Effect of Plastic Containers on Liquid Preservation of Human Granulocytes. I. With and Without Deoxyribonuclease and Hydrocortisone

Abstract

The effects of 4 types of plastic polymer containers (polyvinyl chloride (PL-146), bioriented-biaxial polyolefin, ethylene-vinyl acetate and polypropylene) on the in vitro recovery, viability, membrane integrity and phagocytosis of human granulocytes (PMNL; polymorphonuclear leukocytes) were studied. Cells were collected by continuous-flow centrifugation leukapheresis (CFCL), then further isolated by counterflow centrifugation-elutriation (CCE), and stored at 4-6.degree. C for up to 14 days at concentration of 6 .times. 106 PMNL/ml in medium with or without hydrocortisone (HC) or DNase. Regardless of the containers, there were no significant differences observed in the responses of PMNL within the first 48 h of storage. PMNL stored in the polyvinyl chloride (PL-146) containers with or without HC and DNase maintained a significantly higher viability and slower mean cell volume (MCV) expansion rate after 48-96 h compared with that stored in other containers. The phagocytic response was comparable in surviving PMNL from all containers during the first 7 days. Addition of HC and DNase to the storage medium reduced the rate of PMNL volume expansion in all containers, improved the viability in all but the polypropylene containers, but had no effect on the phagocytic response. Since the results show a strong correlation between the rate of PMNL volume expansion during storage and subsequent loss of PMNL viability and function, the containers made with PL-146 polyvinyl chloride are superior to those made of bioriented-biaxial polyolefin, ethylene-vinyl acetate or polypropylene.