ePub Artificial Liver Support: Concepts, Methods, Results download

by G. Brunner,M. Mito,K. Akamatsu,Hideo Aoki,W.S. Arnaout,G. Backfisch,J. Bahlmann,S. Bengmark,P.D. Berk,R. Beyrau,G. Blumhardt,M. Burdelski,J. Chang,T.M.S. Chang,A.A. Demetriou,G.-M. Eisenbach,N. Fausto,P. Flake,M. Gaab,G. Gubernatis,B.V. Harmon,D. Henne-Bruns,A.A. Ivanyuk,B. Jeppsson,S. Kasai,J.F.R. Kerr,O. Klinge,M. Kodama,M. Kusano,P. Lamesch,W. Lauchart,T.S. Lie,H. Lösgen,P.S. Malchesky,G.A. Martini,B. Mathieu,G.K. Michalopoulos,Y. Miura,A.D. Moscioni,P. Neuhaus,V.G. Nikolaev,H. Nomura,Y. Nose,M. Oellerich,Y. Ohta,V. Otto,K. Ozawa,R. Pichlmayr,B.J. Potter,B. Ringe,V.V. Sarnatskaya,M. Sawa,F.W. Schmidt,J. Searle,Y. Shimahara,T. Tani,D. Tsikas,N. Tygstrup,R. Viebahn,S. Wagner,K. Yagi,N. Yamamoto,L.A. Yushko,L. Zieve

Author:

G. Brunner,M. Mito,K. Akamatsu,Hideo Aoki,W.S. Arnaout,G. Backfisch,J. Bahlmann,S. Bengmark,P.D. Berk,R. Beyrau,G. Blumhardt,M. Burdelski,J. Chang,T.M.S. Chang,A.A. Demetriou,G.-M. Eisenbach,N. Fausto,P. Flake,M. Gaab,G. Gubernatis,B.V. Harmon,D. Henne-Bruns,A.A. Ivanyuk,B. Jeppsson,S. Kasai,J.F.R. Kerr,O. Klinge,M. Kodama,M. Kusano,P. Lamesch,W. Lauchart,T.S. Lie,H. Lösgen,P.S. Malchesky,G.A. Martini,B. Mathieu,G.K. Michalopoulos,Y. Miura,A.D. Moscioni,P. Neuhaus,V.G. Nikolaev,H. Nomura,Y. Nose,M. Oellerich,Y. Ohta,V. Otto,K. Ozawa,R. Pichlmayr,B.J. Potter,B. Ringe,V.V. Sarnatskaya,M. Sawa,F.W. Schmidt,J. Searle,Y. Shimahara,T. Tani,D. Tsikas,N. Tygstrup,R. Viebahn,S. Wagner,K. Yagi,N. Yamamoto,L.A. Yushko,L. Zieve

ISBN13:

978-3540552581

ISBN:

3540552588

Language:

English

Publisher:

Springer (May 4, 1992)

Category:

Medical

Subcategory:

Medicine

ePub file:

1297 kb

Fb2 file:

1169 kb

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Brunner . ito (Ed. Artificial Liver Support. Concepts, Methods, Results. Contributors K. Akamatsu, H. Aoki, . Arnaout, G. Backfisch, 1. Bahlmann S. Bengmark, .

Brunner . Berk, R. Beyrau, G. Blumhardt, G. Brunner M. Burdelski, 1. Chang, . Eisenbach, N. Fausto, P. Flaake, M. Gaab, G. Gubernatis . Harmon, D. Henne-Bruns, . Ivanyuk, B. Jeppsson, S. Kasai .

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Arnaout (Contributor), G. Backfisch (Contributor), J. Bahlmann (Contributor), S. Bengmark (Contributor), . Berk (Contributor), R. Beyrau (Contributor), G. Blumhardt (Contributor), M. Burdelski (Contributor), J. Chang (Contributor), . Demetriou (Contributor), . M. has been added to your Cart.

Concepts, Methods, Results. Assessment of Liver Function in Donors by Use of the MEGX Test. Oellerich, M. Burdelski, R. Beyrau, B. Ringe, P. Lamesch, G. Gubernatis et al. Pages 132-139. History of Artificial Liver Support. H. Nomura, P. S. Malchesky, Y. Nosé.

Автор: K. Akamatsu; H. Aoki; G. Brunner; .

Artificial Liver Support (Paperback)

Artificial Liver Support (Paperback). For these extreme forms of liver disease and for critical situations before and after liver surgery, artificial liver support is needed.

Akamatsu, . Mito, . Brunner, G. ISBN-13.

This button opens a dialog that displays additional images for this product with the option to zoom in or out. Tell us if something is incorrect. Artificial Liver Support : Concepts, Methods, Results. Akamatsu, . Assembled Product Dimensions (L x W x H). 2 x . 3 x . 0 Inches.

In-Vivo Degradation of Poly(Lactic Acid) of Different Molecular Weights. Biomaterials, medical devices, and artificial organs.

A bioartificial liver device (BAL) is an artificial extracorporeal supportive device for an individual who is suffering from acute liver failure

A bioartificial liver device (BAL) is an artificial extracorporeal supportive device for an individual who is suffering from acute liver failure. The first bioartificial liver device was developed by Dr. Kenneth Matsumara and was named an invention of the year by Time magazine in 2001. Liver cells obtained from an animal were used instead of developing a piece of equipment for each function of the liver. The structure and function of the first device resembles that of today's BALs.

Artificial Liver Support.

The regenerative capacity of the liver cell is almost unlimited. Exciting new methods like continuous membrane plasma sepa ration and liver cell transplantation into the spleen have been de veloped. The older methods of hemoperfusion and dialysis have been improved.

Continuing progress has been made since the first edition of Artificial Liver Support was published. Liver transplantation has however become an estab lished therapy for a relatively small number of patients who remain patients for life. There therefore continues to be a great need for the development of other forms of artificial liver support. Improved intensive care utilizing improved plasma exchange, dialysis, sclerotherapy, and intracranial pressure monitoring have improved survival in fulminant hepatic failure. Progress has also been made in lipid membrane detoxification, in cell cultures, and in cell transplantation, and the isolation of various liver cell growth factors has led to deep insight into the mechanisms of liver regeneration. This book gives the clinician and the researcher detailed information about established new methods of clinic work and laboratory research, and describes new experimental approaches indicating the direction of future research. G. BRUNNER M. Mno Preface to the First Edition The regenerative capacity of the liver cell is almost unlimited. Therefore after acute liver damage, be it viral, toxic, hypoxic, or surgical in origin, restitutio ad integrum is the usual outcome. In two forms of liver disease, however, this is not the case: in fulminant hepatic failure, liver regeneration often is not fast enough to keep the organism alive; in end-stage cirrhosis, regeneration is disturbed by a hypertrophic architecture of fibrotic tissue. For these extreme forms of liver disease and for critical situations before and after liver surgery, artificial liver support is needed.

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