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28 results on '"Martin Yarmush"'

1. Metabolic and lipidomic profiling of steatotic human livers during ex situ normothermic machine perfusion guides resuscitation strategies.

Author

Siavash Raigani, Negin Karimian, Viola Huang, Anna M Zhang, Irene Beijert, Sharon Geerts, Sonal Nagpal, Ehab O A Hafiz, Fermin M Fontan, Mohamed M Aburawi, Paria Mahboub, James F Markmann, Robert J Porte, Korkut Uygun, Martin Yarmush, and Heidi Yeh

Subjects
Medicine, Science
Abstract

There continues to be a significant shortage of donor livers for transplantation. One impediment is the discard rate of fatty, or steatotic, livers because of their poor post-transplant function. Steatotic livers are prone to significant ischemia-reperfusion injury (IRI) and data regarding how best to improve the quality of steatotic livers is lacking. Herein, we use normothermic (37°C) machine perfusion in combination with metabolic and lipidomic profiling to elucidate deficiencies in metabolic pathways in steatotic livers, and to inform strategies for improving their function. During perfusion, energy cofactors increased in steatotic livers to a similar extent as non-steatotic livers, but there were significant deficits in anti-oxidant capacity, efficient energy utilization, and lipid metabolism. Steatotic livers appeared to oxidize fatty acids at a higher rate but favored ketone body production rather than energy regeneration via the tricyclic acid cycle. As a result, lactate clearance was slower and transaminase levels were higher in steatotic livers. Lipidomic profiling revealed ω-3 polyunsaturated fatty acids increased in non-steatotic livers to a greater extent than in steatotic livers. The novel use of metabolic and lipidomic profiling during ex situ normothermic machine perfusion has the potential to guide the resuscitation and rehabilitation of steatotic livers for transplantation.

Published
2020
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2. Improvement of steatotic rat liver function with a defatting cocktail during ex situ normothermic machine perfusion is not directly related to liver fat content.

Author

Siavash Raigani, Cailah Carroll, Stephanie Griffith, Casie Pendexter, Ivy Rosales, Hany Deirawan, Rafic Beydoun, Martin Yarmush, Korkut Uygun, and Heidi Yeh

Subjects
Medicine, Science
Abstract

There is a significant organ shortage in the field of liver transplantation, partly due to a high discard rate of steatotic livers from donors. These organs are known to function poorly if transplanted but make up a significant portion of the available pool of donated livers. This study demonstrates the ability to improve the function of steatotic rat livers using a combination of ex situ machine perfusion and a "defatting" drug cocktail. After 6 hours of perfusion, defatted livers demonstrated lower perfusate lactate levels and improved bile quality as demonstrated by higher bile bicarbonate and lower bile lactate. Furthermore, defatting was associated with decreased gene expression of pro-inflammatory cytokines and increased expression of enzymes involved in mitochondrial fatty acid oxidation. Rehabilitation of marginal or discarded steatotic livers using machine perfusion and tailored drug therapy can significantly increase the supply of donor livers for transplantation.

Published
2020
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3. Prediction of Scar Size in Rats Six Months after Burns Based on Early Post-injury Polarization-Sensitive Optical Frequency Domain Imaging

Author

Eli Kravez, Martin Villiger, Brett Bouma, Martin Yarmush, Zohar Yakhini, and Alexander Golberg

Subjects
scars size prediction, burn injury, wound healing diagnosis, optical coherence tomography, skin imaging, Physiology, QP1-981
Abstract

Hypertrophic scars remain a major clinical problem in the rehabilitation of burn survivors and lead to physical, aesthetic, functional, psychological, and social stresses. Prediction of healing outcome and scar formation is critical for deciding on the best treatment plan. Both subjective and objective scales have been devised to assess scar severity. Whereas scales of the first type preclude cross-comparison between observers, those of the second type are based on imaging modalities that either lack the ability to image individual layers of the scar or only provide very limited fields of view. To overcome these deficiencies, this work aimed at developing a predictive model of scar formation based on polarization sensitive optical frequency domain imaging (PS-OFDI), which offers comprehensive subsurface imaging. We report on a linear regression model that predicts the size of a scar 6 months after third-degree burn injuries in rats based on early post-injury PS-OFDI and measurements of scar area. When predicting the scar area at month 6 based on the homogeneity and the degree of polarization (DOP), which are signatures derived from the PS-OFDI signal, together with the scar area measured at months 2 and 3, we achieved predictions with a Pearson coefficient of 0.57 (p < 10−4) and a Spearman coefficient of 0.66 (p < 10−5), which were significant in comparison to prediction models trained on randomly shuffled data. As the model in this study was developed on the rat burn model, the methodology can be used in larger studies that are more relevant to humans; however, the actual model inferred herein is not translatable. Nevertheless, our analysis and modeling methodology can be extended to perform larger wound healing studies in different contexts. This study opens new possibilities for quantitative and objective assessment of scar severity that could help to determine the optimal course of therapy.

Published
2017
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4. Subnormothermic Machine Perfusion of Steatotic Livers Results in Increased Energy Charge at the Cost of Anti-Oxidant Capacity Compared to Normothermic Perfusion

Author

Negin Karimian, Siavash Raigani, Viola Huang, Sonal Nagpal, Ehab O. A. Hafiz, Irene Beijert, Paria Mahboub, Robert J. Porte, Korkut Uygun, Martin Yarmush, and Heidi Yeh

Subjects
steatosis, subnormothermic, normothermic, machine perfusion, anti-oxidant, metabolomics, liver transplantation, Microbiology, QR1-502
Abstract

There continues to be significant debate regarding the most effective mode of ex situ machine perfusion of livers for transplantation. Subnormothermic (SNMP) and normothermic machine perfusion (NMP) are two methods with different benefits. We examined the metabolomic profiles of discarded steatotic human livers during three hours of subnormothermic or normothermic machine perfusion. Steatotic livers regenerate higher stores of ATP during SNMP than NMP. However, there is a significant depletion of available glutathione during SNMP, likely due to an inability to overcome the high energy threshold needed to synthesize glutathione. This highlights the increased oxidative stress apparent in steatotic livers. Rescue of discarded steatotic livers with machine perfusion may require the optimization of redox status through repletion or supplementation of reducing agents.

Published
2019
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6. Design and Evaluation of a Handheld Robotic Device for Peripheral Catheterization

Author

Josh Leipheimer, Max Balter, Alvin Chen, and Martin Yarmush

Subjects
ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Biomedical Engineering, Medicine (miscellaneous), Research Papers
Abstract

Medical robots provide enhanced dexterity, vision, and safety for a broad range of procedures. In this article, we present a handheld, robotic device capable of performing peripheral catheter insertions with high accuracy and repeatability. The device utilizes a combination of ultrasound imaging, miniaturized robotics, and machine learning to safely and efficiently introduce a catheter sheath into a peripheral blood vessel. Here, we present the mechanical design and experimental validation of the device, known as VeniBot. Additionally, we present results on our ultrasound deep learning algorithm for vessel segmentation, and performance on tissue-mimicking phantom models that simulate difficult peripheral catheter placement. Overall, the device achieved first-attempt success rates of 97 ± 4% for vessel punctures and 89 ± 7% for sheath cannulations on the tissue mimicking models (n = 240). The results from these studies demonstrate the viability of a handheld device for performing semi-automated peripheral catheterization. In the future, the use of this device has the potential to improve clinical workflow and reduce patient discomfort by assuring a safe and efficient procedure.

Published
2022

10. Biochemical engineering

Author

Martin Yarmush and Henrik Pedersen

Subjects
Biomedical Engineering, Bioengineering, Biotechnology
Published
1995

12. Protein Engineering

Author

Martin Yarmush, Mehmet Toner, Alan Russell, and Chenzhao Vierheller

Published
2003

13. Cyclic dinucleotides mediate gap junction-dependent spread of DNA-induced IRF3 activation. (IRM9P.729)

Author

Kevin King, Suraj Patel, Martin Yarmush, and Ralph Weissleder

Subjects
Immunology, Immunology and Allergy
Abstract

Cell death and sterile inflammation are central to the pathogenesis of human diseases such as myocardial infarction and acute liver failure. Since patients often present after injury has begun, a primary therapeutic goal is to limit the extent and duration of injury. Therefore, we investigated the molecular mechanisms by which innate immune responses to dying cells are spread. When a cell dies, it releases danger signals such as DNA, which are sensed by neighboring cells and spread by undefined mechanisms, ultimately defining the extent and duration of injury. To study this process, we created stable monoclonal fluorescent reporter cell lines for key transcriptional regulators of danger signaling (IRF3 and NFkB), exposed them to various danger signals, and monitored their spatiotemporal activation by quantitative fluorescence microscopy. We found IRF3 to be strongly activated not only in cells sensing DNA, but also in their unexposed neighbors. Using pharmacologic inhibitors and genetically modified co-cultures, we found that spread of IRF3 activity is contact-dependent and requires gap junctions. We also provide evidence that the recently described cyclic dinucleotide cGAMP is a gap junction permeable mediator of IRF3 activation spread. In vivo experiments show that genetic or pharmacologic modulation of gap junction communication is protective against acute organ injury, demonstrating the importance of injury spread, and its promise as a therapeutic target.

Published
2014

14. Discovery of novel anti-inflammatory proteins inspired by bone marrow mesenchymal stem cell secretions

Author

Martin Yarmush., Harvard University--MIT Division of Health Sciences and Technology., Milwid, Jack Miles, Martin Yarmush., Harvard University--MIT Division of Health Sciences and Technology., and Milwid, Jack Miles

Abstract

Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2011., Cataloged from PDF version of thesis., Includes bibliographical references (p. 114-133)., Bone marrow mesenchymal stem cells (MSCs) may soon become the first FDA-approved stem cell therapy for autoimmune and inflammatory disease. Our lab originally hypothesized that much of the therapeutic activity of MSCs may be attributed to molecules secreted by these cells. This thesis will test this hypothesis, with an emphasis on translational steps towards clinical product development, including the identification of novel proteins secreted by MSCs. The first part of the thesis consists of studies we performed to test whether MSC conditioned medium (MSC-CM) can treat rats undergoing cisplatin-induced acute kidney injury (AKI). When AKI rats were treated with MSC-CM, we observed a survival benefit and significant protection of renal function compared to controls. The second part of the thesis will describe the development of a device designed for sustained delivery of MSC secreted factors to dialysis-dependent AKI subjects. We tested these devices for cell function, stability and viability when subjected to conditions that model future clinical operation. Finally, inspired by the therapeutic capacity of MSC secreted factors, this thesis will conclude with the introduction of a new method that we developed to uncover novel anti-inflammatory proteins from MSCs. This method revealed four previously unidentified cytokine modulators, two of which we found significantly promote IL-1 0 and suppress TNF-a in mice challenged with endotoxin. When leveraged as novel therapeutics for lethal endotoxemic shock, these two most potent modulators protected mice and provided for a significant survival benefit compared to vehicle controls. Together, these results demonstrate the power of MSC secreted factors in the context of inflammatory disease, and propose new tactics for elucidating potent secreted products from cells., by Jack Miles Milwid., Ph.D.

Published
2012

15. Tissue Engineering

Author

François Berthiaume and Martin Yarmush

Subjects
0303 health sciences, 03 medical and health sciences, 030302 biochemistry & molecular biology, 030304 developmental biology
Published
1999

16. Erratum

Author

Sundararajan Madihally, Livingston Van De Water, and Martin Yarmush

Subjects
Surgery
Published
2005

17. Functional Modulation of ES-Derived Hepatocyte Lineage Cells via Substrate Compliance Alteration.

Author

Lulu Li, Nripen Sharma, Uday Chippada, Xue Jiang, Rene Schloss, and Martin Yarmush

Abstract

Abstract  Pluripotent embryonic stem cells represent a promising renewable cell source to generate a variety of differentiated cell types including hepatocyte lineage cells, and may ultimately be incorporated into extracorporeal bioartificial liver devices and cell replacement therapies. Recently, we and others have utilized sodium butyrate to directly differentiate hepatocyte-like cells from murine embryonic stem cells cultured in a monolayer configuration. However, to incorporate stem cell technology into clinical and pharmaceutical applications, and hopefully increase the therapeutic potential of these differentiated cells for liver disease treatment, a major challenge remains in sustaining differentiated functions for an extended period of time in their secondary culture environment. In the present work, we have investigated the use of polyacrylamide hydrogels with defined mechanical compliances as a cell culture platform for improving and/or stabilizing functions of these hepatocyte-like cells. Several functional assays, e.g., urea secretion, intracellular albumin content, and albumin secretion, were performed to characterize hepatic functions of cells on polyacrylamide gels with stiffnesses of 5, 46.6, and 230 kPa. In conjunction with the mechanical and cell morphological characterization, we showed that hepatic functions of sodium butyrate differentiated cells were sustained and further enhanced on compliant substrates. This study promises to offer insights into regulating stem cell differentiation via mechanical stimuli, and assist us with designing a variety of dynamic culture systems for applications in tissue and cellular engineering. [ABSTRACT FROM AUTHOR]

Published
2008
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