Your search keyword '"Francois Pattou"' showing total 4 results

1. Automated Digital Image Analysis of Islet Cell Mass Using Nikon's Inverted Eclipse Ti Microscope and Software to Improve Engraftment may Help to Advance the Therapeutic Efficacy and Accessibility of Islet Transplantation across Centers

Author

Valery Gmyr, Caroline Bonner, Bruno Lukowiak, Valerie Pawlowski, Nathalie Dellaleau, Sandrine Belaich, Isanga Aluka, Ericka Moermann, Julien Thevenet, Rimed Ezzouaoui, Gurvan Queniat, Francois Pattou, and Julie Kerr-Conte Ph.D.

Subjects

Medicine

Abstract

Reliable assessment of islet viability, mass, and purity must be met prior to transplanting an islet preparation into patients with type 1 diabetes. The standard method for quantifying human islet preparations is by direct microscopic analysis of dithizone-stained islet samples, but this technique may be susceptible to inter-/intraobserver variability, which may induce false positive/negative islet counts. Here we describe a simple, reliable, automated digital image analysis (ADIA) technique for accurately quantifying islets into total islet number, islet equivalent number (IEQ), and islet purity before islet transplantation. Islets were isolated and purified from n = 42 human pancreata according to the automated method of Ricordi et al. For each preparation, three islet samples were stained with dithizone and expressed as IEQ number. Islets were analyzed manually by microscopy or automatically quantified using Nikon's inverted Eclipse Ti microscope with built-in NIS-Elements Advanced Research (AR) software. The AIDA method significantly enhanced the number of islet preparations eligible for engraftment compared to the standard manual method ( p < 0.001). Comparisons of individual methods showed good correlations between mean values of IEQ number ( r 2 = 0.91) and total islet number ( r 2 = 0.88) and thus increased to r 2 = 0.93 when islet surface area was estimated comparatively with IEQ number. The ADIA method showed very high intraobserver reproducibility compared to the standard manual method ( p < 0.001). However, islet purity was routinely estimated as significantly higher with the manual method versus the ADIA method ( p < 0.001). The ADIA method also detected small islets between 10 and 50 μm in size. Automated digital image analysis utilizing the Nikon Instruments software is an unbiased, simple, and reliable teaching tool to comprehensively assess the individual size of each islet cell preparation prior to transplantation. Implementation of this technology to improve engraftment may help to advance the therapeutic efficacy and accessibility of islet transplantation across centers.

Published

2015

2. Automated Digital Image Analysis of islet cell mass using Nikon's inverted Eclipse Ti microscope and software to improve engraftment may help to advance the therapeutic efficacy and accessibility of islet transplantation across centers

Author

Valery Gmyr, Caroline Bonner, Bruno Lukowiak, Valerie Pawlowski, Nathalie Dellaleau, Sandrine Belaich, Isanga Aluka, Ericka Moermann, Julien Thevenet, Rimed Ezzouaoui, Gurvan Queniat, Francois Pattou, and Julie Kerr conte

Subjects

Transplantation, Biomedical Engineering, Cell Biology

Published

2013

3. Human Recombinant Antithrombin (ATryn®) Administration Improves Survival and Prevents Intravascular Coagulation after Intraportal Islet Transplantation in a Piglet Model

Author

Valery Gmyr, Caroline Bonner, Ericka Moerman, Antoine Tournoys, Nathalie Delalleau, Audrey Quenon, Julien Thevenet, Mikael Chetboun, Julie Kerr-Conte, François Pattou, Thomas Hubert, and Merce Jourdain M.D., Ph.D.

Subjects

Medicine

Abstract

Human islet transplantation is a viable treatment option for type 1 diabetes mellitus (T1DM). However, pancreatic islet inflammation after transplantation induced by innate immune responses is likely to hinder graft function. This is mediated by incompatibility between islets and the blood interface, known as instant blood-mediated inflammatory reaction (IBMIR). Herein we hypothesized that portal venous administration of islet cells with human recombinant antithrombin (ATryn ® ), a serine protease inhibitor (serpin), which plays a central role in the physiological regulation of coagulation and exerts indirect anti-inflammatory activities, may offset coagulation abnormalities such as disseminated intravascular coagulation (DIC) and IBMIR. The current prospective, randomized experiment was conducted using an established preclinical pig model. Three groups were constituted for digested pancreatic tissue transplantation (0.15 ml/kg): control, NaCl 0.9% ( n = 7); gold standard, heparin (25 UI/kg) ( n = 7); and human recombinant ATryn® (500 UI/kg) ( n = 7). Blood samples were collected over time (T0 to 24 h), and biochemical, coagulation, and inflammatory parameters were evaluated. In both the control and heparin groups, one animal died after a portal thrombosis, while no deaths occurred in the ATryn®-treated group. As expected, islet transplantation was associated with an increase in plasma IL-6 or TNF-α levels in all three groups. However, DIC was only observed in the control group, an effect that was suppressed after ATryn® administration. ATryn® administration increased antithrombin activity by 800%, which remained at 200% for the remaining period of the study, without any hemorrhagic complications. These studies suggest that coadministration of ATryn® and pancreatic islets via intraportal transplantation may be a valuable therapeutic approach for DIC without risk for islets and subjects.

Published

2017

4. Modulation of Specific Beta Cell Gene (Re)Expression during In Vitro Expansion of Human Pancreatic Islet Cells

Author

Thomas Bouckenooghe, Brigitte Vandewalle, Bruno Lukowiak, Julie Kerr-Conte, Sandrine Beläich, Valéry Gmyr, Mathilde Dubois, Rita Riachy, and François Pattou

Subjects

Medicine

Abstract

The need for transplantable beta cells with a stable phenotype has given rise to several strategies including the expansion of existing pancreatic islets and/or growth of new ones. In vitro studies of beta cell proliferation on extracellular matrices plus growth factors have highlighted a possible cell expansion technique; however, the technique was accompanied with loss of insulin secretion. Herein we showed that human islet cell proliferation was marked by a decreased expression of specific differentiation markers, particularly insulin, insulin promoting factor-1 (IPF-1), and glucokinase. After a 6-day expansion period, we tried to reexpress the beta cell differentiation markers with compounds known for their differentiation and/or insulin-secreting properties. Sodium butyrate was a potent factor of IPF-1, insulin, and glucokinase gene reexpression; it also clearly induced secretion of gastrin, a known neogenic factor. Other compounds, namely TGF-β, calcitriol, GLP-1, and activin A, efficiently enhanced the glucose sensor machinery, particularly Glut-1 and glucokinase, thus triggering glucose responsiveness. Our results indicate that specific beta cell gene expression may be induced after expansion and dedifferentiation. This rekindles interest in human beta cell expansion. The possible stabilization of specialized genes needed by beta cells to fulfill their role as nutrient sensors and metabolic regulators may also be of interest to ensure graft maintenance and efficiency.

Published

2003