A novel model of solute transport in a hollow-fiber bioartificial pancreas based on a finite element method

Biotechnology and Bioengineering

Volumn 78, Issue 5, 2002, Pages 576-582

  Dulong, Jean Luc ^a   Legallais, Cécile ^a   Darquy, Sylviane ^b   Reach, Gérard ^b  

^a UNIVERSITÉ DE TECHNOLOGIE DE COMPIÈGNE   (France)

^b HÔTEL DIEU   (France)

Author keywords

Bioartificial pancreas; Finite element; Hollow fiber; Islet density; Mass transfer

Indexed keywords

FINITE ELEMENT METHOD; GLUCOSE; INSULIN; MATHEMATICAL MODELS; OPTIMIZATION; PARTIAL PRESSURE;

SOLUTE TRANSPORT;

ARTIFICIAL ORGANS;

GLUCOSE; INSULIN; OXYGEN;

ARTICLE; ARTIFICIAL PANCREAS; BIOARTIFICIAL ORGAN; CALCULATION; CONCENTRATION RESPONSE; DIABETES MELLITUS; FINITE ELEMENT ANALYSIS; GLUCOSE TRANSPORT; HOLLOW FIBER MEMBRANE; HORMONE TRANSPORT; INSULIN RELEASE; MEMBRANE MODEL; MEMBRANE TRANSPORT; OXYGEN DIFFUSION; OXYGEN TENSION; PANCREAS ISLET; PARTICLE SIZE; PREDICTION; STIMULUS RESPONSE; TRANSPORT KINETICS; ACTIVE TRANSPORT; BIOLOGICAL MODEL; COMPARATIVE STUDY; COMPUTER SIMULATION; HUMAN; INSTRUMENTATION; METABOLISM; METHODOLOGY; PANCREAS ISLET TRANSPLANTATION; SECRETION;

BIOLOGICAL TRANSPORT, ACTIVE; COMPARATIVE STUDY; COMPUTER SIMULATION; FINITE ELEMENT ANALYSIS; GLUCOSE; HUMAN; INSULIN; ISLETS OF LANGERHANS TRANSPLANTATION; MODELS, BIOLOGICAL; OXYGEN; PANCREAS, ARTIFICIAL; SUPPORT, NON-U.S. GOV'T; HUMANS;

EID: 0037023938     PISSN: 00063592     EISSN: None     Source Type: Journal    
DOI: 10.1002/bit.10230     Document Type: Article

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