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Full-Text Articles in Medicine and Health Sciences
Molecular Weight Characterization Of Pre- And Postimplant Artificial Heart Polyurethane Materials., Stephen Hunter, D Gregonis, D Colman, J Andrade, T Kessler
Molecular Weight Characterization Of Pre- And Postimplant Artificial Heart Polyurethane Materials., Stephen Hunter, D Gregonis, D Colman, J Andrade, T Kessler
Stephen K. Hunter
No abstract provided.
Promotion Of Neovascularization Around Hollow Fiber Bioartificial Organs Using Biologically Active Substances, Stephen Hunter, J. Kao, Y. Wang, J. Benda, V. Rodgers
Promotion Of Neovascularization Around Hollow Fiber Bioartificial Organs Using Biologically Active Substances, Stephen Hunter, J. Kao, Y. Wang, J. Benda, V. Rodgers
Stephen K. Hunter
A limiting factor of the long-term function of bioartificial organs is oxygen delivery to the encapsulated tissue. This study determined whether incorporation of endothelial cell growth factor (ECGF) into the alginate core of a hollow fiber bioartificial organ will induce neovascularization around the hollow fiber. Polyethersulfone (PES) and polyvinylidine difluoride (PVDF) hollow fibers were examined. Endothelial cell growth factor was incorporated into sodium alginate, extruded into the lumen of hollow fibers, and cured in calcium chloride. Samples without ECGF were fabricated and used as controls. Hollow fibers were implanted into 16 rats. For each rat, two implants were placed subcutaneously …
Encapsulated Beta-Islet Cells As A Bioartificial Pancreas To Treat Insulin-Dependent Diabetes During Pregnancy, Stephen Hunter, Y. Wang, C. Weiner, Jennifer Niebyl
Encapsulated Beta-Islet Cells As A Bioartificial Pancreas To Treat Insulin-Dependent Diabetes During Pregnancy, Stephen Hunter, Y. Wang, C. Weiner, Jennifer Niebyl
Stephen K. Hunter
OBJECTIVE: Our purpose was to determine the effectiveness of the bioartificial pancreas technique in correcting (1) maternal carbohydrate metabolism and (2) fetal malformation rates in a pregnant diabetic animal model. STUDY DESIGN: Insulin secretion from encapsulated rat islets cultured in the presence of homologous rat prolactin was determined and compared with that of controls. Streptozotocin-induced diabetic Balb/c mice were then transplanted with rat islet cells encapsulated within alginate microbeads and were then bred. Blood glucose determinations were made after transplantation and throughout gestation. Pups were delivered by cesarean section on day 19 of gestation. Outcome parameters from the transplanted study …
Bioartificial Pancreas Use In Diabetic Pregnancy, Stephen Hunter, Y. Wang, V. Rodgers
Bioartificial Pancreas Use In Diabetic Pregnancy, Stephen Hunter, Y. Wang, V. Rodgers
Stephen K. Hunter
The purpose of this study was to evaluate the feasibility and effectiveness of Bioartificial Pancreas (BAP) technology use during diabetic pregnancy. In particular, the study asked 1) can microencapsulated islet cells effectively correct carbohydrate metabolism during diabetic pregnancy and 2) will such therapy, if initiated before conception, eliminate diabetes-induced congenital malformations in the fetus? Streptozotocin-induced diabetic female mice (ICR) received transplants of rat islets encapsulated within alginate microbeads. Animals were placed with male mice and bred. Random, nonfasting blood glucose (BG) determinations were made posttransplantation and throughout pregnancy. Pups were delivered by cesarean section on day 19 of gestation. Outcome …
Mathematical Modeling Of Myoglobin Facilitated Transport Of Oxygen In Devices Containing Myoglobin-Expressing Cells, H. Tilakaratne, Stephen Hunter, V. Rodgers
Mathematical Modeling Of Myoglobin Facilitated Transport Of Oxygen In Devices Containing Myoglobin-Expressing Cells, H. Tilakaratne, Stephen Hunter, V. Rodgers
Stephen K. Hunter
Low pO(2) is perhaps the most significant factor in artificial pancreas failure. In these environments, not only is the beta cell production of insulin reduced, but the cell death rate is also significantly higher. Mathematical models are developed to test the feasibility of facilitated oxygen transport in enhancing O(2) flux to genetically engineered cells in a bioartificial device such as a pancreas. For this device, it is proposed that beta cells be genetically engineered to express myoglobin throughout the cell. In addition, the significance of including myoglobin throughout the alginate matrix present to provide immuno-protection for the transplanted cells is …