C Conlin scite author profile

Eleven patients were treated with the Hepatix extracorporeal liver assist device (ELAD) between June 1991 and August 1993. The first 2 patients were treated according to Food and Drug Administration guidelines ("Emergency Use of Unapproved Medical Devices," October 22, 1985), and the remaining 9 were treated according to an Investigational Device Exemption (IDE). The goal of the study was to establish the short-term safety of ELAD therapy, with a focus on acute medical complications such as hemodynamic instability, complement activation, and deterioration of vital organ function. As secondary goals, the metabolic capacity of ELAD cartridges and their clinical impact were assessed. Treatment was considered successful if the patient recovered sufficient liver function to survive weaning from the ELAD or was stabilized until orthotopic liver transplantation was performed. No short-term safety problems were associated with ELAD use. In addition, metabolic support was documented in 10 of the 11 patients, and 6 patients reached a successful end-point. The Hepatix ELAD is safe, and it provides measurable metabolic support in patients with late-stage liver failure. This pilot study provides the impetus to perform controlled trials of ELAD therapy in the treatment of various types of end-stage liver disease.

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Initial experience with the modified extracorporeal liver-assist device for patients with fulminant hepatic failure: system modifications and clinical impact

Millis

Cronin

Johnson³

et al. 2002

Transplantation

134

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Bioartificial liver support: report of the longest continuous treatment with human hepatocytes

Millis

Cronin

Johnson³

et al. 2001

Transplantation Proceedings

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Safety of continuous human liver support

Millis

Cronin

Johnson³

et al. 2001

Transplantation Proceedings

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Extracorporeal liver assist device

Conlin¹

1995

Critical Care Nursing Quarterly

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The liver has the unique property of regeneration in an acute setting if given enough time. Currently the only successful intervention for liver failure, both acute and chronic, is orthotopic liver transplantation. The increasing cost of transplantation and subsequent medical care, coupled with the decreasing availability of transplantable organs, magnifies the need for an alternative solution. A liver assist device that is metabolically similar to a native liver will advance the treatment regimen and decrease the need for surgery.

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C Conlin

The Hepatix Extracorporeal Liver Assist Device: Initial Clinical Experience

Initial experience with the modified extracorporeal liver-assist device for patients with fulminant hepatic failure: system modifications and clinical impact

Bioartificial liver support: report of the longest continuous treatment with human hepatocytes

Safety of continuous human liver support

Extracorporeal liver assist device

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