Abstract
Hybrid artificial liver systems are being developed as a temporary extracorporeal liver support therapy. A short overview is given which emphasizes the development of hepatocyte culture models for bioreactors, subsequent in vitro studies, animal studies and the clinical application of hybrid liver support systems.
An own bioreactor construction has been designed for the utilization of hepatocytes and sinusoidal endothelial cells. The reactor is based on capillaries for hepatocyte aggregate immobilization, coated with biomatrix. Four separate capillary membrane systems, each permitting a different function, are woven in order to create a three-dimensional network. Cells are perfused via independent capillary membrane compartments. Decentralized oxygen supply and carbon dioxide removal with low gradients is possible. There is a decentralized co-culture compartment for nonparenchymal liver cells. The use of identical parallel units to supply a few hepatocytes facilitates scale-up.
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References
Akaike T, Tobe S, Kobayashi A, Goto M, Kobayashi K. Design of hepatocyte specific extracellular matrices for hybrid artificial liver. Gastroenterol Jpn. 1993;28:(supplement 4):45–56.
Berry MN, Edwards AM, Barrit GI. Isolated hepatocytes preparation, properties and applications. In: Burdon RH, van Knippenberg PH, eds. Laboratory techniques in bio-chemistry and molecular biology. Amsterdam: Elsevier, 1991:7.
Cattral M, Levy G. Artificial liver support-pipe dream or reality? N Engl J Med 1994;72:268–9.
Chang TMS. The role of biotechnology in bioartificial or hybrid artificial cells and organs. Biomater Artif Cells Artif Or-gans. 1988;16:v–vi.
Clayton DF, Harrelson AL, Darnell JE. Dependence of liver-specific transcription on tissue organisation. Mol Cell Biol. 1985;5:2623–32.
Demetriou AA, Arnaout WS, Backfisch G, Moscioni AD. Immobilized isolated liver cells on a biomatrix. In: Brunner G, Mito M, eds. Artificial liver support. Springer; Berlin: 1993:283–95.
Dixit V. Development of a bioartificial liver using isolated hepatocytes. Artif Organs. 1994;18:371–84.
Dunn JCY, Yarmush ML, Koebe HG, Tompkins RG. Hepato-cyte function and extracellular matrix geometry: long-term culture in a sandwich configuration. FASEB J. 1989;3:174–7.
Gerlach J. Hepatocyte culture and bioreactor design for hybrid liver support systems. In: Williams R, Lee WM, eds. Acute liver failure. Cambridge: Cambridge University Press; 1997:[in press].
Gerlach J, Schauwecker HH, Klöppel K, Tauber R, Müller Ch, Bücherl E. Use of hepatocytes in adhesion and suspension cultures for liver support bioreactors. Int J Artif Organs. 1989a;12:788–93.
Gerlach J, Planck H, Schauwecker HH. Cytocompatibility of polyurethanes. In: Planck H, ed. Polyurethane in biomedical engineering 3. Amsterdam: Elsevier; 1989b:17–24.
Gerlach J, Stoll P, Schnoy N, Bücherl ESB. Membranes as substrates for hepatocyte adhesion in liver support bio-reactors. Int J Artif Organs. 1990a;13(7):436–41.
Gerlach J, Klöppel K, Stoll P, Vienken J, Müller Ch, Schau-wecker HH. Gas supply across membranes in liver support bioreactors. Artif Organs. 1990b;14:328–33.
Gerlach J, Klöppel K, Müller C, Schnoy N, Smith M, Neuhaus P. Hepatocyte aggregate culture technique for bioreactors in hybrid liver support systems. Int J Artif Organs. 1994a;16: 785–8.
Gerlach J, Smith M, Neuhaus P. Hepatocyte culture between woven capillary systems-a microscopy study. Artif Organs. 1994b;18:226–30.
Gerlach J, Neuhaus P. Culture model for primary hepatocytes. In Vitro Cell Devp Biol. 1994c;30A:640–2.
Gerlach J, Encke J, Hole O, Müller C, Ryan CJ, Neuhaus P. Bioreactor for larger scale hepatocyte in-vitro perfusion. Transplantation. 1994d;58:984–8.
Gerlach J, Encke J, Hole O, Müller C, Courtney J, Neuhaus P. Hepatocyte culture between three dimensional arranged biomatrix-coated independent artificial capillary systems and sinusoidal endothelial cell co-culture compartments. Int J Artif Organs. 1994e;17:301–6.
Gerlach J, Schnoy N, Encke J, Müller C, Smith M, Neuhaus P. Electron microscopic studies on a hepatocyte culture model with woven multicompartment capillary systems. Hepatol-ogy. 1995;22:546–52.
Gerlach J, Ziemer R, Neuhaus P. Fulminant liver failure: relevance of extracorporeal hybrid liver support systems. Int J Artif Organs. 1996a;19:7–13.
Gerlach J, Fuchs M, Smith M, Bornemann R, Neuhaus P, Riedel E. Is a clinical application of hybrid liver support systems limited by an initial disorder in cellular amino acid and a-keto acid metabolism, rather than by later gradual loss of primary hepatocyte function? Transplantation. 1996b;62:224–8.
Gerlach J, Stoll P, Schnoy N, Neuhaus P. Capillary membranes for liver support bioreactors. Int J Artif Organs. 1996:610–16.
Hu WS, Nyberg SL, Shatford RA. Cultivation of hepatocytes in a new entrapment reactor: a potential bioartificial liver. In: Sasaki R, Ikura K, eds. Animal cell culture and production of biologicals. Dordrecht: Kluwer Academic; 1991:75–80.
Jauregui HO, Naik S, Driscoll JL, Solomon BA, Galletti PM. Adult rat hepatocyte cultures as the cellular component of an artificial hybrid liver. In: Paul JP, Gaylor JDS, Courtney JM, Gilchrist T, eds. Biomaterials in Artificial Organs; 1983:130–40.
Knazek RA, Gullino PM, Kohler PO, Dedrick RL. Cell culture on artificial capillaries: an approach to tissue growth in vitro. Science. 1972;178:65–7.
Koide N, Sakagucci K, Koide Y. Formation of multicellular spheroids composed of adult rat hepatocytes in dishes with positive charged surfaces and under other nonadherent environments. Exp Cell Res. 1990;186:227–35.
Landry J, Bernier D, Ouellet C. Spheroidal aggregate culture of rat liver cells: histiotypic reorganization, biomatrix deposi-tion, and maintainance of functional activities. J Cell Biol. 1985;101:914–23.
Margulis MS, Erukhimov EA, Andreiman LA et al. Hemoper-fusion through suspension of cryopreserved hepatocytes in a treatment of patients with acute liver failure. Res Surg. 1990;2:99–102.
Matsumura KN, Guevara GR, Huston H et al. Hybrid bio-artificial liver in hepatic failure: preliminary clinical report. Surgery. 1987;101(1):99–103.
Matthew HW, Salley SO, Peterson WD, Deshmukh DR, Mukhopadhyay A, Klein MD. Microencapsulated hepato-cytes. Prospects for extracorporeal liver support}. ASAIO Trans. 1991;37(3):328–30.
Nyberg SL, Shatford RA, Hu WA, Payne WD, Cerra FB. Hepatocyte culture systems for artificial liver support: implications for critical care medicine. Crit Care Med. 1992;20(8):1157–68.
Nyberg SL, Russel A, Shatford RA et al. Evaluation of a hepatocyte-entrapment hollow fiber bioreactor: a potential bioartificial liver. Biotech Bioeng. 1993;41:194–203.
Olumide F, Eliashiv A, Kralios N, Norton L, Eiseman B. Hepatic support with hepatocyte suspension in a permeable membrane dialyzer. Surgery. 1977;82:599–606.
Rozga J, Holzmann MD, Ro MS et al. Development of a hybrid bioartificial liver. Ann Surg. 1993a;217(5):502–11.
Rozga J, Podesta L, Le Page E et al. Control of cerebral oedema by total hepatectomy and extracorporeal liver support in fulminant hepatic failure. Lancet. 1993b;342:898–9.
Scholz M, Hu WS. A two compartment cell entrapment bioreactor with three different holding times for cells, high and low molecular weight compounds. Cytotechnology. 1991;4:127–37.
Shatford RA, Nyberg SL, Meier SL et al. Hepatocyte function in a hollow fiber bioreactor: a potential bioartificial liver. J Surg Res. 1992;53:549–57.
Takabatake H, Koide N, Tsuji T. Encapsulated multicellular speroids of rat hepatocytes produce albumin and urea in a spouted bed circulating culture system. Artif Organs. 1991; 15:474–80.
Tong JZ, Bernard O, Alvarez F. Long-term culture of rat liver cell spheroids in hormonally defined media. Exp Cell Res. 1990;189:87–92.
Uchino J, Matsue H, Takahashi M et al. A hybrid artificial liver. Function of cultured monolayer pig hepatocytes in plasma from hepatic failure patients. ASAIO Trans. 1991;37:337–8.
Wolf CFW, Munkelt BE. Bilirubin conjugation by an artificial liver composed of cultured cells and synthetic capillaries. Trans Am Soc Artif Int Organs. 1976;21:16–27.
Yanagi K, Ookawa K, Mizuno S, Ohshima N. Performance of a new hybrid artificial liver support system using hepatocytes entrapped within a hydrogel. ASAIO Trans. 1989;35: 570–2.
Yuasa C, Tomita Y, Shono K, Ishimura K, Ichihara A. Importance of cell aggregation for expression of liver functions and regeneration demonstrated with primary cultured hepatocytes. J Cellular Physiol. 1993;156:522–30.
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Gerlach, J. Long-term liver cell cultures in bioreactors and possible application for liver support. Cell Biol Toxicol 13, 349–355 (1997). https://doi.org/10.1023/A:1007447710934
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DOI: https://doi.org/10.1023/A:1007447710934