Collection efficiencies of MNC subpopulations during autologous CD34+peripheral blood progenitor cell (PBPC) harvests in small children and adolescents
Author:
Publisher
Wiley
Subject
Hematology,General Medicine
Reference15 articles.
1. Generation of immature autologous clinical dendritic cells for vaccination of cancer patients;Toungouz;Cytotherapy,1999
2. Peripheral blood stem cell collection using the small volume collection chamber in the Fenwal CS 3000 Plus blood cell separator;Rosenfeld;Bone Marrow Transplant,1994
3. Comparison of two blood cell separators in collecting peripheral blood stem cell components;Stroncek;Transfus Med,1997
4. Adjustment of the interface detector (location 71) to the absolute number of mononuclear cells in the peripheral blood: No improvement of the collection efficiency of the Fenwal CS 3000 Plus during progenitor cell harvests;Baars;J Clin Apheresis,1997
5. Effect of Interface/Offset (I/O) adjustment on collection efficiency using the Fenwal CS 3000 Plus blood cell separator for peripheral blood progenitor cell collection;Preti;J Hematother,1998
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