BACKGROUND: Leukapheresis procedures are generally performed at citrate anticoagulation rates extrapolated from shorter plateletpheresis procedures. However, neither the metabolic effects nor the management of associated symptoms have been critically evaluated during leukapheresis in healthy donors. STUDY DESIGN AND METHODS: Symptom assessments (n = 315) and laboratory analyses (n = 49) were performed during 244 procedures performed with and 71 without prophylactic calcium (Ca) chloride or Ca gluconate given at a dose linked to the citrate infusion rate (1.0-2.2 mg/kg/min). RESULTS: During leukapheresis of 12 to 25 L processed, ionized Ca and ionized magnesium (Mg) decreased as much as 35 and 56 percent, respectively, each exhibiting a tight negative correlation with marked increases in serum citrate levels. Significant increases in urinary Ca and Mg excretion accompanied the renal excretion of a large citrate load. Serum divalent cation levels remained depressed 24 hours after leukapheresis. Symptoms were more frequent in donors who were women, had low initial total Mg levels, and underwent procedures in which larger volumes were processed at higher citrate infusion rates. Ca infusions reduced clinically significant paresthesias by 96 percent and also attenuated decreases in serum potassium. Ca chloride maintained higher Ca levels than Ca gluconate. CONCLUSIONS: Prophylactic Ca infusions safely attenuate the marked metabolic effects of citrate administration and promote faster, more comfortable, leukapheresis procedures.
BACKGROUND: Leukapheresis procedures are generally performed at citrate anticoagulation rates extrapolated from shorter plateletpheresis procedures. However, neither the metabolic effects nor the management of associated symptoms have been critically evaluated during leukapheresis in healthy donors. STUDY DESIGN AND METHODS: Symptom assessments (n = 315) and laboratory analyses (n = 49) were performed during 244 procedures performed with and 71 without prophylactic calcium (Ca) chloride or Ca gluconate given at a dose linked to the citrate infusion rate (1.0-2.2 mg/kg/min). RESULTS: During leukapheresis of 12 to 25 L processed, ionized Ca and ionizedmagnesium (Mg) decreased as much as 35 and 56 percent, respectively, each exhibiting a tight negative correlation with marked increases in serum citrate levels. Significant increases in urinary Ca and Mg excretion accompanied the renal excretion of a large citrate load. Serum divalent cation levels remained depressed 24 hours after leukapheresis. Symptoms were more frequent in donors who were women, had low initial total Mg levels, and underwent procedures in which larger volumes were processed at higher citrate infusion rates. Ca infusions reduced clinically significant paresthesias by 96 percent and also attenuated decreases in serum potassium. Ca chloride maintained higher Ca levels than Ca gluconate. CONCLUSIONS: Prophylactic Ca infusions safely attenuate the marked metabolic effects of citrate administration and promote faster, more comfortable, leukapheresis procedures.
Authors: Sandhya R Panch; Yu Ying Yau; Courtney D Fitzhugh; Matthew M Hsieh; John F Tisdale; Susan F Leitman Journal: Transfusion Date: 2016-05 Impact factor: 3.157
Authors: Sandhya R Panch; Yu Ying Yau; Elizabeth M Kang; Suk See De Ravin; Harry L Malech; Susan F Leitman Journal: Transfusion Date: 2014-08-21 Impact factor: 3.157
Authors: Andre Larochelle; Michael Savona; Michael Wiggins; Stephanie Anderson; Brian Ichwan; Keyvan Keyvanfar; Sean J Morrison; Cynthia E Dunbar Journal: Blood Date: 2010-12-16 Impact factor: 22.113
Authors: Sumithira Vasu; Susan F Leitman; John F Tisdale; Matthew M Hsieh; Richard W Childs; A John Barrett; Daniel H Fowler; Michael R Bishop; Elizabeth M Kang; Harry L Malech; Cynthia E Dunbar; Hanh M Khuu; Robert Wesley; Yu Y Yau; Charles D Bolan Journal: Blood Date: 2008-06-03 Impact factor: 22.113