Search

Your search keyword '"Eli I"' showing total 390 results
Start Over Author "Eli I" Search Limiters Peer Reviewed
390 results on '"Eli I"'

1. Predicting the diffusion coefficients of rejuvenators into bitumens using molecular dynamics, machine learning, and force field atom types

Author

Eli I. Assaf, Xueyan Liu, Peng Lin, Shisong Ren, and Sandra Erkens

Subjects
Bitumen, Rejuvenator, Fickian Diffusion, Molecular Dynamics, Machine Learning, Chemical Descriptors, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

This study explores the use of chemical descriptors derived from force field atom types to predict Fickian diffusion coefficients of rejuvenators in bitumen, utilizing machine learning models trained on data from 240 non-equilibrium molecular dynamics simulations. The simulations cover three bitumen types (NO, TO, FO), five aging degrees, and four temperatures (60 °C, 120 °C, 160 °C, 200 °C), capturing diffusion coefficients ranging from 0.0068e-10 m2/s in highly aged bitumens at 60 °C to 4.35e-10 m2/s in fresher samples at 200 °C. The MLM, built with 18 chemical descriptors for bitumen and rejuvenator sides, achieves an R2 of 0.97, accurately predicting diffusion across varied conditions. This approach abstracts away from the need for repeated MD simulations, enabling diffusion predictions even for systems outside the original dataset. The manuscript presents three case studies to illustrate how the model can be used for the iterative design of rejuvenators by optimizing molecular structures based on critical chemical features, such as rejuvenator oxygen content, bitumen sulfur content, and molecular weights. It also demonstrates how the model offers a practical framework for understanding the diffusion and performance of rejuvenators by linking time-dependent factors—such as concentration, depth, and rejuvenation time—with the bulk properties of bitumen-rejuvenator systems, facilitating industrial applications.

Published
2024
Full Text
View/download PDF

2. Predicting the properties of bitumen using machine learning models trained with force field atom types and molecular dynamics simulations

Author

Eli I. Assaf, Xueyan Liu, Peng Lin, Shisong Ren, and Sandra Erkens

Subjects
Molecular Dynamics, Machine Learning, Bitumen Design, Chemical Descriptors, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

This study enhances the molecular analysis of bitumen by transitioning from traditional chemical descriptors, such as SARA (Saturates, Aromatics, Resins, and Asphaltenes) fractions and elemental compositions, to specific force field atom types in Molecular Dynamics (MD) models. This shift improves the precision in predicting material properties critical for bituminous material characterization. Machine Learning Models (MLMs) were developed to use these atom types as input features, inherently reflecting fundamental chemical characteristics. Trained on data from over 1,770 LAMMPS simulations of diverse bitumen types and conditions, these MLMs enable the prediction of properties like density, heat capacity, solubility parameters, and thermal expansion coefficients without the need for additional MD simulations. The models utilize 30 chemical descriptors corresponding to specific atom types in the PCFF force field, which collectively account for over 95% of the influence on these properties. By accurately predicting fundamental, thermodynamic, and kinetic properties, the use of MLMs and force field atom types allows researchers to efficiently tweak the chemical nature of organic molecules and mixtures to achieve desired properties. With near-instantaneous prediction times, these MLMs offer valuable insights for advancing bitumen research in the construction and petroleum industries, reducing the need for more intensive simulation techniques.

Published
2024
Full Text
View/download PDF

3. Approaches for identifying and measuring heteroresistance in azole-susceptible Candida isolates

Author

Cécile Gautier, Eli I. Maciel, and Iuliana V. Ene

Subjects
mycology, Candida albicans, drug responses, azoles, heteroresistance, Microbiology, QR1-502
Abstract

ABSTRACTHeteroresistance to antifungal agents poses a significant challenge in the treatment of fungal infections. Currently, the absence of established methods for detecting and measuring heteroresistance impedes progress in understanding this phenomenon in fungal pathogens. In response to this gap, we present a comprehensive set of new and optimized methods designed to detect and quantify azole heteroresistance in Candida albicans. Here, we define two primary assays for measuring heteroresistance: population analysis profiling, based on growth on solid medium, and single-cell assays, based on growth in liquid culture. We observe good correlations between the measurements obtained with liquid and solid assays, validating their utility for studying azole heteroresistance. We also highlight that disk diffusion assays could serve as an additional tool for the rapid detection of heteroresistance. These methods collectively provide a versatile toolkit for researchers seeking to assess heteroresistance in C. albicans. They also serve as a critical step forward in the characterization of antifungal heteroresistance, providing a framework for investigating this phenomenon in diverse fungal species and in the context of other antifungal agents. Ultimately, these advancements will enhance our ability to effectively measure antifungal drug responses and combat fungal infections.IMPORTANCEHeteroresistance involves varying antimicrobial susceptibility within a clonal population. This phenomenon allows the survival of rare resistant subpopulations during drug treatment, significantly complicating the effective management of infections. However, the absence of established detection methods hampers progress in understanding this phenomenon in human fungal pathogens. We propose a comprehensive toolkit to address this gap in the yeast Candida albicans, encompassing population analysis profiling, single-cell assays, and disk diffusion assays. By providing robust and correlated measurements through both solid and liquid assays, this work will provide a framework for broader applications across clinically relevant Candida species. These methods will enhance our ability to understand this phenomenon and the failure of antifungal therapy.

Published
2024
Full Text
View/download PDF

4. Introducing a force-matched united atom force field to explore larger spatiotemporal domains in molecular dynamics simulations of bitumen

Author

Eli I. Assaf, Xueyan Liu, Peng Lin, and Sandra Erkens

Subjects
Coarse-graining, Force field, Force-matching, Molecular dynamics, Morphology, Bitumen, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

This paper presents a United Atom (UA) force field for simulating hydrocarbon molecules in bituminous materials, integrating explicit hydrogens into beads with their parent atom. This method simplifies all-atom molecular models, significantly accelerating Molecular Dynamics (MD) simulations of bitumen by 10 to 100 times. Key advantages include halving the particle count, eliminating complex hydrogen interactions, and decreasing the degrees of freedom of the molecules. Developed by mapping forces from an all-atom model to the centers of mass of UA model beads, the force field ensures accurate replication of energies, forces, and molecular conformations, mirroring properties like pressure and density. It features 17 bead types and 287 interaction types, encompassing various hydrocarbon molecules. The UA force field's stability, surpassing all-atom models, is a notable achievement. This stability, stemming from smoother potential energy surfaces, leads to consistent property measurements and improved stress tensor accuracy. It enables the extension of MD simulations to larger spatiotemporal scales, crucial for understanding complex phenomena such as phase separation in bituminous materials. This foundational work sets the stage for future developments, including refining parameters and introducing new bead types, to enhance the modeling capabilities of the force field, thereby advancing the application and understanding of bituminous materials.

Published
2024
Full Text
View/download PDF

5. Studying the impact of phase behavior in the morphology of molecular dynamics models of bitumen

Author

Eli I. Assaf, Xueyan Liu, Peng Lin, Sandra Erkens, Sayeda Nahar, and Liz I.S. Mensink

Subjects
Bitumen, Molecular dynamics, Phase separation, Morphology, Colloids, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Conventional Molecular Dynamics (MD) models of bitumen are built by homogeneously mixing molecules in a volume without considering that the molecules in bitumen are known to exhibit phase behavior and form distinctive molecular arrangements. These are known to have a significant impact in the behavior of bitumen, and considering their existence is paramount in producing improved representations of bitumen using computational models. This study explores whether MD models of bitumen that are conventionally assumed to be in equilibrium can still undergo significant phase separation over considerably long simulation times. It also aims to establish a more formal pathway to build and study models with highly heterogeneous arrangements of their molecules. Moreover, it aims to evaluate whether the presence of distinct morphologies have a significant impact in numerous physical properties of bitumen. The study shows that conventional and widely used models of bitumen exhibit significant molecular rearrangements over long times (>360 ns). It also shows that building heterogeneous morphologies is possible and result in energetically favorable conformations. Moreover, it proves that studying properties regularly used to validate MD models of bitumen (e.g., density) are insufficient in assessing the impact of different morphologies; more thorough methods are required to evaluate them.

Published
2023
Full Text
View/download PDF

6. Effects of electret coating technology on coronary stent thrombogenicity

Author

M. Urooj Zafar, Jose Javier Bravo-Cordero, Sergi Torramade-Moix, Gines Escolar, Didac Jerez-Dolz, Eli I. Lev, and Juan Jose Badimon

Subjects
electret, platelet, stent, stent coating, thrombosis, Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Stent thrombosis (ST) is a catastrophic event and efforts to reduce its incidence by altering blood-stent interactions are longstanding. A new electret coating technology that produces long-lasting negative charge on stent surface could make them intrinsically resistant to thrombosis. We assessed the thrombogenicity of stents using an annular perfusion model with confocal microscopy, and determined the efficacy of electret coating technology to confer thrombo-resistant properties to standard stents. Using an annular perfusion chamber, Bare Metal Stent (BMS), standard uncoated DES (DES), and Electret-coated DES (e-DES) were exposed to human blood under arterial flow conditions. Deposits of fibrinogen and platelets on the stent surface were analyzed using immunofluorescence staining and confocal microscopy. Surface coverage by fibrinogen and platelets and the deposit/aggregate size were quantified using computerized morphometric analysis. The experimental methodology produced consistent, quantifiable results. Area of stent surface covered by fibrinogen and platelets and the average size of the deposits/aggregates were lowest for e-DES and highest on BMS, with DES in the middle. The size of fibrinogen–deposits showed no differences between the stents. The testing methodology used in our study successfully demonstrated that electret coating confers significant antithrombotic property to DES stents. These findings warrant confirmation in a larger study.

Published
2022
Full Text
View/download PDF

7. Testosterone and persistent organic pollutants in East Greenland male polar bears (Ursus maritimus)

Author

Tomasz M. Ciesielski, Christian Sonne, Eli I. Smette, Gro Dehli Villanger, Bjarne Styrishave, Robert J. Letcher, Daniel J. Hitchcock, Rune Dietz, and Bjørn M. Jenssen

Subjects
Arctic, Endocrine disruption, POPs, Reproductive organs, PCBs, Seasonal hormone levels, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Legacy persistent organic pollutants (POPs) such as polychlorinated biphenyls (PCBs) are chemicals that undergo long-range transport to the Arctic. These chemicals possess endocrine disruptive properties raising concerns for development and reproduction. Here, we report the relationship between concentrations of testosterone (T) and persistent organic pollutant (POPs) in 40 East Greenland male polar bears (Ursus maritimus) sampled during January to September 1999–2001. The mean ± standard concentrations of blood T were 0.31 ± 0.49 (mean ± SD) ng/mL in juveniles/subadults (n = 22) and 3.58 ± 7.45 ng/mL in adults (n = 18). The ∑POP concentrations (mean ± SD) in adipose tissue were 8139 ± 2990 ng/g lipid weight (lw) in juveniles/subadults and 11,037 ± 3950 ng/g lw in adult males, respectively, of which Σpolychlorinated biphenyls (ΣPCBs) were found in highest concentrations. The variation in T concentrations explained by sampling date (season), biometrics and adipose tissue POP concentrations was explored using redundancy analysis (RDA). The results showed that age, body length, and adipose lipid content in adult males contributed (p = 0.02) to the variation in POP concentrations. However, although some significant relationships between individual organochlorine contaminants and T concentrations in both juveniles/subadults and adult polar bears were identified, no significant relationships (p = 0.32) between T and POP concentrations were identified by the RDAs. Our results suggest that confounders such as biometrics and reproductive status may mask the endocrine disruptive effects that POPs have on blood T levels in male polar bears, demonstrating why it can be difficult to detect effects on wildlife populations.

Published
2023
Full Text
View/download PDF

8. Inconvenient Truth and Inductive Risk in Covid-19 Science

Author

Eli I. Lichtenstein

Subjects
Values in Science, Noble Lie, Epistemic Risk, Trust, Public Health Ethics, Medical philosophy. Medical ethics, R723-726
Abstract

To clarify the proper role of values in science, focusing on controversial expert responses to Covid-19, this article examines the status of (in)convenient hypotheses. Polarizing cases like health experts downplaying mask efficacy to save resources for healthcare workers, or scientists dismissing “accidental lab leak” hypotheses in view of potential xenophobia, plausibly involve modifying evidential standards for (in)convenient claims. Societies could accept that scientists handle (in)convenient claims just like nonscientists, and give experts less political power. Or societies could hold scientists to a higher bar, by expecting them not to modify evidential standards to avoid costs only incidentally tied to error.

Published
2022
Full Text
View/download PDF

9. Prognostic significance of reticulated platelet levels in diabetic patients with stable coronary artery disease

Author

Leor Perl, Yuri Matatov, Ran Koronowski, Eli I. Lev, and Alejandro Solodky

Subjects
diabetes mellitus, reticulated platelets, stable coronary artery disease, Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Levels of reticulated platelets (RP) increase during high platelet turnover conditions, and have been shown to correlate with diabetes mellitus (DM) status. Little is known regarding the prognostic significance of levels of RP among patients with stable coronary artery disease (SCAD). The study consisted of patients with SCAD and DM, who visited our cardiology outpatient clinic between June 2016 and February 2017. RP levels were measured at baseline as immature platelet fraction (IPF)%, using flow cytometry. Outcomes at 2 years consisted of bleeding events and major adverse cardiovascular events (MACE), which included death, myocardial infarction, cerebrovascular accident and urgent revascularization. The study included 104 patients (mean age - 71.2 ± 9.5 years, 76.9% were male, and 83.7% had hypertension). IPF was significantly higher at baseline among patients who had suffered from a MACE (4.57% vs. 2.53%, p < .001), and lower in patients who had suffered from bleeding events, compared with those who had not (1.57% vs. 3.00%, p = .004). There were higher rates of MACE at higher IPF quartiles (p < .001, AUC-0.770), and higher rates of bleeding at the lowest quartiles (p = .007, AUC-0.781). In SCAD patients with DM, levels of RP are associated with a higher risk of MACE, and inversely correlated with the risk of bleeding.

Published
2020
Full Text
View/download PDF

10. Simultaneous Noninvasive Detection and Therapy of Atherosclerosis Using HDL Coated Gold Nanorods

Author

Rinat Ankri, Dorit Leshem-Lev, Hamootal Duadi, Emanuel Harari, Menachem Motiei, Edith Hochhauser, Eli I. Lev, and Dror Fixler

Subjects
noninvasive imaging, diffusion reflection, atherosclerosis, unstable plaques, gold nanorods, high-density lipoprotein, Medicine (General), R5-920
Abstract

Cardiovascular disease (CVD) is a major cause of death and disability worldwide. A real need exists in the development of new, improved therapeutic methods for treating CVD, while major advances in nanotechnology have opened new avenues in this field. In this paper, we report the use of gold nanoparticles (GNPs) coated with high-density lipoprotein (HDL) (GNP-HDL) for the simultaneous detection and therapy of unstable plaques. Based on the well-known HDL cardiovascular protection, by promoting the reverse cholesterol transport (RCT), injured rat carotids, as a model for unstable plaques, were injected with the GNP-HDL. Noninvasive detection of the plaques 24 h post the GNP injection was enabled using the diffusion reflection (DR) method, indicating that the GNP-HDL particles had accumulated in the injured site. Pathology and noninvasive CT measurements proved the recovery of the injured artery treated with the GNP-HDL. The DR of the GNP-HDL presented a simple and highly sensitive method at a low cost, resulting in simultaneous specific unstable plaque diagnosis and recovery.

Published
2022
Full Text
View/download PDF

11. Effect of vitamin D on endothelial progenitor cells function.

Author

Yoav Hammer, Alissa Soudry, Amos Levi, Yeela Talmor-Barkan, Dorit Leshem-Lev, Joel Singer, Ran Kornowski, and Eli I Lev

Subjects
Medicine, Science
Abstract

Endothelial progenitor cells (EPCs) are a population of bone marrow-derived cells, which have an important role in the process of endothelialization and vascular repair following injury. Impairment of EPCs, which occurs in patients with diabetes, was shown to be related to endothelial dysfunction, coronary artery disease (CAD) and adverse clinical outcomes. Recent evidence has shown that calcitriol, the active hormone of vitamin D, has a favorable impact on the endothelium and cardiovascular system. There is limited data on the effect of vitamin D on EPCs function.To examine the in vitro effects of Calcitriol on EPCs from healthy subjects and patients with diabetes.Fifty-one patients with type 2 diabetes (60±11 years, 40% women, HbA1C: 9.1±0.8%) and 23 healthy volunteers were recruited. EPCs were isolated and cultured with and without calcitriol. The capacity of the cells to form colony-forming units (CFUs), their viability (measured by MTT assay), KLF-10 levels and angiogenic markers were evaluated after 1 week of culture.In diabetic patients, EPC CFUs and cell viability were higher in EPCs exposed to calcitriol vs. EPCs not exposed to calcitriol [EPC CFUs: 1.25 (IQR 1.0-2.0) vs. 0.5 (IQR 0.5-1.9), p < 0.001; MTT:0.62 (IQR 0.44-0.93) vs. 0.52 (IQR 0.31-0.62), p = 0.001]. KLF-10 levels tended to be higher in EPCs exposed to vitamin D, with no differences in angiopoietic markers. In healthy subjects, calcitriol supplementation also resulted in higher cell viability [MTT: 0.23 (IQR 0.11-0.46) vs. 0.19 (0.09-0.39), p = 0.04], but without differences in CFU count or angiopoietic markers.In patients with diabetes mellitus, in vitro vitamin D supplementation improved EPCs capacity to form colonies and viability. Further studies regarding the mechanisms by which vitamin D exerts its effect are required.

Published
2017
Full Text
View/download PDF

12. Pathways mediating the interaction between endothelial progenitor cells (EPCs) and platelets.

Author

Oshrat Raz, Dorit L Lev, Alexander Battler, and Eli I Lev

Subjects
Medicine, Science
Abstract

INTRODUCTION: Endothelial progenitor cells (EPCs) have an important role in the process of vascular injury repair. Platelets have been shown to mediate EPC recruitment, maturation and differentiation. Yet, the mechanism underlying this interaction is unclear. We, therefore, aimed to examine whether direct contact between platelets and EPCs is essential for the positive platelets-EPC effect, and to investigate the main mediators responsible for the improvement in EPCs function. METHODS: Human EPCs were isolated from donated buffy coats and cultured in either: 1. EPCs co-incubated with platelets placed in a 1 µm-Boyden chamber. 2. EPCs incubated with or without platelets in the presence or absence of bFGF/PDGF Receptor inhibitor (PDGFRI). After 7 days culture, EPCs ability to form colonies, proliferate and differentiate was examined. Culture supernatants were collected and growth factors levels were evaluated using ELISA. Growth factors mRNA levels in EPCs were evaluated using RT-PCR. RESULTS AND CONCLUSIONS: After 7 days culture, EPCs functional properties were higher following co-incubation with platelets (directly or indirectly), implying that direct contact is not essential for the platelet's positive effect on EPCs. This effect was reduced by PDGFRI inhibition. Additionally, higher levels of PDGFB in EPCs-platelets supernatant and higher levels of PDGFC mRNA in EPCs co-incubated with platelets were found. In contrast, FGF and other potential mediators that were examined and inhibited did not significantly affect the interaction between platelets and EPCs. Thus, we conclude that PDGF has a central role in the interaction between platelets and EPCs. Further study is required to examine additional aspects of EPC-platelets interaction.

Published
2014
Full Text
View/download PDF

35. A novel robotic radiation shielding device for electrophysiologic procedures: A prospective study.

Author

Laish-Farkash, Avishag, Harari, Emanuel, Rahkovich, Michael, Kogan, Yonatan, Marincheva, Gergana, Scheinman, Guy, Ben-Assa, Eyal, and Lev, Eli I.

Abstract

A robotic Radiaction Shielding System (RSS) was developed to provide a full-body protection to all medical personnel during fluoroscopy-guided procedures, by encapsulating the imaging beam and blocking scattered radiation. We aimed to evaluate its efficacy in real-world electrophysiologic (EP) laboratory- both during ablations and cardiovascular implantable electronic devices (CIED) procedures. A prospective controlled study comparing consecutive real-life EP procedures with and without RSS using highly sensitive sensors in different locations. Thirty-five ablations and 19 CIED procedures were done without RSS installed and 31 ablations and 24 CIED procedures (17 with usage levels ≥70%) were done with RSS. Overall, there was 95% average usage level for ablations and 88% for CIEDs. For all procedures with ≥70% usage level and for all sensors, the radiation with RSS was significantly lower than radiation without RSS. For ablations, there was 87% reduction in radiation with RSS (76%-97% for different sensors). For CIEDs, there was 83% reduction in radiation with RSS (59%-92%). RSS usage did not increase procedure time and radiation time. User feedback showed a high-level of integration in the clinical workflow and safety profile for all types of EP procedures. For both CIED and ablation procedures the radiation with RSS was significantly lower than without RSS. Higher usage level brings higher reduction rates. Thus, RSS may have an important role in full-body protection to all medical personnel from scattered radiation during EP and CIED procedures. Until more data is available, it is recommended to maintain existing standard shielding. [Display omitted] [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

45. Using community engagement with FRAME: Framework for reporting adaptations and modifications to evidence-based interventions

Author

Jordana L. Clayton, Rebecca L. Utz, Nancy Aruscavage, Sara G. Bybee, Sharon E. Bigger, Eli Iacob, and Kara B. Dassel

Subjects
Interventions, Adaptations, Community-engaged research, Community advisory board (CAB), Medicine (General), R5-920
Abstract

Community engagement is increasingly considered a key component of intervention development, as it can leverage community members’ knowledge, experiences, and insights to create a nuanced intervention which meets the needs, preferences, and realities of the population of interest. Community engagement exists along a spectrum from outreach to the community to partnership with community members and organizations, and all levels of community engagement can benefit from systematic documentation of community feedback and decision-making processes. This paper demonstrates how we utilized the “Framework for Reporting Adaptations and Modifications to Evidence-based Interventions” (FRAME; Wiltsey Stirman et al., 2019) model to track and report adaptations to our dementia end-of-life care planning intervention based on community engagement via a project-specific Community Advisory Board (CAB). Using FRAME, we generated a comprehensive report of the iterative changes made to our pilot intervention, including whether the change was planned, who made the decision to modify the intervention, the nature of the change, its relationship to intervention fidelity, and the reason for the change. This process ensured that we effectively integrated feedback and assistance from our CAB, increased the appropriateness of our intervention for our population of interest, established criteria to monitor intervention fidelity, and prepared our team to run a rigorous clinical trial of the revised intervention. Clinical Trial Registration Number: NCT05909189.

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results