L Terán scite author profile

Objective: Porcine islets of Langerhans for xenotransplantation into humans have been proposed as a solution to the shortage of human donors. Rejection is one of the main constraints. This study presents the results of a clinical trial using a novel method for transplanting and immunoprotecting porcine islets in type 1 diabetic patients. Design: A 4-year follow up of a clinical trial involving 12 patients, with no immunosuppressive drugs at any point. Eleven age matched untransplanted diabetics served as controls. Methods: We have developed a procedure for protecting neonatal porcine islets by combining them with Sertoli cells and placing them in a novel subcutaneous autologous collagen-covered device. Results: In the patients in the treatment group, no complications arose and no porcine endogenous retrovirus infection was detected. Half of the patients showed a significant reduction in insulin requirements compared with both their pre transplant levels and controls, and this reduction was maintained for up to 4 years. Two patients became insulin-independent for several months. Porcine insulin was detected in three patients' sera following glucose stimulation up to 4 years post transplant. Three years post transplant, one of four devices was removed from four patients, and the presence of insulin-positive cells in the transplant was demonstrated by immunohistology in all 4 patients. Conclusions: Long-term cell survival with concurrent positive effects on metabolic control are possible by this technique.

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Three‐yr follow‐up of a type 1 diabetes mellitus patient with an islet xenotransplant

Valdés-González

White

Dorantes

et al. 2007

Clinical Transplantation

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In order to alleviate the shortage of human donors, the use of porcine islets of Langerhans for xenotransplantation in diabetic patients has been proposed as a solution. To overcome rejection, we have developed a procedure for protecting the islets by combining them with Sertoli cells and placing them in a novel subcutaneous device, that generates an autologous collagen covering. A type 1 diabetic woman was closely monitored for 10 months, and then transplanted in two devices with two months of difference and a third time after 22 months. Here we present a three-yr follow-up. The close monitoring induced a rapid decrease in exogenous insulin requirements, which stabilized between 19 and 28 IU/d for nine months. After transplantation, the requirements reduced further to below 6 IU/d and for some weeks she was insulin free. Glycosylated hemoglobin levels decreased concomitantly. Porcine insulin could be detected in the serum after a glucose challenge and insulin positive cells inside a removed device after two yr. No complications have arisen and no porcine endogenous retrovirus infection has been detected through PCR and RT-PCR. This case demonstrates the feasibility of using the xenotransplantation of porcine cells to alleviate metabolic complications and insulin requirements in type 1 diabetic patients.

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Increase of HLA-DR7 in pigeon breeder's lung in a Mexican population

Selman¹,

Terán²,

Mendoza³

et al. 1987

Clinical Immunology and Immunopathology

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Use of Thermal Network on Determining the Temperature Distribution Inside Electric Motors in Steady-State and Dynamic Conditions

Yabiku¹,

Fialho²,

Terán³

et al. 2010

IEEE Trans. on Ind. Applicat.

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Improved method for isolation of porcine neonatal pancreatic cell clusters

Valdés-González

Silva-Torres

Ramírez-González

et al. 2005

Xenotransplantation

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L Terán

Xenotransplantation of porcine neonatal islets of Langerhans and Sertoli cells: a 4-year study

Three‐yr follow‐up of a type 1 diabetes mellitus patient with an islet xenotransplant

Increase of HLA-DR7 in pigeon breeder's lung in a Mexican population

Use of Thermal Network on Determining the Temperature Distribution Inside Electric Motors in Steady-State and Dynamic Conditions

Improved method for isolation of porcine neonatal pancreatic cell clusters

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