BACKGROUND: Spray-drying techniques are commonly utilized in the pharmaceutical, dairy, and animal feed industries for processing liquids into powders but have not been applied to human blood products. Spray-dried protein products are known to maintain stability during storage at room temperature. STUDY DESIGN AND METHODS: Plasma units collected at the donor facility were shipped overnight at room temperature to a processing facility where single-use spray drying occurred. After 48 hours' storage at room temperature, the spray-dried plasma product was split in two and rehydrated with 1.5% glycine or deionized water and assayed for chemistry analytes and coagulation factors. Matched fresh-frozen plasma was analyzed in parallel as controls. RESULTS: Reconstitution was achieved for both rehydration groups within 5 minutes (n = 6). There was no significant intergroup difference in recovery for total protein, albumin, immunoglobulin (Ig)G, IgA, and IgM (96% or higher). With the exception of Factor VIII (58%), the recovery of clotting factors in the glycine reconstituted products ranged from 72% to 93%. Glycine reconstitution was superior to deionized water. CONCLUSION: We documented proteins and coagulation activities were recovered in physiologic quantities in reconstituted spray-dried plasma products. Further optimization of the spray-drying method and reconstitution fluid may result in even better recoveries. Spray drying is a promising technique for preparing human plasma that can be easily stored at room temperature, shipped, and reconstituted. Rapid reconstitution of the microparticles results in a novel plasma product from single donors.
BACKGROUND:Spray-drying techniques are commonly utilized in the pharmaceutical, dairy, and animal feed industries for processing liquids into powders but have not been applied to human blood products. Spray-dried protein products are known to maintain stability during storage at room temperature. STUDY DESIGN AND METHODS: Plasma units collected at the donor facility were shipped overnight at room temperature to a processing facility where single-use spray drying occurred. After 48 hours' storage at room temperature, the spray-dried plasma product was split in two and rehydrated with 1.5% glycine or deionized water and assayed for chemistry analytes and coagulation factors. Matched fresh-frozen plasma was analyzed in parallel as controls. RESULTS: Reconstitution was achieved for both rehydration groups within 5 minutes (n = 6). There was no significant intergroup difference in recovery for total protein, albumin, immunoglobulin (Ig)G, IgA, and IgM (96% or higher). With the exception of Factor VIII (58%), the recovery of clotting factors in the glycine reconstituted products ranged from 72% to 93%. Glycine reconstitution was superior to deionized water. CONCLUSION: We documented proteins and coagulation activities were recovered in physiologic quantities in reconstituted spray-dried plasma products. Further optimization of the spray-drying method and reconstitution fluid may result in even better recoveries. Spray drying is a promising technique for preparing human plasma that can be easily stored at room temperature, shipped, and reconstituted. Rapid reconstitution of the microparticles results in a novel plasma product from single donors.
Authors: Fahad Shuja; Robert A Finkelstein; Eugene Fukudome; Michael Duggan; Tareq Kheirbek; Kristopher Hamwi; Thomas H Fischer; Karim Fikry; Marc deMoya; George C Velmahos; Hasan B Alam Journal: J Trauma Date: 2011-03
Authors: Ernest A Gonzalez; Frederick A Moore; John B Holcomb; Charles C Miller; Rosemary A Kozar; S Rob Todd; Christine S Cocanour; Bjorn C Balldin; Bruce A McKinley Journal: J Trauma Date: 2007-01
Authors: A J Van Dijk; P M M Enthoven; S G C Van den Hoven; M M M H Van Laarhoven; T A Niewold; M J A Nabuurs; A C Beynen Journal: Vet Microbiol Date: 2002-01-23 Impact factor: 3.293
Authors: Chintamani Atreya; Simone Glynn; Michael Busch; Steve Kleinman; Edward Snyder; Sara Rutter; James AuBuchon; Willy Flegel; David Reeve; Dana Devine; Claudia Cohn; Brian Custer; Raymond Goodrich; Richard J Benjamin; Anna Razatos; Jose Cancelas; Stephen Wagner; Michelle Maclean; Monique Gelderman; Andrew Cap; Paul Ness Journal: Transfusion Date: 2019-05-29 Impact factor: 3.157