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Tissue oxygen saturation of human hepatic grafts after reperfusion: paradoxical elevation in poor graft function (1996)

Kiuchi, Tetsuya ; Oldhafer, Karl J. ; Ringe, Burckhardt ; [et al.]

Springer

Transplant international 9 (1996), S. 90-97

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ISSN: 1432-2277

Keywords: Liver transplantation, primary nonfunction, tissue oxygen saturation, near-infrared spectroscopy ; Tissue oxygen consumption, sinusoidal shunt

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The present study investigated the pathophysiology of primary nonfunction (PNF) of grafted livers with regard to hepatic tissue oxygenation. Hemoglobin oxygen saturation in hepatic tissue (H−So 2) after reperfusion was determined using near-infrared spectroscopy. Graft tissue oxygen consumption was also estimated according to Fick's principle. Six grafts with PNF were compared with 40 functioning grafts. One PNF graft with extremely low and heterogenous H−So 2 after reperfusion was found to contain multiple intrahepatic portal thrombi. However, five other PNF grafts showed no lower and, on the contrary, more homogeneous H−So 2 at the end of the operation. As a whole, mean H−So 2 was negatively correlated and the coefficient of variation (CV) of H−So 2 was positively correlated with graft tissue oxygen consumption at the end of the operation; grafts whose H−So 2 showed a secondary decrease had better initial function. In later relaparotomy, the H−So 2 of the five PNF grafts was significantly higher and more homogeneous than that of the functioning grafts. These results suggest that the H−So 2 level reflects tissue oxygen consumption as well as oxygenation, and that the dissociation of both factors can occur in hepatic graft reperfusion. Not only low and heterogeneous H−So 2 but also high and homogenous H−So 2, suggesting some shunt mechanism, can be signs of poor graft function.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00336384

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Ultrastructural and functional differentiation of hepatocytes under long-term culture conditions (1995)

Knop, Erich ; Bader, Augustinus ; Böker, Klaus ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

The @Anatomical Record 242 (1995), S. 337-349

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ISSN: 0003-276X

Keywords: Hepatocyte differentiation ; Hepatocytes in single gel cultures ; Ultrastructure of differentiation ; Hepatocytes in double gel cultures ; Ultrastructure of hepatocytes in culture ; Hepatocytes and extracellular matrix ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: Background: Studies on hepatocytes grown in different culture systems have shown that these cells rapidly dedifferentiate on a single support with liquid medium on top (single gel technique). However, in systems sandwiching them between two layers of extracellular matrix (double gel technique), the cells are able to regain and maintain typical light microscopical appearance and function. Their ultrastructural morphology is as yet unknown.Methods: Isolated, adult rat hepatocytes were grown in both systems, and their fine structure (thin section electron microscopy) and the functional ability of albumin production (immunoassay) were studied and compared in both culture systems after 2,7, and 14 days.Results: The hepatocytes in conventional single gel culture did not completely regain their normal morphology and rapidly underwent progressive dedifferentiation. This was characterized by loss of cell polarization in terms of obliteration of the bile canaliculi-like intercellular expansions, loss of cell membrane differentiations, and reduction of organelles. Cytoskeletal components gradually increased, building up large filamentous zones underneath the plasma membrane. In double get culture, the hepatocytes reachieved and maintained intact morphology and polarity over at least 14 days. The bile canaliculi were formed, preserved, or even enlarged and were associated with dense peribiliary bodies and Golgi fields. The plasma membrane facing both collagen layers bore numerous cytoplasmic microprojections like the sinusoidal surfaces of the hepatocytes in situ. Cell organelles, glycogen particles, and lipid droplets were always present.Conclusions The hepatocyte is a cell type in which ultrastructural and functional differentiation are strongly interdependent. For these cells, the morphological microenvironment (i.e. the bipolar position of the extracellular matrix) may be as improtant or even more decisive for maintenance of normal cell differentiation than modifications of the composition of the matrix itself or addition of other cell types, as focused in other studies. © 1995 Wiley-Liss, Inc.

Additional Material: 8 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/ar.1092420307

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