The efficient design of a membrane bioreactor for cells culture needs the complete characterization - both experimentally and theoretically - of the transport phenomena for metabolites, catabolites, cell regulatory and immune-related soluble factors. In this work, experiments and theoretical calculations have been carried out in order to discern the simultaneous influence of both diffusive and convective mechanisms to the transport of metabolites. In particular, the transmembrane mass flux of glucose, bovine serum albumin (BSA), apotransferrin and immunoglobulin G was experimentally measured, under pressure and concentration gradients, through high-flux microporous hydrophilic poly-ether-sulphone (PES-HFMs) and poly-sulphone hollow fiber membranes (PS-HFMs).
Diffusive and convective transport in HF membrane reactors for biomedical applications
Efrem Curcio;Giuseppe Barbieri;Loredana De Bartolo;Sabrina Morelli;Lidietta Giorno;Enrico Drioli
2006
Abstract
The efficient design of a membrane bioreactor for cells culture needs the complete characterization - both experimentally and theoretically - of the transport phenomena for metabolites, catabolites, cell regulatory and immune-related soluble factors. In this work, experiments and theoretical calculations have been carried out in order to discern the simultaneous influence of both diffusive and convective mechanisms to the transport of metabolites. In particular, the transmembrane mass flux of glucose, bovine serum albumin (BSA), apotransferrin and immunoglobulin G was experimentally measured, under pressure and concentration gradients, through high-flux microporous hydrophilic poly-ether-sulphone (PES-HFMs) and poly-sulphone hollow fiber membranes (PS-HFMs).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
