1. Bioengineering the Endocrine Pancreas: Intraomental Islet Transplantation Within a Biologic Resorbable Scaffold
- Author
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Norma S. Kenyon, Jennifer Gimeno, Antonello Pileggi, David M. Andrews, Ulisse Ulissi, Carmen Fotino, Dora M. Berman, Armando J. Mendez, Camillo Ricordi, R. Damaris Molano, and Norman M. Kenyon
- Subjects
Male ,0301 basic medicine ,Scaffold ,Transplantation, Heterotopic ,Endocrinology, Diabetes and Metabolism ,medicine.medical_treatment ,Islets of Langerhans Transplantation ,Rats, Inbred WF ,Biocompatible Materials ,030230 surgery ,Pharmacology ,Plasma ,0302 clinical medicine ,Tissue engineering ,geography.geographical_feature_category ,Tissue Scaffolds ,Thrombin ,Immunosuppression ,Islet ,Recombinant Proteins ,3. Good health ,medicine.anatomical_structure ,Female ,Pancreas ,Omentum ,Pancreas, Artificial ,endocrine system ,medicine.medical_specialty ,Surface Properties ,Transplantation, Heterologous ,Biology ,Diabetes Mellitus, Experimental ,Islets of Langerhans ,03 medical and health sciences ,Internal medicine ,Internal Medicine ,medicine ,Animals ,Endocrine system ,Immunosuppression Therapy ,geography ,Tissue Engineering ,Pancreatic islets ,Transplantation ,Macaca fascicularis ,Transplantation, Isogeneic ,030104 developmental biology ,Endocrinology ,Rats, Inbred Lew ,Hyperglycemia ,Microscopy, Electron, Scanning ,Feasibility Studies ,Immunology and Transplantation ,Biomarkers - Abstract
Transplantation of pancreatic islets is a therapeutic option to preserve or restore β-cell function. Our study was aimed at developing a clinically applicable protocol for extrahepatic transplantation of pancreatic islets. The potency of islets implanted onto the omentum, using an in situ–generated adherent, resorbable plasma-thrombin biologic scaffold, was evaluated in diabetic rat and nonhuman primate (NHP) models. Intraomental islet engraftment in the biologic scaffold was confirmed by achievement of improved metabolic function and preservation of islet cytoarchitecture, with reconstitution of rich intrainsular vascular networks in both species. Long-term nonfasting normoglycemia and adequate glucose clearance (tolerance tests) were achieved in both intrahepatic and intraomental sites in rats. Intraomental graft recipients displayed lower levels of serum biomarkers of islet distress (e.g., acute serum insulin) and inflammation (e.g., leptin and α2-macroglobulin). Importantly, low-purity (30:70% endocrine:exocrine) syngeneic rat islet preparations displayed function equivalent to that of pure (>95% endocrine) preparations after intraomental biologic scaffold implantation. Moreover, the biologic scaffold sustained allogeneic islet engraftment in immunosuppressed recipients. Collectively, our feasibility/efficacy data, along with the simplicity of the procedure and the safety of the biologic scaffold components, represented sufficient preclinical testing to proceed to a pilot phase I/II clinical trial.
- Published
- 2016