Membrane bioreactors as hybrid artificial pancreas: experimental evaluation

Celestino Pio Lombardi; A Urso; G Catapano; G Careddu; Giovanni Ghirlanda; Franco Ceriati; Giuseppe Brisinda; Rocco Domenico Alfonso Bellantone; Giovanni Doglietto; F. Crucitti

Membrane bioreactors as hybrid artificial pancreas: experimental evaluation

Celestino Pio Lombardi, A Urso, G Catapano, G Careddu, Giovanni Ghirlanda, Franco Ceriati, Giuseppe Brisinda, Rocco Domenico Alfonso Bellantone, Giovanni Doglietto, F. Crucitti

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

Results of cultured islet transplantation in the management of insulin-dependent diabetes are still unsatisfactory. The main problem preventing success is the swift and resolute host immune rejection. To obviate this we designed and experimented a model of bioartificial pancreas, made of polymeric hollow fibers, put into the blood circulation as an artero-venous bypass to immunoisolate endocrine tissue from leucocytes and immunoglobulins. We tested four different membrane bioreactors (BR1-4). BR1 and 2 had seven hollow fibers, the others more than 6,000 smaller fibers. In BR4 a connecting tube with a high-permeability membrane was inserted between the islet compartment and the bioreactor outlet to improve the ultrafiltration flow. In vitro, the islets inside the bioreactor perfused with glucose solutions (300 mg%) showed a rapid, high insulin secretory response, related to the glucose stimulation. The use of the outside connection allowed a twofold increase of insulin production.

Lingua originale	English
pagine (da-a)	126-130
Numero di pagine	5
Rivista	International Journal of Artificial Organs
Volume	15
Stato di pubblicazione	Pubblicato - 1992

Keywords

Animals
Cells, Cultured
Drug Compounding
Insulin
Insulin Infusion Systems
Islets of Langerhans
Islets of Langerhans Transplantation
Pancreatectomy
Swine

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title = "Membrane bioreactors as hybrid artificial pancreas: experimental evaluation",

abstract = "Results of cultured islet transplantation in the management of insulin-dependent diabetes are still unsatisfactory. The main problem preventing success is the swift and resolute host immune rejection. To obviate this we designed and experimented a model of bioartificial pancreas, made of polymeric hollow fibers, put into the blood circulation as an artero-venous bypass to immunoisolate endocrine tissue from leucocytes and immunoglobulins. We tested four different membrane bioreactors (BR1-4). BR1 and 2 had seven hollow fibers, the others more than 6,000 smaller fibers. In BR4 a connecting tube with a high-permeability membrane was inserted between the islet compartment and the bioreactor outlet to improve the ultrafiltration flow. In vitro, the islets inside the bioreactor perfused with glucose solutions (300 mg%) showed a rapid, high insulin secretory response, related to the glucose stimulation. The use of the outside connection allowed a twofold increase of insulin production.",

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author = "Lombardi, {Celestino Pio} and A Urso and G Catapano and G Careddu and Giovanni Ghirlanda and Franco Ceriati and Giuseppe Brisinda and Bellantone, {Rocco Domenico Alfonso} and Giovanni Doglietto and F. Crucitti",

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T1 - Membrane bioreactors as hybrid artificial pancreas: experimental evaluation

AU - Lombardi, Celestino Pio

AU - Urso, A

AU - Catapano, G

AU - Careddu, G

AU - Ghirlanda, Giovanni

AU - Ceriati, Franco

AU - Brisinda, Giuseppe

AU - Bellantone, Rocco Domenico Alfonso

AU - Doglietto, Giovanni

AU - Crucitti, F.

PY - 1992

Y1 - 1992

N2 - Results of cultured islet transplantation in the management of insulin-dependent diabetes are still unsatisfactory. The main problem preventing success is the swift and resolute host immune rejection. To obviate this we designed and experimented a model of bioartificial pancreas, made of polymeric hollow fibers, put into the blood circulation as an artero-venous bypass to immunoisolate endocrine tissue from leucocytes and immunoglobulins. We tested four different membrane bioreactors (BR1-4). BR1 and 2 had seven hollow fibers, the others more than 6,000 smaller fibers. In BR4 a connecting tube with a high-permeability membrane was inserted between the islet compartment and the bioreactor outlet to improve the ultrafiltration flow. In vitro, the islets inside the bioreactor perfused with glucose solutions (300 mg%) showed a rapid, high insulin secretory response, related to the glucose stimulation. The use of the outside connection allowed a twofold increase of insulin production.

AB - Results of cultured islet transplantation in the management of insulin-dependent diabetes are still unsatisfactory. The main problem preventing success is the swift and resolute host immune rejection. To obviate this we designed and experimented a model of bioartificial pancreas, made of polymeric hollow fibers, put into the blood circulation as an artero-venous bypass to immunoisolate endocrine tissue from leucocytes and immunoglobulins. We tested four different membrane bioreactors (BR1-4). BR1 and 2 had seven hollow fibers, the others more than 6,000 smaller fibers. In BR4 a connecting tube with a high-permeability membrane was inserted between the islet compartment and the bioreactor outlet to improve the ultrafiltration flow. In vitro, the islets inside the bioreactor perfused with glucose solutions (300 mg%) showed a rapid, high insulin secretory response, related to the glucose stimulation. The use of the outside connection allowed a twofold increase of insulin production.

KW - Animals

KW - Cells, Cultured

KW - Drug Compounding

KW - Insulin

KW - Insulin Infusion Systems

KW - Islets of Langerhans

KW - Islets of Langerhans Transplantation

KW - Pancreatectomy

KW - Swine

KW - Animals

KW - Cells, Cultured

KW - Drug Compounding

KW - Insulin

KW - Insulin Infusion Systems

KW - Islets of Langerhans

KW - Islets of Langerhans Transplantation

KW - Pancreatectomy

KW - Swine

UR - http://hdl.handle.net/10807/12072

M3 - Article

SN - 0391-3988

VL - 15

SP - 126

EP - 130

JO - International Journal of Artificial Organs

JF - International Journal of Artificial Organs

ER -

Membrane bioreactors as hybrid artificial pancreas: experimental evaluation

Abstract

Keywords

OSS delle Nazioni Unite

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