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1. Review: Artificial liver support systems

Author

Jacek Rozga, Achilles A. Demetriou, Andreas Kamlot, and F. D. Watanabe

Subjects
medicine.medical_specialty, business.industry, medicine.medical_treatment, Bioengineering, Liver transplantation, Chronic liver disease, medicine.disease, Hemoperfusion, Applied Microbiology and Biotechnology, Transplantation, Fulminant hepatic failure, Medicine, business, Intensive care medicine, Hepatic encephalopathy, Dialysis, Biotechnology, Liver support systems
Abstract

Despite recent advances in medical therapy, patients with fulminant hepatic failure (FHF) have a mortality rate approaching 90%. Many patients die because of failure to arrest the progression of cerebral edema. Liver transplantation has improved survival to 65% to 75%. However, there is a shortage of donors and approximately one half of the patients with FHF will die while awaiting liver transplantation. There is thus a need to develop an extracorporeal liver assist system to help keep these patients alive and neurologically intact until either an organ becomes available for transplantation or the native liver recovers from injury. Such a system could also be used during the period of functional recovery from massive liver resection or to assist patients with decompensated chronic liver disease. Over the years, various methods utilizing charcoal and resin hemoperfusion, dialysis, plasma exchange, and other methods of blood detoxification have been developed and tested, but none have gained wide acceptance. This was due to: (i) incomplete understanding of the pathophysiology of liver failure; (ii) lack of accurate methods of assessment, quantitation, and stratification of the degree of liver dysfunction; and (iii) inadequate numbers of prospective controlled clinical trials examining the effects of specific therapeutic modalities. Liver support systems utilizing liver tissue preparations were developed in the 1950s, but it was not until recently that advances in hepatocyte isolation and culture, better understanding of hepatocyte-matrix interactions, and improved hollow-fiber technology have resulted in the development of a new generation of liver assist devices. Some of these devices are currently being tested in the clinical setting. In a preliminary clinical study, we have used a porcine hepatocyte-based liver support system to treat patients with acute liver failure as well as patients with acute exacerbation of chronic liver disease. Patients in the first group, who were candidates for transplantation, were successfully bridged to a transplant with excellent survival. No obvious benefit from bioartifical liver treatments was seen in the second group. It is possible that, in this group, patients will have to be treated earlier and for longer periods of time. Prospective controlled trials will be initiated as soon as the current phase I study is concluded to determine the efficacy of this system in both patients populations. (c) 1996 John Wiley & Sons, Inc.

Published
2000
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2. Clinical Experience with a Porcine Hepatocyte-Based Liver Support System

Author

F. D. Watanabe, Achilles A. Demetriou, E. Kahaku, W. Hewitt, Susumu Eguchi, Yvette Middleton, Jacek Rozga, and S. Chen

Subjects
medicine.medical_specialty, Bilirubin, Encephalopathy, 030232 urology & nephrology, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, 030204 cardiovascular system & hematology, Gastroenterology, law.invention, Biomaterials, 03 medical and health sciences, Liver disease, chemistry.chemical_compound, 0302 clinical medicine, Fulminant hepatic failure, law, Internal medicine, medicine, Cerebral perfusion pressure, Intracranial pressure, business.industry, Bioartificial liver device, General Medicine, medicine.disease, chemistry, business, Perfusion
Abstract

UNLABELLED The only clinically proven effective treatment of fulminant hepatic failure (FHF) is orthotopic liver transplant (OLT). However, many patients die before an organ becomes available. Thus, there is a need for development of an extracorporeal liver support system to "bridge" these patients either to OLT or spontaneous recovery. We developed a bioartificial liver (BAL) based on plasma perfusion through a circuit of a hollow-fiber cartridge seeded with matrix-anchored porcine hepatocytes to treat patients with severe acute liver failure. Two groups of patients were studied. Group 1 (n = 12): patients with FHF. All patients were successfully "bridged" to OLT. "Bridge" time to OLT was 21-96 hr (mean: 39.3 hr). All patients were discharged neurologically intact. Reversal of decerebration was noted in all 11 deep stage 4 coma patients. There was reduction in intracranial pressure (ICP mmHg, 18.2 +/- 2.2 to 8.5 +/- 1.2; p < 0.004) and increase in cerebral perfusion pressure (CPP mmHg, 71.1 +/- 4.0 to 84.7 +/- 2.6; p < 0.006). Laboratory values pre- and post-BAL treatment: glucose (mg/dl) 122 +/- 11 to 183 +/- 21, p < 0.002; ammonia (mumol/l) 155.6 +/- 13.2 to 121.6 +/- 9.5, p < 0.02; total bilirubin (mg/dl) 21.6 +/- 2.8 to 18.2 +/- 2.2, p < 0.001; PT (sec) 23.2 +/- 1.7 to 21.9 +/- 1.0, p < 0.3. Group II (n = 8): patients with chronic liver failure experiencing acute exacerbation. Two patients survived and later underwent OLT. Six patients (not OLT candidates) died 1-14 days after last BAL treatment. Laboratory values pre- and post-treatment: ammonia (mumol/l) 201 +/- 47 to 143 +/- 25, p < 0.06; total bilirubin (mg/dl) 22.8 +/- 5.2 to 19.5 +/- 4.4, p < 0.01; PT (sec) 22.5 +/- 2.0 to 21.8 +/- 1.1, p < 0.6. CONCLUSION our clinical experience with the BAL suggests that it may serve as "bridge" to OLT in patients with FHF primarily by reversing intracranial hypertension, but it is not a substitute for OLT in patients with end-stage liver disease who are non-transplant candidates.

Published
1996
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4. Support of acute liver failure patients with a bioartificial liver

Author

Achilles A. Demetriou and F. D. Watanabe

Subjects
medicine.medical_specialty, business.industry, medicine.medical_treatment, Liver failure, Bioartificial liver device, Hematology, General Medicine, Liver transplantation, medicine.disease, Cerebral edema, Surgery, law.invention, Fulminant hepatic failure, law, medicine, Intensive care medicine, business
Published
1996
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5. Failure of liver transplantation to diminish cardiac deposits of amylopectin and leukocyte inclusions in type iv glycogen storage disease

Author

Jonathan W. Said, F. D. Watanabe, Leonard Makowka, Robert L. Van de Velde, M.D. Philip Rosenthal, Eric A. Vasiliauskas, Jose Cocjin, Luis G. Podesta, Linda Sher, and Robert Grier

Subjects
Male, Pathology, medicine.medical_specialty, Heart Diseases, Neutrophils, Biopsy, medicine.medical_treatment, Amylopectin, Autopsy, Liver transplantation, Glycogen Storage Disease Type IV, chemistry.chemical_compound, Fatal Outcome, medicine, Humans, Glycogen storage disease type IV, Leukocyte inclusions, Hepatology, medicine.diagnostic_test, business.industry, Myocardium, Infant, medicine.disease, Liver Transplantation, Transplantation, surgical procedures, operative, chemistry, Surgery, Tomography, X-Ray Computed, business, Infiltration (medical), Follow-Up Studies
Abstract

Orthotopic liver transplantation has been used to treat glycogen storage disease type IV. Most long-term surviving patients who have undergone liver transplantation have been free of neuromuscular and cardiac morbidity, and regression of cardiac amylopectin infiltration has been reported after liver transplantation. Leukocyte inclusions in glycogen storage disease type IV have also been reported. We present the case of a child who underwent orthotopic liver transplantation for glycogen storage disease type IV. In contrast to previous reports, at autopsy 2 1/2 years after transplantation, there was massive amylopectin deposits in his heart. Further, peripheral leukocytes never showed loss of amylopectin inclusions after transplantation. Orthotopic liver transplantation for type IV glycogen storage disease may not, in all cases, result in improvement in other affected organs. Consideration of multiorgan transplantation appears warranted.

Published
1995
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6. Portal hypertension in children

Author

F. D. Watanabe and Philip J. Rosenthal

Subjects
medicine.medical_specialty, medicine.medical_treatment, Hemodynamics, Liver transplantation, Esophageal and Gastric Varices, Vascular occlusion, Internal medicine, Hypertension, Portal, Sclerotherapy, Humans, Portasystemic Shunt, Surgical, Medicine, Child, Portal Vein, business.industry, medicine.disease, Shunt (medical), medicine.anatomical_structure, Regional Blood Flow, Pediatrics, Perinatology and Child Health, Vascular resistance, Cardiology, Portal hypertension, medicine.symptom, business, Transjugular intrahepatic portosystemic shunt
Abstract

Portal hypertension is an uncommon but serious complication in children. The etiology may be intrahepatic or from an extrahepatic vascular occlusion. The pathophysiology is unknown, but the development of increased vascular resistance and portal flow are believed to be the primary changes. Increased portal flow is created by a decrease in systemic vascular resistance regionalized to the splanchnic vascular bed. Abnormally reduced response to vasoactive substances may be responsible. Advances in ultrasonography and endoscopy may improve our ability to evaluate portal hypertensive vascular changes. However, pharmacologic management is still limited to controlling the hemodynamic disturbances after they have occurred. Nonsurgical shunt management is increasingly being used in children, limiting the need for surgical shunt placement. Liver transplantation is now a viable option for managing end-stage disease. Future management depends on understanding the role of vasoactive substances controlling portal flow velocity, subsequent development of targeted pharmacologic therapy, and application of nonsurgical shunt technology in children. Transjugular intrahepatic portosystemic shunt placement is the next technologic advance moving from the adult into the pediatric realm.

Published
1995
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8. Clinical experience with a bioartificial liver in the treatment of severe liver failure. A phase I clinical trial

Author

Theodore M. Khalili, F. D. Watanabe, Achilles A. Demetriou, E. Kahaku, Claudy J.-P. Mullon, W. Hewitt, Christopher R. Shackleton, Nicholas Arkadopoulos, Susumu Eguchi, Barry D. Solomon, Jacek Rozga, and Walid S. Arnaout

Subjects
Adult, Male, medicine.medical_specialty, Exacerbation, medicine.medical_treatment, Liver transplantation, Chronic liver disease, Kidney, Nervous System, Severity of Illness Index, law.invention, Fulminant hepatic failure, law, Medicine, Humans, Liver support systems, business.industry, Bioartificial liver device, Liver Failure, Acute, Middle Aged, medicine.disease, Liver, Artificial, Surgery, Transplantation, Survival Rate, Pancreatitis, Female, business, Research Article
Abstract

OBJECTIVE: The purpose of this study was to develop a bioartificial liver (BAL) to treat patients with severe liver failure until they can be either transplanted or recover spontaneously. SUMMARY BACKGROUND DATA: Severe acute liver failure is associated with high mortality. Liver transplantation has emerged as an effective therapy for patients who did not respond to standard management. However, because of the donor organ shortage and urgent need for transplantation, many patients die before they can be transplanted and others do not survive after transplantation, primarily because of intracranial hypertension. METHODS: Three groups of patients with severe acute liver failure were treated with the BAL. In group 1 (n = 18) were patients with fulminant hepatic failure (FHF), in group 2 (n = 3) were patients with primary nonfunction (PNF) of a transplanted liver, and in group 3 (n = 10) were patients with acute exacerbation of chronic liver disease. Patients in groups 1 and 2 were candidates for transplantation at the time they entered the study, whereas patients in group 3 were not. RESULTS: In group 1, 16 patients were "bridged" successfully to transplantation, 1 patient was bridged to recovery without a transplant, and 1 patient died because of concomitant severe pancreatitis. In group 2, all patients were bridged successfully to retransplantation. In group 3, two patients were supported to recovery and successful transplants at later dates; the other eight patients, although supported temporarily with the BAL, later died because they were not candidates for transplantation. CONCLUSIONS: The authors' clinical experience with the BAL has yielded encouraging results. A randomized, controlled, prospective trial (phase II-III) is being initiated to determine the efficacy of the system.

Published
1997

9. Treatment of acetaminophen-induced fulminant hepatic failure with a bioartificial liver

Author

Ronald W. Busuttil, W. Hewitt, F. D. Watanabe, Steven D. Colquhoun, John M. Vierling, S.M. Cohen, Achilles A. Demetriou, D.E. Goldman, Tse-Ling Fong, Christopher R. Shackleton, and Walid S. Arnaout

Subjects
Adult, medicine.medical_specialty, Adolescent, Consciousness, Intracranial Pressure, Swine, Fulminant, Gastroenterology, law.invention, Fulminant hepatic failure, Liver Function Tests, law, Internal medicine, medicine, Animals, Humans, Acetaminophen, Transplantation, medicine.diagnostic_test, business.industry, Bioartificial liver device, Hemodynamics, Equipment Design, Middle Aged, Liver, Artificial, Artificial organ, medicine.anatomical_structure, Liver, Hepatocyte, Hepatic Encephalopathy, Surgery, Female, Drug Overdose, Liver function tests, business, medicine.drug
Published
1997

10. Clinical experience with a porcine hepatocyte-based liver support system

Author

S C, Chen, W R, Hewitt, F D, Watanabe, S, Eguchi, E, Kahaku, Y, Middleton, J, Rozga, and A A, Demetriou

Subjects
Adult, Male, Adolescent, Swine, Cell Separation, Liver Failure, Acute, Middle Aged, Liver, Artificial, Liver Transplantation, Treatment Outcome, Liver, Hepatic Encephalopathy, Animals, Humans, Female, Child, Biomarkers
Abstract

The only clinically proven effective treatment of fulminant hepatic failure (FHF) is orthotopic liver transplant (OLT). However, many patients die before an organ becomes available. Thus, there is a need for development of an extracorporeal liver support system to "bridge" these patients either to OLT or spontaneous recovery. We developed a bioartificial liver (BAL) based on plasma perfusion through a circuit of a hollow-fiber cartridge seeded with matrix-anchored porcine hepatocytes to treat patients with severe acute liver failure. Two groups of patients were studied. Group 1 (n = 12): patients with FHF. All patients were successfully "bridged" to OLT. "Bridge" time to OLT was 21-96 hr (mean: 39.3 hr). All patients were discharged neurologically intact. Reversal of decerebration was noted in all 11 deep stage 4 coma patients. There was reduction in intracranial pressure (ICP mmHg, 18.2 +/- 2.2 to 8.5 +/- 1.2; p0.004) and increase in cerebral perfusion pressure (CPP mmHg, 71.1 +/- 4.0 to 84.7 +/- 2.6; p0.006). Laboratory values pre- and post-BAL treatment: glucose (mg/dl) 122 +/- 11 to 183 +/- 21, p0.002; ammonia (mumol/l) 155.6 +/- 13.2 to 121.6 +/- 9.5, p0.02; total bilirubin (mg/dl) 21.6 +/- 2.8 to 18.2 +/- 2.2, p0.001; PT (sec) 23.2 +/- 1.7 to 21.9 +/- 1.0, p0.3. Group II (n = 8): patients with chronic liver failure experiencing acute exacerbation. Two patients survived and later underwent OLT. Six patients (not OLT candidates) died 1-14 days after last BAL treatment. Laboratory values pre- and post-treatment: ammonia (mumol/l) 201 +/- 47 to 143 +/- 25, p0.06; total bilirubin (mg/dl) 22.8 +/- 5.2 to 19.5 +/- 4.4, p0.01; PT (sec) 22.5 +/- 2.0 to 21.8 +/- 1.1, p0.6.our clinical experience with the BAL suggests that it may serve as "bridge" to OLT in patients with FHF primarily by reversing intracranial hypertension, but it is not a substitute for OLT in patients with end-stage liver disease who are non-transplant candidates.

Published
1996

11. Review: Artificial liver support systems

Author

A, Kamlot, J, Rozga, F D, Watanabe, and A A, Demetriou

Abstract

Despite recent advances in medical therapy, patients with fulminant hepatic failure (FHF) have a mortality rate approaching 90%. Many patients die because of failure to arrest the progression of cerebral edema. Liver transplantation has improved survival to 65% to 75%. However, there is a shortage of donors and approximately one half of the patients with FHF will die while awaiting liver transplantation. There is thus a need to develop an extracorporeal liver assist system to help keep these patients alive and neurologically intact until either an organ becomes available for transplantation or the native liver recovers from injury. Such a system could also be used during the period of functional recovery from massive liver resection or to assist patients with decompensated chronic liver disease. Over the years, various methods utilizing charcoal and resin hemoperfusion, dialysis, plasma exchange, and other methods of blood detoxification have been developed and tested, but none have gained wide acceptance. This was due to: (i) incomplete understanding of the pathophysiology of liver failure; (ii) lack of accurate methods of assessment, quantitation, and stratification of the degree of liver dysfunction; and (iii) inadequate numbers of prospective controlled clinical trials examining the effects of specific therapeutic modalities. Liver support systems utilizing liver tissue preparations were developed in the 1950s, but it was not until recently that advances in hepatocyte isolation and culture, better understanding of hepatocyte-matrix interactions, and improved hollow-fiber technology have resulted in the development of a new generation of liver assist devices. Some of these devices are currently being tested in the clinical setting. In a preliminary clinical study, we have used a porcine hepatocyte-based liver support system to treat patients with acute liver failure as well as patients with acute exacerbation of chronic liver disease. Patients in the first group, who were candidates for transplantation, were successfully bridged to a transplant with excellent survival. No obvious benefit from bioartifical liver treatments was seen in the second group. It is possible that, in this group, patients will have to be treated earlier and for longer periods of time. Prospective controlled trials will be initiated as soon as the current phase I study is concluded to determine the efficacy of this system in both patients populations. (c) 1996 John WileySons, Inc.

Published
1996

15. BIOARTIFICIAL LIVER (BAL) USED TO TREAT PRIMARY NON-FUNCTION (PNF) FOLLOWING LIVER TRANSPLANTATION

Author

Susumu Eguchi, J. Vierling, D. Goldman, E. Kahaku, Achilles A. Demetriou, W. Hewitt, C. Shackelton, S. Chen, F. D. Watanabe, Jacek Rozga, and W. S. Arnaout

Subjects
medicine.medical_specialty, business.industry, medicine.medical_treatment, Biomedical Engineering, Biophysics, Urology, Bioartificial liver device, Bioengineering, General Medicine, Liver transplantation, law.invention, Biomaterials, law, Medicine, business
Published
1996
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