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1. Integral methods for automatic quantification of fast-scan-cyclic-voltammetry detected neurotransmitters

Author

Anders J. Asp, James K. Trevathan, Leonardo X. Espín, J. Luis Lujan, and Kip A. Ludwig

Subjects
Adenosine, Computer science, Dopamine, Glycobiology, Amperometry, 02 engineering and technology, 01 natural sciences, Biochemistry, Norepinephrine, Catecholamines, Medicine and Health Sciences, Amines, Neurotransmitter Agents, Multidisciplinary, Organic Compounds, Chemical Reactions, Neurochemistry, Nucleosides, Visual identification, Neurotransmitters, 021001 nanoscience & nanotechnology, Serotonin metabolism, Glycosylamines, Chemistry, Bioassays and Physiological Analysis, Physical Sciences, Medicine, 0210 nano-technology, Biological system, Oxidation-Reduction, Research Article, Analyte, Biogenic Amines, Serotonin, Epinephrine, Science, Fast-scan cyclic voltammetry, Surgical and Invasive Medical Procedures, 010402 general chemistry, Research and Analysis Methods, Oxidation, Animals, Humans, Dopamine metabolism, Bioelectrochemical Analysis, Functional Electrical Stimulation, Extramural, Organic Chemistry, Chemical Compounds, Biology and Life Sciences, Oxidation reduction, Electrochemical Techniques, Hormones, 0104 chemical sciences, Rats, Sources of error, Biochemical Analysis, Microelectrodes, Neuroscience
Abstract

Modern techniques for estimating basal levels of electroactive neurotransmitters rely on the measurement of oxidative charges. This requires time integration of oxidation currents at certain intervals. Unfortunately, the selection of integration intervals relies on ad-hoc visual identification of peaks on the oxidation currents, which introduces sources of error and precludes the development of automated procedures necessary for analysis and quantification of neurotransmitter levels in large data sets. In an effort to improve charge quantification techniques, here we present novel methods for automatic selection of integration boundaries. Our results show that these methods allow quantification of oxidation reactions both in vitro and in vivo and of multiple analytes in vitro.

Published
2021

2. A Low-Cost Humidity Control System to Protect Microscopes in a Tropical Climate

Author

J. Luis Lujan, Anders J. Asp, Christina M. Webber, Evan N. Nicolai, Ephraim I. Ben-Abraham, John W. Wilson, Gabriel Martínez-Gálvez, and Victoria S. Marks

Subjects
Fungal growth, Infectious and parasitic diseases, RC109-216, Improper storage, Hygroscopic Agents, Toxicology, 03 medical and health sciences, 0302 clinical medicine, Tropical climate, Diagnostic equipment, Humans, Relative humidity, 030212 general & internal medicine, High humidity, Original Research, Microscopy, Tropical Climate, 030503 health policy & services, Fungi, Humidity, food and beverages, General Medicine, Silicon Dioxide, Belize, 6. Clean water, humanities, Equipment and Supplies, 13. Climate action, Costs and Cost Analysis, Equipment Contamination, Environmental science, Public aspects of medicine, RA1-1270, 0305 other medical science
Abstract

Introduction: A clean and functional microscope is necessary for accurate diagnosis of infectious diseases. In tropical climates, high humidity levels and improper storage conditions allow for the accumulation of debris and fungus on the optical components of diagnostic equipment, such as microscopes. Objective: Our objective was to develop and implement a low-cost, sustainable, easy to manage, low-maintenance, passive humidity control chamber to both reduce debris accumulation and microbial growth onto the optical components of microscopes. Methods: Constructed from easily-sourced and locally available materials, the cost of each humidity control chamber is approximately $2.35 USD. Relative humidity levels were recorded every 30 minutes over a period of 10 weeks from two chambers deployed at the Belize Vector and Ecology Center and the University of Belize. Results: The humidity control chamber deployed at the University of Belize maintained internal relative humidity at an average of 35.3% (SD = 4.2%) over 10 weeks, while the average external relative humidity was 86.4% (SD = 12.4%). The humidity control chamber deployed at the Belize Vector and Ecology Center effectively maintained internal relative humidity to an average of 54.5% (SD = 9.4%) over 10 weeks, while the average external relative humidity was 86.9% (SD = 12.9%). Conclusions: Control of relative humidity is paramount for the sustainability of medical equipment in tropical climates. The humidity control chambers reduced relative humidity to levels that were not conducive for fungal growth while reducing microscope contamination from external sources. This will likely extend the service life of the microscopes while taking advantage of low-cost, locally sourced components.

Published
2020

3. Developing Strategies for Sustainable Medical Equipment Maintenance in Under-Resourced Settings

Author

Sara Aristizabal, Anders J. Asp, Gabriel Martínez-Gálvez, Christina M. Webber, J. Luis Lujan, Maria A. Gonzalez Porras, Manuela Lopera Higuita, John W. Wilson, Ephraim I. Ben-Abraham, and Brent M. Berry

Subjects
Process management, Maintenance, Organizations, Nonprofit, Developing country, Medical equipment, Infectious and parasitic diseases, RC109-216, Original research, 03 medical and health sciences, 0302 clinical medicine, Stakeholder Participation, Health care, Humans, 030212 general & internal medicine, Developing Countries, Sustainable solutions, business.industry, Teaching, 030503 health policy & services, General Medicine, Preventive maintenance, Editorial, Equipment and Supplies, Sustainability, Health Resources, Public aspects of medicine, RA1-1270, 0305 other medical science, business, Equipment and Supplies Utilization, Limited resources, Needs Assessment, Program Evaluation
Abstract

Engineering technology plays a pivotal role in the delivery of health care in under-resourced countries by providing an infrastructure to improve patient outcomes. However, sustainability of these technologies is difficult in these settings oftentimes due to limited resources or training. The framework presented in this editorial focuses on establishing medical and laboratory equipment sustainability in developing countries and is comprised of four steps: 1) establishing reliable in-country relationships with stakeholders, 2) identifying needs for sustainable solutions locally, 3) exploring potential solutions and assessing their effort-to-impact ratios, and 4) working with strategic partners to implement solutions with clear performance metrics. By focusing on the sustainability of donated equipment instead of the equipment itself, this method presented distinguishes itself from other philanthropic endeavors in the field by seeking to establish preventive maintenance habits that can impact clinical outcomes of a community long term. Application of this methodology is reported in the Original Research Article “A Low-Cost Humidity Control System to Protect Microscopes in a Tropical Climate” by Asp et. al.

Published
2020
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4. GEANT4 simulation of cyclotron radioisotope production in a solid target

Author

P. Takhar, J. Asp, Scott Penfold, Paul Jackson, and F. Poignant

Subjects
Diagnostic Imaging, Nuclear reaction, Engineering, Proton, Nuclear engineering, Cyclotron, Monte Carlo method, Biophysics, General Physics and Astronomy, 01 natural sciences, law.invention, User-Computer Interface, Nickel, law, 0103 physical sciences, Computer Graphics, Humans, Computer Simulation, Radiology, Nuclear Medicine and imaging, 010306 general physics, Copper Radioisotopes, Simulation, Radioisotopes, Range (particle radiation), 010308 nuclear & particles physics, business.industry, General Medicine, Cyclotrons, Yield (chemistry), Radiopharmaceuticals, business, Monte Carlo Method, Algorithms, Copper, Software, Beam (structure)
Abstract

The use of radioisotopes in nuclear medicine is essential for diagnosing and treating cancer. The optimization of their production is a key factor in maximizing the production yield and minimizing the associated costs. An efficient approach to this problem is the use of Monte Carlo simulations prior to experimentation. By predicting isotopes yields, one can study the isotope of interest expected activity for different energy ranges. One can also study the target contamination with other radioisotopes, especially undesired radioisotopes of the wanted chemical element which are difficult to separate from the irradiated target and might result in increasing the dose when delivering the radiopharmaceutical product to the patient. The aim of this work is to build and validate a Monte Carlo simulation platform using the GEANT4 toolkit to model the solid target system of the South Australian Health and Medical Research Institute (SAHMRI) GE Healthcare PETtrace cyclotron. It includes a GEANT4 Graphical User Interface (GUI) where the user can modify simulation parameters such as the energy, shape and current of the proton beam, the target geometry and material, the foil geometry and material and the time of irradiation. The paper describes the simulation and presents a comparison of simulated and experimental/theoretical yields for various nuclear reactions on an enriched nickel 64 target using the GEANT4 physics model QGSP_BIC_AllHP, a model recently developed to evaluate with high precision the interaction of protons with energies below 200MeV available in Geant4 version 10.1. The simulation yield of the (64)Ni(p,n)(64)Cu reaction was found to be 7.67±0.074 mCi·μA(-1) for a target energy range of 9-12MeV. Szelecsenyi et al. (1993) gives a theoretical yield of 6.71mCi·μA(-1) and an experimental yield of 6.38mCi·μA(-1). The (64)Ni(p,n)(64)Cu cross section obtained with the simulation was also verified against the yield predicted from the nuclear database TENDL and compared to experimental yield obtained from literature.

Published
2016
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5. Evaluation of physician eye lens doses during permanent seed implant brachytherapy for prostate cancer

Author

J M Lawson, Scott Penfold, J. Asp, Loredana G. Marcu, Penfold, SN, Marcu, L, Lawson, JM, and Asp, J

Subjects
Male, medicine.medical_specialty, lens, physicians, medicine.medical_treatment, brachytherapy, Brachytherapy, Radiation Dosage, Iodine Radioisotopes, Prostate cancer, Radiation Monitoring, Occupational Exposure, Physicians, interventional radiology, Lens, Crystalline, medicine, Fluoroscopy, Humans, Medical physics, Waste Management and Disposal, Radioisotopes, Dosimeter, medicine.diagnostic_test, business.industry, Phantoms, Imaging, Public Health, Environmental and Occupational Health, Prostatic Neoplasms, General Medicine, Seed Implantation, medicine.disease, fluoroscopy, Radiological weapon, Calibration, Radiology, Implant, business, Monte Carlo Method, Prostate brachytherapy
Abstract

Treatment of low grade prostate cancer with permanent implant of radioactive seeds has become one of the most common brachytherapy procedures in use today. The implant procedure is usually performed with fluoroscopy image guidance to ensure that the seeds are deployed in the planned locations. In this situation the physician performing the transperineal implant is required to be close to the fluoroscopy unit and dose to the eye lens may be of concern. In 1991 the International Commission on Radiological Protection (ICRP) provided a recommended dose limit of 150mSvyr for occupational exposures to the lens of the eye. With more long term follow-up data, this limit was revised in 2011 to 20mSvyr. With this revised limit in mind, we have investigated the dose to the lens of the eye received by physicians during prostate brachytherapy seed implantation. By making an approximation of annual workload, we have related the dose received to the annual background dose. Through clinical and phantom measurements with thermoluminescent dosimeters, it was found that the excess dose to the physicians eye lens received for a conservative estimate of annual workload was never greater than 100% of the annual background dose. Refereed/Peer-reviewed

Published
2012

6. Involvement of INK4A gene products in the pathogenesis and development of human osteosarcoma

Author

M S, Benassi, L, Molendini, G, Gamberi, G, Magagnoli, P, Ragazzini, G A, Gobbi, L, Sangiorgi, L, Pazzaglia, J, Asp, C, Brantsing, and P, Picci

Subjects
Adult, Male, Osteosarcoma, Adolescent, Transcription, Genetic, Immunoblotting, Serine Endopeptidases, Bone Neoplasms, DNA, Neoplasm, Exons, Middle Aged, Prognosis, Immunohistochemistry, Methylation, Polymerase Chain Reaction, Fungal Proteins, Gene Expression Regulation, Neoplastic, Cell Transformation, Neoplastic, Biomarkers, Tumor, Humans, Female, Tumor Suppressor Protein p53, Child, Promoter Regions, Genetic, Cyclin-Dependent Kinase Inhibitor p16
Abstract

The INK4A tumor suppressor gene plays a crucial role in the regulation of the G1 cell cycle phase. It encodes two transcripts, p16 and p14 alternate reading frame (ARF), involved in retinoblastoma protein (pRb)- and p53- cell growth control pathways, respectively.To define the role of gene status and molecule expression involved in the INK4A regulatory system, immunohistochemistry, immunoblotting, and polymerase chain reaction (PCR) analysis were performed on 35 primary high grade osteosarcomas (OS).Although p16 and p14ARF proteins were found negative or weakly detectable in 60% and 57% of the cases respectively, INK4A gene analysis of exons 1alpha, 1beta and 2 did not reveal any deletion or mutation. However, methylation status of the 5'CpG promoter region, assessed by methylation-specific PCR, was found in 12 out of 21 OSs with negative or weak p16 expression. A statistical analysis based on pRb/p16 and p53/p14ARF staining status showed that pRb and p16 co-expression was inversely correlated to tumor relapse and was a marker for a more favorable prognosis. A statistically significant inverse correlation was found between wt-p53 and p14ARF expression. In the group of wt-p53 tumors, the loss of p14ARF was associated with a decreased expression of p21 protein, suggesting a down-regulation of the transcriptional activity of p53.The current results suggest that, in OS, the altered expression of INK4A products plays a primary role in the deregulation of both pRb and p53 cell growth control pathways, contributing to tumor pathogenesis and development.

Published
2001

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