BACKGROUND AIMS: Bone marrow (BM)-derived mononuclear cell (MNC) preparations are increasingly used in experimental studies exploring the potential effect of progenitor cell-derived therapies in cardiocirculatory diseases. We analyzed the cellular BM composition, side-effects and other process-related variables of BM harvest and BM-MNC preparation in 80 patients with cardiovascular disease. METHODS: BM (median 828 mL, range 223-1038 mL) was collected from the iliac crest. After BM harvest the MNC fraction was enriched by semi-automatic apheresis to reduce the total volume of the transplant. Autologous red blood cells (RBC) were salvaged from the initial BM harvest and autotransfused to the patients. RESULTS: There were no serious side-effects related to BM collection, particularly no serious bleeding complications. Twenty- five of 80 (31%) patients developed mild pain. BM harvest resulted in the collection of a median of 2.8 × 10(9) MNC, containing a median of 66.5 × 10(6) CD34/45 cells, 39.5 × 10(6) CD133/45 cells and 50.3 × 10(6) CD34/CD133 cells. Apheresis technology-based MNC enrichment of harvested BM resulted in a progenitor cell recovery of 69-75.3% of total cells. Additional salvage of RBC from the initial BM harvest resulted in the recovery of a median of 175.0 mL autologous RBC mass. Transfusion of salvaged RBC was well tolerated and resulted in a significant increase in hemoglobin levels. CONCLUSIONS: Collection of BM of up to 1 L in combination with in vitro processing using a semi-automated apheresis device is a safe and feasible approach to increasing the number of progenitor cells necessary for cellular therapies, particularly when combined with RBC salvage.
BACKGROUND AIMS: Bone marrow (BM)-derived mononuclear cell (MNC) preparations are increasingly used in experimental studies exploring the potential effect of progenitor cell-derived therapies in cardiocirculatory diseases. We analyzed the cellular BM composition, side-effects and other process-related variables of BM harvest and BM-MNC preparation in 80 patients with cardiovascular disease. METHODS: BM (median 828 mL, range 223-1038 mL) was collected from the iliac crest. After BM harvest the MNC fraction was enriched by semi-automatic apheresis to reduce the total volume of the transplant. Autologous red blood cells (RBC) were salvaged from the initial BM harvest and autotransfused to the patients. RESULTS: There were no serious side-effects related to BM collection, particularly no serious bleeding complications. Twenty- five of 80 (31%) patients developed mild pain. BM harvest resulted in the collection of a median of 2.8 × 10(9) MNC, containing a median of 66.5 × 10(6) CD34/45 cells, 39.5 × 10(6) CD133/45 cells and 50.3 × 10(6) CD34/CD133 cells. Apheresis technology-based MNC enrichment of harvested BM resulted in a progenitor cell recovery of 69-75.3% of total cells. Additional salvage of RBC from the initial BM harvest resulted in the recovery of a median of 175.0 mL autologous RBC mass. Transfusion of salvaged RBC was well tolerated and resulted in a significant increase in hemoglobin levels. CONCLUSIONS: Collection of BM of up to 1 L in combination with in vitro processing using a semi-automated apheresis device is a safe and feasible approach to increasing the number of progenitor cells necessary for cellular therapies, particularly when combined with RBC salvage.
Authors: Denis V Voronin; Anastasiia A Kozlova; Roman A Verkhovskii; Alexey V Ermakov; Mikhail A Makarkin; Olga A Inozemtseva; Daniil N Bratashov Journal: Int J Mol Sci Date: 2020-03-27 Impact factor: 5.923