BACKGROUND: Rapid-release testing reduces the waiting period for administration of time-sensitive cell-therapy products. Current assay systems are labor intensive and time consuming. The Endosafe portable test system (PTS) is a chromogenic Limulus amebocyte lysate (LAL) portable endotoxin detection system that provides quantitative results in approximately 15 min. To evaluate Endosafe performance with cell-therapy products, side-by-side testing of traditional LAL systems and the Endosafe system was conducted at the Production Assistance for Cellular Therapies (PACT) facilities and the National Institutes of Health's Department of Transfusion Medicine, USA. METHODS: Charles River Laboratories provided each center with a PTS reader and two commercially prepared lyophilized reference standard endotoxin (RSE) vials. All samples tested with the Endosafe system used 0.05-5.0 endotoxin unit/mL (EU/mL) sensitivity cartridges provided by Charles River. Each vial was reconstituted with LAL water and tested in triplicate using the Endosafe and in-house LAL methods. Subsequently, each center tested the endotoxin content of standard dilutions of cell-therapy products, thus creating paired test results for each sample. Additionally, fabricated endotoxin-positive samples containing varying concentrations of endotoxin were prepared and shipped to all centers to perform blinded testing. RESULTS: Valid paired results, based on each center's LAL method and the Endosafe system criteria, were analyzed. Endotoxin detection between paired results was equivalent in most cases. DISCUSSION: The Endosafe system provided reliable results with products typically produced in cell-therapy manufacturing facilities, and would be an appropriate test on which to base the release of time-sensitive cell-therapy products.
BACKGROUND: Rapid-release testing reduces the waiting period for administration of time-sensitive cell-therapy products. Current assay systems are labor intensive and time consuming. The Endosafe portable test system (PTS) is a chromogenic Limulus amebocyte lysate (LAL) portable endotoxin detection system that provides quantitative results in approximately 15 min. To evaluate Endosafe performance with cell-therapy products, side-by-side testing of traditional LAL systems and the Endosafe system was conducted at the Production Assistance for Cellular Therapies (PACT) facilities and the National Institutes of Health's Department of Transfusion Medicine, USA. METHODS: Charles River Laboratories provided each center with a PTS reader and two commercially prepared lyophilized reference standard endotoxin (RSE) vials. All samples tested with the Endosafe system used 0.05-5.0 endotoxin unit/mL (EU/mL) sensitivity cartridges provided by Charles River. Each vial was reconstituted with LAL water and tested in triplicate using the Endosafe and in-house LAL methods. Subsequently, each center tested the endotoxin content of standard dilutions of cell-therapy products, thus creating paired test results for each sample. Additionally, fabricated endotoxin-positive samples containing varying concentrations of endotoxin were prepared and shipped to all centers to perform blinded testing. RESULTS: Valid paired results, based on each center's LAL method and the Endosafe system criteria, were analyzed. Endotoxin detection between paired results was equivalent in most cases. DISCUSSION: The Endosafe system provided reliable results with products typically produced in cell-therapy manufacturing facilities, and would be an appropriate test on which to base the release of time-sensitive cell-therapy products.
Authors: Deborah Wood; Robin Wesselschmidt; Peiman Hematti; Adrian P Gee; Cliona Rooney; Leslie Silberstein; Myriam Armant; Larry Couture; John E Wagner; David H McKenna; Derek Hei; Traci Heath Mondoro; Lisbeth Welniak; Robert Lindblad Journal: Clin Transl Sci Date: 2014-03-21 Impact factor: 4.689
Authors: Adrian P Gee; Sara Richman; April Durett; David McKenna; Jay Traverse; Timothy Henry; Diann Fisk; Carl Pepine; Jeannette Bloom; James Willerson; Karen Prater; David Zhao; Jane Reese Koç; Steven Ellis; Doris Taylor; Christopher Cogle; Lemuel Moyé; Robert Simari; Sonia Skarlatos Journal: Cytotherapy Date: 2010-09 Impact factor: 5.414
Authors: Qiang Zhu; Li Zou; Kumaravelu Jagavelu; Douglas A Simonetto; Robert C Huebert; Zhi-Dong Jiang; Herbert L DuPont; Vijay H Shah Journal: J Hepatol Date: 2011-12-13 Impact factor: 25.083
Authors: Sara Richman; Adrian P Gee; David H McKenna; Jay H Traverse; Timothy D Henry; Diann Fisk; Carl J Pepine; Jeannette Bloom; James T Willerson; Karen Prater; David Zhao; Jane Reese Koç; Saif Anwaruddin; Doris A Taylor; Christopher R Cogle; Lemuel A Moyé; Robert D Simari; Sonia I Skarlatos Journal: Transfusion Date: 2012-02-10 Impact factor: 3.157