The Antidiabetic Effect of MSCs Is Not Impaired by Insulin Prophylaxis and Is Not Improved by a Second Dose of Cells

Type 1 diabetes mellitus (T1D) is due to autoimmune destruction of pancreatic beta-cells. Previously, we have shown that intravenously administered bone marrow-derived multipotent mesenchymal stromal cells (MSCs) allows pancreatic islet recovery, improves insulin secretion and reverts hyperglycemia in low doses streptozotocin (STZ)-induced diabetic mice. Here we evaluate whether insulin prophylaxis and the administration of a second dose of cells affect the antidiabetic therapeutic effect of MSC transplantation. Insulitis and subsequent elimination of pancreatic beta-cells was promoted in C57BL/6 mice by the injection of 40 mg/kg/day STZ for five days. Twenty-four days later, diabetic mice were distributed into experimental groups according to if they received or not insulin and/or one or two doses of healthy donor-derived MSCs. Three and half months later: glycemia, pancreatic islets number, insulinemia, glycated hemoglobin level and glucose tolerance were determined in animals that did not received exogenous insulin for the last 1.5 months. Also, we characterized MSCs isolated from mice healthy or diabetic. The therapeutic effect of MSC transplantation was observed in diabetic mice that received or not insulin prophylaxis. Improvements were similar irrespective if they received one or two doses of cells. Compared to MSCs from healthy mice, MSCs from diabetic mice had the same proliferation and adipogenic potentials, but were less abundant, with altered immunophenotype and no osteogenic potential

Experimental and numerical analysis of heat losses in a liquid nitrogen cryostat

The number of cryogenic storage systems applications is growing rapidly with these systems finding their use in land, sea and space environments. In addition, the evolution of low temperature techniques is commonly linked with efficient utilization of cryogenic liquids that includes all liquids boiling at temperatures below ambient. This evolution suggests the need for continuous development of primary methods to reduce heat leaks of cryogenic storage vessels. Few studies have considered in detail this problem. In this paper, experimental results concerning heat transfer between the vapor and the cryostat necks obtained for liquid nitrogen cryostat are presented and compared with numerical and theoretical results, as well as velocity and temperatures profiles of the gas inside the cryostat