle C. Kloepping, Dongrim Seol, and Devin K. Hedlund

Subjects

Physiology, Toxicology, Pathology and Laboratory Medicine, medicine.disease_cause, Biochemistry, Mice, chemistry.chemical_compound, Medicine and Health Sciences, Melanoma, Materials, Energy-Producing Organelles, Cultured Tumor Cells, Multidisciplinary, Respiration, Temperature, Drug Synergism, Hydrogels, Mitochondria, Cell killing, Oncology, Physical Sciences, Melanoma Cells, Medicine, Female, Biological Cultures, Cellular Structures and Organelles, Research Article, medicine.drug, Cell Physiology, Auranofin, Cell Survival, Amorphous Solids, Science, Materials Science, Bioenergetics, Research and Analysis Methods, Structure-Activity Relationship, Organophosphorus Compounds, Oxygen Consumption, In vivo, Cell Line, Tumor, medicine, Animals, Humans, Buthionine sulfoximine, Buthionine Sulfoximine, Toxicity, Biology and Life Sciences, Cancers and Neoplasms, Cell Biology, Glutathione, Cell Cultures, medicine.disease, Xenograft Model Antitumor Assays, Cell Metabolism, Oxidative Stress, chemistry, Delayed-Action Preparations, Mixtures, Cancer research, Glutathione disulfide, Physiological Processes, Gels, Oxidative stress

Abstract

Despite dramatic improvements in outcomes arising from the introduction of targeted therapies and immunotherapies, metastatic melanoma is a highly resistant form of cancer with 5 year survival rates of In vitroexperiments demonstrated that TPP-derivatives modified with aliphatic side chains accumulated in melanoma cell mitochondria; disrupted mitochondrial metabolism; led to increases in steady-state levels of reactive oxygen species; decreased total glutathione; increased the fraction of glutathione disulfide; and caused cell killing by a thiol-dependent process that could be rescued by N-acetylcysteine. Furthermore, TPP-derivative-induced melanoma toxicity was enhanced by glutathione depletion (using buthionine sulfoximine) as well as inhibition of thioredoxin reductase (using auranofin). In addition, there was a structure-activity relationship between the aliphatic side-chain length of TPP-derivatives (5–16 carbons), where longer carbon chains increased melanoma cell metabolic disruption and cell killing.In vivobio-distribution experiments showed that intratumoral administration of a C14-TPP-derivative (12-carbon aliphatic chain), using a slow-release thermosensitive hydrogel as a delivery vehicle, localized the drug at the melanoma tumor site. There, it was observed to persist and decrease the growth rate of melanoma tumors. These results demonstrate that TPP-derivatives selectively induce thiol-dependent metabolic oxidative stress and cell killing in malignant melanoma and support the hypothesis that a hydrogel-based TPP-derivative delivery system could represent a therapeutic drug-delivery strategy for melanoma.

Published

2020

33. Organizing pneumonia of COVID-19: Time-dependent evolution and outcome in CT findings

Author

Runqing Li, Carol C. Wu, Cong Tian, Zhe Liu, Huifang Zhao, Fen Li, Hao Li, Zhijie Jian, Shubo Cai, Ting Liang, Zekun Wang, Yang Liu, Yan Wang, Yukun Liang, Chao Jin, Jie Zhou, and Jian Yang

Subjects

Male, Viral Diseases, Pulmonology, Neutrophils, Comorbidity, 030204 cardiovascular system & hematology, Biochemistry, Severity of Illness Index, Diagnostic Radiology, Medical Conditions, 0302 clinical medicine, Medicine and Health Sciences, Medicine, 030212 general & internal medicine, Optical Properties, Tomography, Materials, Lung, Multidisciplinary, Radiology and Imaging, Middle Aged, Prognosis, C-Reactive Proteins, Patient Discharge, Infectious Diseases, C-Reactive Protein, Physical Sciences, Female, Organizing pneumonia, medicine.symptom, Coronavirus Infections, Research Article, Opacity, Adult, Coronavirus disease 2019 (COVID-19), Imaging Techniques, Amorphous Solids, Science, Materials Science, Material Properties, Pneumonia, Viral, Neuroimaging, Research and Analysis Methods, Lesion, Betacoronavirus, 03 medical and health sciences, Signs and Symptoms, Diagnostic Medicine, Severity of illness, Humans, Pandemics, Retrospective Studies, SARS-CoV-2, business.industry, Biology and Life Sciences, Proteins, COVID-19, Covid 19, Retrospective cohort study, Pneumonia, Glass, Computed axial tomography, Lesions, Health care, Length of Stay, medicine.disease, Computed Axial Tomography, Clinical Medicine, Tomography, X-Ray Computed, business, Nuclear medicine, Neuroscience

Abstract

Background As a pandemic, a most-common pattern resembled organizing pneumonia (OP) has been identified by CT findings in novel coronavirus disease (COVID-19). We aimed to delineate the evolution of CT findings and outcome in OP of COVID-19. Materials and methods 106 COVID-19 patients with OP based on CT findings were retrospectively included and categorized into non-severe (mild/common) and severe (severe/critical) groups. CT features including lobar distribution, presence of ground glass opacities (GGO), consolidation, linear opacities and total severity CT score were evaluated at three time intervals from symptom-onset to CT scan (day 0–7, day 8–14, day > 14). Discharge or adverse outcome (admission to ICU or death), and pulmonary sequelae (complete absorption or lesion residuals) on CT after discharge were analyzed based on the CT features at different time interval. Results 79 (74.5%) patients were non-severe and 103 (97.2%) were discharged at median day 25 (range, day 8–50) after symptom-onset. Of 67 patients with revisit CT at 2–4 weeks after discharge, 20 (29.9%) had complete absorption of lesions at median day 38 (range, day 30–53) after symptom-onset. Significant differences between complete absorption and residuals groups were found in percentages of consolidation (1.5% vs. 13.8%, P = 0.010), number of involved lobe > 3 (40.0% vs. 72.5%, P = 0.030), CT score > 4 (20.0% vs. 65.0%, P = 0.010) at day 8–14. Conclusion Most OP cases had good prognosis. Approximately one-third of cases had complete absorption of lesions during 1–2 months after symptom-onset while those with increased frequency of consolidation, number of involved lobe > 3, and CT score > 4 at week 2 after symptom-onset may indicate lesion residuals on CT.

Published

2020

34. Effect of window-to-wall-area ratio on thermal performance of building wall materials in Elazığ, Turkey

Author

Meral Ozel and Cihan Özel

Subjects

Turkey, Window (geology), 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Wall material, Geographical Locations, 0202 electrical engineering, electronic engineering, information engineering, Composite material, Materials, Multidisciplinary, Physics, Electromagnetic Radiation, Air, Temperature, Thermal Conductivity, Built Structures, Turkey (Country), Europe, Glazing, Solar gain, Physical Sciences, Sunlight, Engineering and Technology, Medicine, Solar Radiation, Seasons, Research Article, Asia, Materials science, Structural Engineering, Amorphous Solids, Summer, Science, 020209 energy, Materials Science, Material Properties, Thermal conductivity, Thermal, 0105 earth and related environmental sciences, Construction Materials, Winter, People and Places, Earth Sciences, Composite Materials, Area ratio, Glass, Autoclaved aerated concrete, Concrete

Abstract

In this study, the effect of glazing-to-total-wall-area ratio on the thermal performance of different wall materials is numerically investigated in terms of heat transmission load. The investigation was performed for a South-facing wall in Elazığ, Turkey. The heat transmission load through walls and windows are determined separately for summer and winter climate conditions. In this analysis, the frame area of the window is not considered. Therefore, whereas the glazing area on uninsulated and insulated walls is increased from 0% to 100%, the heat gain and losses are calculated separately according to the glazing type. The transmission loads through the wall are determined by an implicit finite difference procedure under steady periodic conditions. Concrete, briquettes, bricks, and autoclaved aerated concrete are selected as structure materials. Results show that in the uninsulated wall, the wall material affected the glazing area, whereas in the insulated wall, the effect of wall material on glazing area is insignificant.

Published

2020

35. Paraffin wax as self-sealing insulation material of seasonal sensible heat storage systems—A laboratory study

Author

Christoph Bott, Peter Bayer, and Ingo Dressel

Subjects

Polymers, 02 engineering and technology, Material Fatigue, Materials Physics, 0202 electrical engineering, electronic engineering, information engineering, Polyvinyl Chloride, Materials, Leakage (electronics), Extraction Techniques, Wax, Multidisciplinary, Petroleum engineering, Physics, Classical Mechanics, Thermal Conductivity, Melting, Condensed Matter Physics, 021001 nanoscience & nanotechnology, Deformation, Renewable energy, Chemistry, Macromolecules, Paraffin, visual_art, Physical Sciences, visual_art.visual_art_medium, Medicine, Seasons, Organic Materials, 0210 nano-technology, Phase Transitions, Research Article, Amorphous Solids, Science, 020209 energy, Materials Science, Sensible heat, Research and Analysis Methods, Thermal energy storage, Energy storage, Thermal conductivity, Paraffin wax, Solid-Phase Extraction, Damage Mechanics, business.industry, Polymer Chemistry, Waxes, Feasibility Studies, Composite Materials, Environmental science, Glass, Laboratories, business

Abstract

Seasonal heat storage is considered as one of the key elements on the path to a low-emission economy. Embedded in local district heating networks, they raise the share of renewable energies and balance out highly fluctuating supplies of e.g. solar systems or windmills. The technology of seasonal heat storage can be described as almost technically mature, with well-established concepts and some systems being in operation for a considerable time. Nevertheless, the operating experience gained to date also revealed two critical problems. On the one hand, even smallest leakages in sealing foils led to irreparable breakdowns. On the other hand, heat loss in the marginal areas was revealed as a key deficiency, preventing the technology from advancing towards global marketability. This study presents an experimental approach to address these two key issues in the field of seasonal energy storage. Two small-scale laboratory tests were carried out to test paraffin wax as a completely novel component in the marginal area of seasonal storages. This is based on two material properties: As hydrophobic and mobile medium, the warmed and molten paraffin should actively seal the fissures and holes in the event of leakage. Additionally, the latent heat storage properties of the paraffin wax should increase the systems’ total storage capacity and reduce lateral heat losses via its low thermal conductivity. With retardation periods from 2.5 to 4 hours, the results show an effective phase change effect of the paraffin wax, which reduces energy losses and allows to buffer short-term, intensive loading and unloading processes. By storing up to 138 kJ/kg energy in the paraffin wax, increased capacities of application-scale pit storages by up to 40.70 MWh are to be expected. Additionally, the self-healing features could be successfully demonstrated: With only small losses of between 1.5 and 17%, the paraffin wax effectively sealed artificially incised leaks. Thereby, the mechanism was most effective for local defects. Following these positive demonstrations of feasibility, technical design questions still remain, which concern prevention of deformation of the paraffin wax. Once solved, this new component can then provide a path for further optimization of seasonal heat storage technologies.

Published

2020

36. Flow and hydrodynamic shear stress inside a printing needle during biofabrication

Author

Ben Fabry, Elham Mirzahossein, Emil N. Iftekhar, Stephan Gekle, Christian Bächer, Sebastian Johannes Müller, Dirk W. Schubert, and Stefan Schrüfer

Subjects

Microfluidics, Nozzle, Engineering and technology, 02 engineering and technology, Physical Chemistry, Physics::Fluid Dynamics, Materials Physics, Fluid dynamics, Materials, Shear Stresses, Flow Rate, Fluids, Multidisciplinary, Shear thinning, Viscosity, Physics, Classical Mechanics, Hydrogels, Mechanics, Naturwissenschaftliche Fakultät, 021001 nanoscience & nanotechnology, Volumetric flow rate, Chemistry, Needles, Physical Sciences, Printing, Three-Dimensional, Compressibility, Mechanical Stress, Medicine, Shear Strength, 0210 nano-technology, Algorithms, Research Article, Biotechnology, States of Matter, Materials science, Alginates, Amorphous Solids, Science, Materials Science, 0206 medical engineering, Bioengineering, Fluid Mechanics, Continuum Mechanics, Biomaterials, Rheology, Shear stress, ddc:530, Tissue engineering, Fluid Flow, 3D bioprinting, Chitosan, Biology and life sciences, Fluid Dynamics, 020601 biomedical engineering, Condensed Matter::Soft Condensed Matter, Shear rate, Chemical Properties, Mixtures, Hydrodynamics, Gels

Abstract

We present a simple but accurate algorithm to calculate the flow and shear rate profile of shear thinning fluids, as typically used in biofabrication applications, with an arbitrary viscosity-shear rate relationship in a cylindrical nozzle. By interpolating the viscosity with a set of power-law functions, we obtain a mathematically exact piecewise solution to the incompressible Navier-Stokes equation. The algorithm is validated with known solutions for a simplified Carreau-Yasuda fluid, full numerical simulations for a realistic chitosan hydrogel as well as experimental velocity profiles of alginate and chitosan solutions in a microfluidic channel. We implement the algorithm in an easy-to-use Python tool, included as Supplementary Material, to calculate the velocity and shear rate profile during the printing process, depending on the shear thinning behavior of the bioink and printing parameters such as pressure and nozzle size. We confirm that the shear stress varies in an exactly linear fashion, starting from zero at the nozzle center to the maximum shear stress at the wall, independent of the shear thinning properties of the bioink. Finally, we demonstrate how our method can be inverted to obtain rheological bioink parameters in-situ directly before or even during printing from experimentally measured flow rate versus pressure data.

Published

2020

37. Novel micropatterning technique reveals dependence of cell-substrate adhesion and migration of social amoebas on parental strain, development, and fluorescent markers

Author

Richa Karmakar, Alex Groisman, Nadine Kamprad, Christoph Schich, Wouter-Jan Rappel, Edgar Gutierrez, Vanessa Scheller, and Marco Tarantola

Subjects

0301 basic medicine, Dictyosteliomycota, Protein Expression, Microfluidics, Biochemistry, Dictyostelium discoideum, Polyethylene Glycols, 0302 clinical medicine, Cell Movement, Dictyostelium, Cytoskeleton, Cell-substrate adhesion, Materials, Multidisciplinary, biology, Chemistry, Dictyostelium Discoideum, Eukaryota, Cell migration, Protists, Cell Motility, Slime Molds, Experimental Organism Systems, 030220 oncology & carcinogenesis, Physical Sciences, Medicine, Engineering and Technology, Microtechnology, Fluidics, Research Article, Science, Amorphous Solids, Materials Science, Motor Proteins, Cell Migration, macromolecular substances, Research and Analysis Methods, Focal adhesion, 03 medical and health sciences, Model Organisms, Coatings, Molecular Motors, Gene Expression and Vector Techniques, Cell Adhesion, Molecular Biology Techniques, Molecular Biology, Fluorescent Dyes, Molecular Biology Assays and Analysis Techniques, Protozoan Models, Surface Treatments, Spectrum Analysis, Organisms, Force spectroscopy, Biology and Life Sciences, Proteins, Cell Biology, biology.organism_classification, 030104 developmental biology, Manufacturing Processes, Animal Studies, Biophysics, Glass, Gels, Developmental Biology, Micropatterning

Abstract

Cell-substrate adhesion of the social amoeba Dictyostelium discoideum, a model organism often used for the study of chemotaxis, is non-specific and does not involve focal adhesion complexes. Therefore, micropatterned substrates where adherent Dictyostelium cells are constrained to designated microscopic regions are difficult to make. Here we present a micropatterning technique for Dictyostelium cells that relies on coating the substrate with an ∼1μm thick layer of polyethylene glycol (PEG) gel. We show that, when plated on a substrate with narrow parallel stripes of PEG-gel and glass, Dictyostelium cells nearly exclusive adhere to and migrate along the glass stripes, thus providing a model system to study one-dimensional migration of amoeboid cells. Surprisingly, we find substantial differences in the adhesion to PEG-gel and glass stripes between vegetative and developed cells and between two different axenic laboratory strains of Dictyostelium, AX2 and AX4. Even more surprisingly, we find that the distribution of Dictyostelium cells between PEG-gel and glass stripes is significantly affected by the expression of several fluorescent protein markers of the cytoskeleton. We carry out atomic force microscopy based single cell force spectroscopy measurements that confirm that the force of adhesion to PEG-gel substrate can be significantly different between vegetative and developed cells, AX2 and AX4 cells, and cells with and without fluorescent markers. Thus, the choice of parental background, the degree of development, and the expression of fluorescent protein markers can all have a profound effect on cell-substrate adhesion and should be considered when comparing migration of cells and when designing micropatterned substrates.

Published

2020

38. 3D culture of functional human iPSC-derived hepatocytes using a core-shell microfiber

Author

Minghao Nie, Fumisato Ozawa, Shoji Takeuchi, and Shogo Nagata

Subjects

Male, 0301 basic medicine, Cellular differentiation, Cell, Cell Culture Techniques, Cell- and Tissue-Based Therapy, Gene Expression, Biochemistry, Cell therapy, Extracellular matrix, Mice, 0302 clinical medicine, Animal Cells, Medicine and Health Sciences, Drug Delivery System Preparation, Enzyme-Linked Immunoassays, Induced pluripotent stem cell, Materials, Multidisciplinary, Pharmaceutics, Chemistry, Stem Cells, Abdominal Cavity, Cell Differentiation, Hydrogels, Cell Encapsulation, Cell biology, medicine.anatomical_structure, Liver, Fiber cell, Physical Sciences, Medicine, Cellular Types, Anatomy, Research Article, Alginates, Amorphous Solids, Science, Induced Pluripotent Stem Cells, Materials Science, Surgical and Invasive Medical Procedures, Research and Analysis Methods, Digestive System Procedures, 03 medical and health sciences, Spheroids, Cellular, Albumins, Genetics, medicine, Animals, Humans, Microencapsulation, Immunoassays, Transplantation, Pharmaceutical Processing Technology, Gene Expression Profiling, Albumin, Biology and Life Sciences, Proteins, Cell Biology, Organ Transplantation, Liver Transplantation, 030104 developmental biology, Mixtures, Hepatocytes, Immunologic Techniques, Gels, Liver Failure, 030217 neurology & neurosurgery

Abstract

Human iPSC-derived hepatocytes hold great promise as a cell source for cell therapy and drug screening. However, the culture method for highly-quantified hepatocytes has not yet been established. Herein, we have developed an encapsulation and 3D cultivation method for iPSC-hepatocytes in core-shell hydrogel microfibers (a.k.a. cell fiber). In the fiber-shaped 3D microenvironment consisting of abundant extracellular matrix (ECM), the iPSC-hepatocytes exhibited many hepatic characteristics, including the albumin secretion, and the expression of the hepatic marker genes (ALB, HNF4α, ASGPR1, CYP2C19, and CYP3A4). Furthermore, we found that the fibers were mechanically stable and can be applicable to hepatocyte transplantation. Three days after transplantation of the microfibers into the abdominal cavity of immunodeficient mice, human albumin was detected in the peripheral blood of the transplanted mice. These results indicate that the iPSC-hepatocyte fibers are promising either as in vitro models for drug screening or as implantation grafts to treat liver failure.

Published

2020

39. Experimental method for 3D reconstruction of Odonata wings (methodology and dataset)

Author

Nasim Chitsaz, Javaan Chahl, Romeo Marian, Chitsaz, Nasim, Marian, Romeo, and Chahl, Javaan

Subjects

Models, Anatomic, 0209 industrial biotechnology, Research Facilities, Databases, Factual, Odonata, Physiology, Electronics engineering, 02 engineering and technology, Museum Collections, aerodynamic and structural properties, 01 natural sciences, 010305 fluids & plasmas, Insect ecology, 020901 industrial engineering & automation, Animal Wings, South Australia, Computer software, Medicine and Health Sciences, Image Processing, Computer-Assisted, Wings, Animal, Animal Anatomy, Materials, Animal Flight, Multidisciplinary, biology, Odonata wing, Physics, Museums, 3D reconstruction, Classical Mechanics, 3D printing, Aerodynamics, Cameras, Dynamics, Optical Equipment, Photogrammetry, Physical Sciences, evolved structures, Medicine, Engineering and Technology, Anatomy, Geology, Research Article, Science, Amorphous Solids, Materials Science, Equipment, Research and Analysis Methods, Insect flight, Imaging, Three-Dimensional, 0103 physical sciences, Animals, Remote sensing, Wing, Biological Locomotion, Lasers, Biology and Life Sciences, X-Ray Microtomography, biology.organism_classification, Flight, Animal, Microscopy, Electron, Scanning, Glass, Insect Flight, Zoology

Abstract

Insect wings are highly evolved structures with aerodynamic and structural properties that are not fully understood or systematically modeled. Most species in the insect order Odonata have permanently deployed high aspect ratio wings. Odonata have been documented to exhibit extraordinary flight performance and a wide range of interesting flight behaviors that rely on agility and efficiency. The characteristic three-dimensional corrugated structures of these wings have been observed and modeled for a small number of species, with studies showing that corrugations can provide significant aerodynamic and structural advantages. Comprehensive museum collections are the most practical source of Odonata wing, despite the risk of adverse effects caused by dehydration and preservation of specimens. Museum specimens are not to be handled or damaged and are best left undisturbed in their display enclosures. We have undertaken a systematic process of scanning, modeling, and post-processing the wings of over 80 Odonata species using a novel and accurate method and apparatus we developed for this purpose. The method allows the samples to stay inside their glass cases if necessary and is non-destructive. The measurements taken have been validated against micro-computed tomography scanning and against similar-sized objects with measured dimensions. The resulting publicly available dataset will allow aeronautical analysis of Odonata aerodynamics and structures, the study of the evolution of functional structures, and research into insect ecology. The technique is useable for other orders of insects and other fragile samples. Refereed/Peer-reviewed

Published

2020

40. Formation of a hard surface layer during drying of a heated porous media

Author

M. S. Bobji, Jaywant H. Arakeri, and Navneet Kumar

Subjects

Hot Temperature, 010504 meteorology & atmospheric sciences, Evaporation, 0208 environmental biotechnology, 02 engineering and technology, 01 natural sciences, Surface tension, Soil, Sand, Spectroscopy, Fourier Transform Infrared, Electron Microscopy, Composite material, skin and connective tissue diseases, Materials, Fluids, Microscopy, Multidisciplinary, Vaporization, Infrared Radiation, integumentary system, Physics, Electromagnetic Radiation, Classical Mechanics, food and beverages, Physics - Fluid Dynamics, Surface Temperature, Chemical Engineering, Condensed Matter Physics, Physical Sciences, Medicine, Fluorescein, Scanning Electron Microscopy, Porosity, Phase Transitions, Research Article, States of Matter, Materials science, Surface Properties, Science, Amorphous Solids, Materials Science, Material Properties, FOS: Physical sciences, Fluid Mechanics, Condensed Matter - Soft Condensed Matter, Research and Analysis Methods, Continuum Mechanics, Hardness, Surface Tension, Surface layer, Desiccation, Particle Size, Fluorescent Dyes, 0105 earth and related environmental sciences, Fluid Dynamics (physics.flu-dyn), Water, Liquids, Crust, 020801 environmental engineering, Microscopy, Electron, Scanning, Soft Condensed Matter (cond-mat.soft), Particle, Glass, Particle size, Porous medium

Abstract

We report surface hardening or crust formation, unlike caking, during drying when a confined porous medium was heated from above using IR radiation. These crusts have higher strength than their closest counterparts such as sandcastles and mud-peels which essentially are clusters of partially wet porous medium. Observed higher strength of the crusts is mostly due to surface tension between the solid particles which are connected by liquid bridges (connate water). Qualitative (FTIR) and quantitative (TGA) measurements confirm the presence of trapped water within the crust. Amount of the trapped water was ~1.5% (this is about 10 times higher than in the samples with caking) which was confirmed using SEM images. Further, in the fixed particle sizes case, the crust thickness varied slightly (10-20 particle diameters only for cases with external heating) while with the natural sand whole porous column was crusted; surprisingly, crust was also found with the hydrophobic glass beads. Fluorescein dye visualization technique was used to determine the crust thickness. We give a power law relation between the crust thickness and the incident heat flux for various particle sizes. The strength of the crust decreases drastically with increasing hydrophilic spheres diameter while it increases with higher surface temperature., Comment: 17 pages, 7 figures, 1 table Information regarding 'Supplementary Information File' is mentioned in the main text

Published

2020

41. Experimental and modeling study of the formation of cell aggregates with differential substrate adhesion

Author

Basile Grammaticos, Marjorie Juchaux, Christophe Deroulers, Olivier Seksek, Mathilde Badoual, Emilie Gontran, Léo Adenis, Imagerie et Modélisation en Neurobiologie et Cancérologie (IMNC (UMR_8165)), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Intéractions cellulaires et physiopathologie hépathique (Orsay, Essonne) UMRS 1174 (ICPH ), Institut National de la Santé et de la Recherche Médicale (INSERM), This work was supported through a grant of CD from Région Ile-de-France (‘DIM Problématiques transversales aux systèmes complexes ISC-2014-PME-003') and a grant of MB and OS from the GEFLUC association (association des Entreprises Françaises dans la Lutte contre le Cancer)., and Bodescot, Myriam

Subjects

0301 basic medicine, Cell Culture Techniques, [SDV.BC.IC] Life Sciences [q-bio]/Cellular Biology/Cell Behavior [q-bio.CB], Systems Science, Polyethylene Glycols, Mathematical and Statistical Techniques, 0302 clinical medicine, Agent-Based Modeling, [SDV.BC.IC]Life Sciences [q-bio]/Cellular Biology/Cell Behavior [q-bio.CB], Medicine and Health Sciences, Polylysine, Materials, Neurological Tumors, Cell Aggregation, Cultured Tumor Cells, Mass Diffusivity, 0303 health sciences, Multidisciplinary, Chemistry, Simulation and Modeling, Physics, Hydrogels, Glioma, Adhesion, Cell aggregation, Curve Fitting, Oncology, Neurology, 030220 oncology & carcinogenesis, Physical Sciences, Self-healing hydrogels, Medicine, Biological Cultures, Research Article, Computer and Information Sciences, Amorphous Solids, Science, Materials Science, Context (language use), Research and Analysis Methods, Models, Biological, Cell Line, 03 medical and health sciences, Adhesives, Cell Adhesion, Humans, Cell Proliferation, 030304 developmental biology, Chemical Physics, Aggregate (data warehouse), Spheroid, Cancers and Neoplasms, Substrate (chemistry), Cell Cultures, Glioma Cells, Kinetics, 030104 developmental biology, Mixtures, Biophysics, Adhesive, Gels, Mathematical Functions, Mathematics, 030217 neurology & neurosurgery

Abstract

The study of cell aggregation in vitro has a tremendous importance these days. In cancer biology, aggregates and spheroids serve as model systems and are considered as pseudo-tumors that are more realistic than 2D cell cultures. Recently, in the context of brain tumors (gliomas), we developed a new PEG-based hydrogel, with adhesive properties that can be controlled by the addition of poly(L-lysine) (PLL), and a stiffness close to the brain’s. This substrate allows the motion of individual cells and the formation of cell aggregates, and we showed that on a non-adhesive substrate (PEG without PLL is inert for cells), the aggregates are bigger and less numerous than on an adhesive substrate (with PLL).In this article, we present new experimental results on the follow-up of the formation of aggregates on our hydrogels, from the early stages (individual cells) to the late stages (aggregate compaction), in order to compare or two cell lines (F98 and U87) the aggregation process on the adhesive and non-adhesive substrates.We first show that a spaceless model of perikinetic aggregation can reproduce the experimental evolution of the number of aggregates, but not of the mean area of the aggregates. We thus develop a minimal off-lattice agent-based model, with a few simple rules reproducing the main processes that are at stack during aggregation. Our spatial model can reproduce very well the experimental temporal evolution of both the number of aggregates and their mean area, on adhesive and non-adhesive soft gels and for the two different cell lines. From the fit of the experimental data, we were able to infer the quantitative values of the speed of motion of each cell line, its rate of proliferation in aggregates and its ability to organize in 3D. We also found qualitative differences between the two cell lines regarding the ability of aggregates to compact. These parameters could be inferred for any cell line, and correlated with clinical properties such as aggressiveness and invasiveness.

Published

2020

42. The use of mixed collagen-Matrigel matrices of increasing complexity recapitulates the biphasic role of cell adhesion in cancer cell migration: ECM sensing, remodeling and forces at the leading edge of cancer invasion

Author

Carlos Castilla, Cristina Ederra, M. Mora, Martín Martínez, José Manuel García Aznar, Maria Anguiano, Xabier Morales, Alejandro Rodríguez Pena, Nieves Movilla, Maider Esparza, Iván Cortés-Domínguez, Mikel Ariz, Carlos Ortiz-de-Solorzano, and H. Amaveda

Subjects

0301 basic medicine, Integrins, Microfluidics, Gene Expression, Mechanotransduction, Cellular, Biochemistry, Extracellular matrix, 0302 clinical medicine, Cell Movement, Tumor Microenvironment, Mechanotransduction, Materials, Multidisciplinary, biology, Chemistry, Integrin beta1, Physics, Cell migration, Condensed Matter Physics, Extracellular Matrix, Cancer Cell Migration, Cell biology, Drug Combinations, Cell Motility, 030220 oncology & carcinogenesis, Physical Sciences, Engineering and Technology, Medicine, Proteoglycans, Collagen, Fluidics, Cellular Structures and Organelles, Research Article, Surface Properties, Amorphous Solids, Science, Materials Science, Material Properties, Integrin, Respiratory Mucosa, Cell Migration, Models, Biological, Focal adhesion, 03 medical and health sciences, Cell Line, Tumor, Cell Adhesion, Humans, Cell adhesion, Focal Adhesions, Tumor microenvironment, Matrigel, Biology and Life Sciences, Proteins, Epithelial Cells, Cell Biology, 030104 developmental biology, Mixtures, biology.protein, Anisotropy, Laminin, Gels, Collagens, Developmental Biology

Abstract

The migration of cancer cells is highly regulated by the biomechanical properties of their local microenvironment. Using 3D scaffolds of simple composition, several aspects of cancer cell mechanosensing (signal transduction, EMC remodeling, traction forces) have been separately analyzed in the context of cell migration. However, a combined study of these factors in 3D scaffolds that more closely resemble the complex microenvironment of the cancer ECM is still missing. Here, we present a comprehensive, quantitative analysis of the role of cell-ECM interactions in cancer cell migration within a highly physiological environment consisting of mixed Matrigel-collagen hydrogel scaffolds of increasing complexity that mimic the tumor microenvironment at the leading edge of cancer invasion. We quantitatively show that the presence of Matrigel increases hydrogel stiffness, which promotes β1 integrin expression and metalloproteinase activity in H1299 lung cancer cells. Then, we show that ECM remodeling activity causes matrix alignment and compaction that favors higher tractions exerted by the cells. However, these traction forces do not linearly translate into increased motility due to a biphasic role of cell adhesions in cell migration: at low concentration Matrigel promotes migration-effective tractions exerted through a high number of small sized focal adhesions. However, at high Matrigel concentration, traction forces are exerted through fewer, but larger focal adhesions that favor attachment yielding lower cell motility.

Published

2020

43. Deformation and flow of amorphous solids: Insights from elastoplastic models

Author

Alexandre Nicolas, Kirsten Martens, Jean-Louis Barrat, Ezequiel E. Ferrero, Laboratoire de Physique Théorique et Modèles Statistiques (LPTMS), Centre National de la Recherche Scientifique (CNRS)-Université Paris-Sud - Paris 11 (UP11), Centro Atómico Bariloche [Argentine], Consejo Nacional de Investigaciones Científicas y Técnicas [Buenos Aires] (CONICET)-Comisión Nacional de Energía Atómica [ARGENTINA] (CNEA), Laboratoire Interdisciplinaire de Physique [Saint Martin d’Hères] (LIPhy), Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), department of theoretical physics, and University of Geneva [Switzerland]

Subjects

ELASTOPLASTIC MODELS, Materials science, Ciencias Físicas, YIELDING TRANSITION, General Physics and Astronomy, 02 engineering and technology, Plasticity, 01 natural sciences, purl.org/becyt/ford/1 [https], RHEOLOGY, Rheology, 0103 physical sciences, [PHYS.COND.CM-DS-NN]Physics [physics]/Condensed Matter [cond-mat]/Disordered Systems and Neural Networks [cond-mat.dis-nn], Statistical physics, [PHYS.COND.CM-SM]Physics [physics]/Condensed Matter [cond-mat]/Statistical Mechanics [cond-mat.stat-mech], 010306 general physics, Anisotropy, ComputingMilieux_MISCELLANEOUS, Mesoscopic physics, Amorphous metal, AMORPHOUS SOLIDS, purl.org/becyt/ford/1.3 [https], Mechanics, 021001 nanoscience & nanotechnology, Creep, [PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci], Relaxation (physics), Deformation (engineering), 0210 nano-technology, [PHYS.COND.CM-SCM]Physics [physics]/Condensed Matter [cond-mat]/Soft Condensed Matter [cond-mat.soft], CIENCIAS NATURALES Y EXACTAS, Física de los Materiales Condensados

Abstract

The deformation and flow of disordered solids, such as metallic glasses and concentrated emulsions, involves swift localized rearrangements of particles that induce a long-range deformation field. To describe these heterogeneous processes, elastoplastic models handle the material as a collection of "mesoscopic" blocks alternating between an elastic behavior and plastic relaxation, when they are loaded above a threshold. Plastic relaxation events redistribute stresses in the system in a very anisotropic way. A review is given of not only the physical insight provided by these models into practical issues such as strain localization, creep, and steady-state rheology, but also the fundamental questions that they address with respect to criticality at the yielding point and the statistics of avalanches of plastic events. Furthermore, connections are discussed with concurrent mean-field approaches and with related problems such as the plasticity of crystals and the depinning of an elastic line. Fil: Nicolas, Alexandre. Université Paris Sud; Francia. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Ferrero, Eduardo Ezequiel. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina. Comisión Nacional de Energía Atómica. Centro Atómico Bariloche; Argentina Fil: Martens, Kirsten. Universite Grenoble Alpes; Francia Fil: Barrat, Jean Louis. Universite Grenoble Alpes; Francia

Published

2018

44. Queen and king recognition in the subterranean termite, Reticulitermes flavipes: Evidence for royal recognition pheromones

Author

Coby Schal, Edward L. Vargo, and Colin F. Funaro

Subjects

Male, 0106 biological sciences, 0301 basic medicine, Social Sciences, Insect, Biochemistry, 01 natural sciences, Pheromones, Queen (playing card), Reticulitermes, Sociology, Psychology, Materials, reproductive and urinary physiology, media_common, Multidisciplinary, Animal Behavior, Behavior, Animal, Reproduction, Eukaryota, Biological Defense Mechanisms, Chemical basis, Insects, Aggression, Chemistry, Animal Sociality, Sex pheromone, Physical Sciences, Social Systems, behavior and behavior mechanisms, Medicine, Female, Research Article, Arthropoda, Amorphous Solids, Photoperiod, Science, media_common.quotation_subject, Materials Science, education, Zoology, Isoptera, Biology, Termites, 010603 evolutionary biology, 03 medical and health sciences, Animals, Animal Physiology, Hexanes, Neoteny, Behavior, Organisms, Chemical Compounds, Biology and Life Sciences, Recognition, Psychology, biology.organism_classification, Invertebrates, Hydrocarbons, 030104 developmental biology, Glass

Abstract

Royal recognition is a central feature of insect societies, allowing them to maintain the reproductive division of labor and regulate colony demography. Queen recognition has been broadly demonstrated and queen recognition pheromones have been identified in social hymenopterans, but not in termites. Here we describe behaviors that are elicited in workers and soldiers by neotenic queens and kings of the subterranean termite, Reticulitermes flavipes, and demonstrate the chemical basis for the behavior. Workers and soldiers readily perform a lateral or longitudinal shaking behavior upon antennal contact with queens and kings. When royal cuticular chemicals are transferred to live workers or inert glass dummies, they elicit antennation and shaking in a dose-dependent manner. The striking response to reproductives and their cuticular extracts suggests that royal-specific cuticular compounds act as recognition pheromones and that shaking behavior is a clear and measurable queen and king recognition response in this termite species.

Published

2018

45. Acute effect of low-dose thiacloprid exposure synergised by tebuconazole in a parasitoid wasp

Author

Guy Smagghe, Eve Veromann, Jonathan Willow, and Ana I. Silva

Subjects

0106 biological sciences, Insecticides, Wasps, HYMENOPTERA, Thiazines, 010501 environmental sciences, 01 natural sciences, Toxicology, chemistry.chemical_compound, Neonicotinoids, PESTICIDES, INSECTICIDES, Materials, Fungicides, Multidisciplinary, biology, Agriculture, Drug Synergism, Thiacloprid, LEPIDOPTERA, Fungicide, EULOPHIDAE, Physical Sciences, POPULATIONS, Medicine, Insect Pests, Agrochemicals, Aphelinus abdominalis, Research Article, Crops, Agricultural, Death Rates, Science, Amorphous Solids, Materials Science, DELTAMETHRIN, Crops, Insect Control, Risk Assessment, Parasitoid wasp, Pests, Population Metrics, FUNGICIDES, Animals, Pesticides, Pest Control, Biological, Ecosystem, ERETMOCERUS-MUNDUS, 0105 earth and related environmental sciences, Tebuconazole, Dose-Response Relationship, Drug, Population Biology, business.industry, fungi, Pest control, Biology and Life Sciences, Pesticide, Triazoles, biology.organism_classification, Fungicides, Industrial, 010602 entomology, Deltamethrin, chemistry, Pest Control, Glass, business, BIOLOGICAL-CONTROL, Crop Science

Abstract

Agricultural practices often involve tank-mixing and co-application of insecticides with fungicides to control crop pests. However, natural methods relying on biological control agents such as hymenopteran parasitoids have been shown to be highly effective in suppressing crop pest populations. The current body of insecticide risk assessment data accounting for fungicide co-application is very small, the present study being the first to examine this in a parasitoid wasp. Through low-dose exposure to dry residues of the neonicotinoid insecticide thiacloprid, we examined its mortal and knockdown effect on Aphelinus abdominalis when co-applied with increasing doses of the fungicide tebuconazole. Both of these acute effects of thiacloprid were synergised (toxicity increased to a greater-than-additive effect) by tebuconazole, resulting in significant mortality from low-dose co-applications of tebuconazole, and significant knockdown even without co-applied tebuconazole, the effect increasing as tebuconazole concentration increased. We show the highly toxic effect that a low dose of thiacloprid imposes on A. abdominalis populations, and a synergistic toxicity when co-applied with low doses of tebuconazole. Our work suggests a need for updating pesticide risk assessment methods, accounting for pesticide mixtures, in order to make these risk assessments more field relevant.

Published

2018

46. Correction: Evaluation of a novel biodegradable thermosensitive keto-hydrogel for improving postoperative pain in a rat model

Author

Chiu Yen Chung, Chung-Sheng Shi, Chin-Fu Chen, Meng Yow Hsieh, Wen-Fu Lee, Tsai Yu Lin, Chang Jhih Cai, Ming Hung Shih, Kuo Ti Peng, Ren Shyang Guo, Tsung-Jen Huang, Chung Hang Wong, Meng Huang Wu, Wei Bin Hsu, and Navneet Kumar Dubey

Subjects

Histology, Polymers, Materials by Structure, Physiology, Postoperative pain, Amorphous Solids, Rat model, Materials Science, Sensory Physiology, lcsh:Medicine, Surgical and Invasive Medical Procedures, Body Temperature, Tissue Repair, Medicine and Health Sciences, Medicine, Pain Management, lcsh:Science, Pharmacology, Analgesics, Wound Healing, Multidisciplinary, business.industry, lcsh:R, Drugs, Biology and Life Sciences, Pain Sensation, Polymer Chemistry, Sensory Systems, Chemistry, Macromolecules, Somatosensory System, Physiological Parameters, Anesthesia, Mixtures, Physical Sciences, lcsh:Q, Anatomy, business, Physiological Processes, Gels, Research Article, Neuroscience

Abstract

This study evaluates the sustained analgesic effect of ketorolac-eluting thermosensitive biodegradable hydrogel in the plantar incisional pain model of the rat hind-paw. A ketorolac-embedded 2, 2'-Bis (2-oxazolin) (BOX) linking methoxy-poly(ethylene glycol) and poly(lactide-co-glycolide) (mPEG-PLGA) diblock copolymer (BOX copolymer) was synthesized as keto-hydrogel based on optimal sol-gel phase transition and in vitro drug release profile. The effect of keto-hydrogel on postoperative pain (POP) was assessed using the established plantar incisional pain model in hind-paw of rats and compared to that of ketorolac solution. Pain and sensory threshold, as well as pain scoring, were evaluated with behavioral tests by means of anesthesiometer and incapacitance apparatus, respectively. Pro-inflammatory cytokine levels (TNF-α, IL-6, VEGF, and IL-1β) around incisional wounds were measured by ELISA. Tissue histology was assessed using hematoxylin and eosin and Masson’s trichrome staining. Ten mg/mL (25 wt%) keto-hydrogel showed a sol-gel transition at 26.4°C with a 10-day sustained drug release profile in vitro. Compared to ketorolac solution group, the concentration of ketorolac in tissue fluid was higher in the keto-hydrogel group during the first 18 h of application. Keto-hydrogel elevated pain and sensory threshold, increased weight-bearing capacity, and significantly reduced the levels of TNF-α, IL-6, and IL-1β while enhanced VEGF in tissue fluid. Histologic analysis reveals greater epithelialization and collagen deposition around wound treated with keto-hydrogel. In conclusion, our study suggests that keto-hydrogel is an ideal compound to treat POP with a secondary gain of improved incisional wound healing.

Published

2018

47. Assessing the impact of corn variety and Texas terroir on flavor and alcohol yield in new-make bourbon whiskey

Author

Rhonda K. Miller, Chris R. Kerth, Robert J. Arnold, Seth C. Murray, and Alejandra Ochoa

Subjects

0106 biological sciences, Metabolic Processes, 01 natural sciences, Biochemistry, Starches, Agricultural science, Mashing, Yield (wine), Materials, Flavor, Chromatography, High Pressure Liquid, Liquid Chromatography, Multidisciplinary, biology, Organic Compounds, Alcoholic Beverages, Chromatographic Techniques, Eukaryota, 04 agricultural and veterinary sciences, Plants, 040401 food science, Texas, Zea mays, Separation Processes, Chemistry, Geography, Experimental Organism Systems, Benzaldehydes, Taste, Physical Sciences, Medicine, Research Article, Science, Amorphous Solids, Materials Science, Carbohydrates, Research and Analysis Methods, Gas Chromatography-Mass Spectrometry, 0404 agricultural biotechnology, Model Organisms, Plant and Algal Models, Olfactometry, Humans, Grasses, Hybrid corn, Aroma, Terroir, Distillation, Ethanol, Organic Chemistry, Organisms, Chemical Compounds, Biology and Life Sciences, Variety (linguistics), biology.organism_classification, High Performance Liquid Chromatography, Maize, Metabolism, Alcohols, Fermentation, Animal Studies, Glass, Edible Grain, 010606 plant biology & botany

Abstract

The whiskey industry is dominated by whiskey styles with recipes that contain corn as the primary grain. However, little research has been conducted to investigate whiskey specific distinctions arising from different corn varieties and growing environments (i.e. terroir). Further, no studies have investigated the aroma or flavor impacts of different varieties and terroirs. Here, three different commodity yellow dent hybrid corn varieties were grown on different farms in Texas, spanning from the Texas Panhandle to the Mexico-United States border. Using novel small-batch mashing techniques, a newly developed new-make (i.e. unaged whiskey,immediate by-product of distillation) bourbon sensory lexicon, a trained sensory panel, high-performance liquid chromatography, and gas chromatography-mass spectrometry/olfactometry (GC-MS/O), we report for the first time a method for evaluating sample effects on alcohol yield and flavor in new-make bourbon whiskey. We discover that variety, terroir and their interactions, previously ignored, can substantially affect valuable sensory aspects of whiskey, suggesting the importance of scientifically evaluating corn genetics and agronomy for developing better whiskey. Excitingly, our data suggest milled corn with higher levels of benzadehyde, readily measured by GC-MS/O, correlates with improved sensory aspects of distillate, which must be expensively evaluated using a trained human sensory panel.

Published

2018

48. Enhancement of HGF-induced tubulogenesis by endothelial cell-derived GDNF

Author

Toru Sakairi, Yoriaki Kaneko, Hidekazu Ikeuchi, Shunsuke Takahashi, Keiju Hiromura, Akito Maeshima, Yoshihisa Nojima, and Masao Nakasatomi

Subjects

0301 basic medicine, Physiology, Cell Culture Techniques, Artificial Gene Amplification and Extension, Biochemistry, Polymerase Chain Reaction, Umbilical vein, Epithelium, 0302 clinical medicine, Endocrinology, Neurotrophic factors, Animal Cells, Glial cell line-derived neurotrophic factor, Medicine and Health Sciences, Post-Translational Modification, Phosphorylation, Materials, Multidisciplinary, biology, Chemistry, Hepatocyte Growth Factor, Recombinant Proteins, Cell biology, Endothelial stem cell, Kidney Tubules, Research Design, 030220 oncology & carcinogenesis, Aquaporin 1, Physical Sciences, Medicine, Hepatocyte growth factor, Anatomy, Cellular Types, Tyrosine kinase, medicine.drug, Research Article, Science, Amorphous Solids, Materials Science, Research and Analysis Methods, 03 medical and health sciences, Growth Factors, Paracrine Communication, medicine, Human Umbilical Vein Endothelial Cells, Humans, Glial Cell Line-Derived Neurotrophic Factor, Molecular Biology Techniques, Molecular Biology, Endocrine Physiology, urogenital system, Proto-Oncogene Proteins c-ret, Quantitative Analysis, Biology and Life Sciences, Proteins, Endothelial Cells, Kidneys, Epithelial Cells, Renal System, Cell Biology, Reverse Transcriptase-Polymerase Chain Reaction, Apical membrane, 030104 developmental biology, Biological Tissue, Culture Media, Conditioned, Mixtures, biology.protein, Gels

Abstract

Tubulogenesis, the organization of epithelial cells into tubular structures, is an essential step during renal organogenesis as well as during the regeneration process of renal tubules after injury. In the present study, endothelial cell-derived factors that modulate tubule formation were examined using an in vitro human tubulogenesis system. When human renal proximal tubular epithelial cells (RPTECs) were cultured in gels, tubular structures with lumens were induced in the presence of hepatocyte growth factor (HGF). Aquaporin 1 was localized in the apical membrane of these tubular structures, suggesting that these structures are morphologically equivalent to renal tubules in vivo. HGF-induced tubule formation was significantly enhanced when co-cultured with human umbilical vein endothelial cells (HUVECs) or in the presence of HUVEC-conditioned medium (HUVEC-CM). Co-culture with HUVECs did not induce tubular structures in the absence of HGF. A phospho-receptor tyrosine kinase array revealed that HUVEC-CM markedly enhanced phosphorylation of Ret, glial cell-derived neurotrophic factor (GDNF) receptor, in HGF-induced tubular structures compared to those without HUVEC-CM. HUVECs produced GDNF, and RPTECs expressed both Ret and GDNF family receptor alpha1 (co-receptor). HGF-induced tubule formation was significantly enhanced by addition of GDNF. Interestingly, not only HGF but also GDNF significantly induced phosphorylation of the HGF receptor, Met. These data indicate that endothelial cell-derived GDNF potentiates the tubulogenic properties of HGF and may play a critical role in the epithelial-endothelial crosstalk during renal tubulogenesis as well as tubular regeneration after injury.

Published

2018

49. Weighing density and kinship: Aggressive behavior and time allocation in fire salamander (Salamandra infraimmaculata)

Author

Shai Markman and Daniel Berkowic

Subjects

0106 biological sciences, Life Cycles, Caudata, Salamandra infraimmaculata, Physiology, Time allocation, Social Sciences, Marine and Aquatic Sciences, Predation, 01 natural sciences, Larvae, Medicine and Health Sciences, Cannibalism, Psychology, Materials, media_common, Methylenes, Multidisciplinary, biology, Behavior, Animal, Ecology, 05 social sciences, Inclusive fitness, Eukaryota, Trophic Interactions, Aggression, Chemistry, Community Ecology, Physiological Parameters, Larva, Vertebrates, Physical Sciences, Medicine, Female, medicine.symptom, Research Article, Science, media_common.quotation_subject, Amorphous Solids, Materials Science, Zoology, 010603 evolutionary biology, Competition (biology), Amphibians, Fire salamander, medicine, Animals, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Salamandra, Sibling, Salamanders, Ponds, Population Density, Behavior, fungi, Ecology and Environmental Sciences, Organisms, Chemical Compounds, Biology and Life Sciences, Bodies of Water, biology.organism_classification, Hydrocarbons, Methylene Blue, Earth Sciences, Glass, Developmental Biology

Abstract

Kin-biased behavior (that is responding differentially to kin and non-kin) is thought to be adaptive in many social interactions. One example of this kin bias is behaving less aggressively toward a relative than a non-relative, a behavior which yields inclusive fitness benefits. However, data are lacking about the ability of animals to weigh their preference for kinship and the density of conspecifics simultaneously and to respond accordingly. Fire salamanders (Salamandra infraimmaculata) larviposit in high densities in ponds. Thus, larvae of different females confront competition and predation by other larvae. We studied whether larvae prefer their kin over particular density or vice versa. We experimentally used a transparent glass aquarium with inner chambers to test the responses of a focal larva toward its siblings and non-siblings. Specifically, we quantified the time a focal larva spent near its siblings or non-siblings, presented in varying densities, and the aggression level it demonstrated. We found that focal larvae spent more time near non-siblings if non-sibling and sibling groups were of equal density. The focal larvae were also more aggressive toward non-siblings. The results may be explained by the cannibalistic nature of these larvae: high density may provide more opportunities for food, especially when non-siblings are present. Further explanations for these findings may include other advantages of staying in a larger group and/or the stronger olfactory and visual stimulation offered by groups compared to a single individual. These findings suggest that larvae make differential responses toward conspecifics depending simultaneously on the level of relatedness and the density of the group. Such responses have important implications for social-aggregation decisions and may especially affect the fitness of cannibalistic species.

Published

2018

50. Yeast screening and cell immobilization on inert supports for ethanol production from cheese whey permeate with high lactose loads

Author

Rebeca Díez-Antolínez, Ana I. Paniagua-García, Jerson Garita-Cambronero, María Hijosa-Valsero, and Xiomar Gómez

Subjects

0106 biological sciences, Metabolic Processes, Lactose, Yeast and Fungal Models, 02 engineering and technology, Disaccharides, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Kluyveromyces, Cheese, 0202 electrical engineering, electronic engineering, information engineering, Medicine and Health Sciences, Ethanol fuel, Food science, Materials, Multidisciplinary, biology, Organic Compounds, Monosaccharides, Eukaryota, Cells, Immobilized, Chemistry, Experimental Organism Systems, Physical Sciences, Medicine, Cheeses, Research Article, 020209 energy, Science, Amorphous Solids, Materials Science, Carbohydrates, Saccharomyces cerevisiae, Research and Analysis Methods, Raschig ring, Saccharomyces, Model Organisms, 010608 biotechnology, Whey, Response surface methodology, Nutrition, Ethanol, Organic Chemistry, Chemical Compounds, Organisms, Fungi, Biology and Life Sciences, Galactose, biology.organism_classification, Yeast, Diet, Metabolism, chemistry, Food, Alcohols, Fermentation, Animal Studies, Glass

Abstract

Eight yeast strains of the genera Saccharomyces and Kluyveromyces were screened to ferment high lactose-load cheese whey permeate (CWP) (>130 g/L lactose) without nutrient supplementation. The fermentation conditions (temperature, pH and time) were optimized to maximize the fermentation performance (ethanol titer, ethanol yield and lactose consumption) for the two preselected strains, K. marxianus DSM 5422 and S. cerevisiae Ethanol Red, using a response surface methodology (RSM). Under optimized conditions, K. marxianus DSM 5422 attained ethanol titers of 6% (v/v) in only 44 h. Moreover, the feasibility of immobilizing this strain on four different inorganic supports (plastic, glass and Tygon silicone Raschig rings and alumina beads) was assessed. Glass Raschig rings and alumina beads showed a more stable performance over time, yielding ethanol titers of 60 g/L during 1,000 hours, which remarkably reduces yeast cultivation costs. Results demonstrate the feasibility of using CWP for successful ethanol production in a simple and economical process, which represents an attractive alternative for waste treatment in dairy industries.

Published

2018