Minocycline Administration During Human Liver Transplantation

Study Description

Brief Summary

Liver transplantation is the sole therapy for end-stage liver diseases and acute liver failure in children and adults. However, use of this life-saving technique is limited due to a severe shortage of donor livers. The number of transplants currently performed is approximately one-third of the number needed to accommodate the more than 16,000 patients awaiting an organ in the US. Over 20% of patients on the liver transplant waiting list die prior to transplantation due to organ shortages. The median waiting time in 2011 was over 300 days. Poor immediate graft function and primary non function (PNF) are clinically significant events, especially in recipients of marginal livers (elderly donors, extended cold storage time, or steatosis). PNF has dramatic effects on patient morbidity and mortality, necessitating prolonged and expensive stays in intensive care units, and re-transplantation is the only life-saving therapy in patients with failing liver grafts due to PNF. This further exerts greater burden on the already scarce donor organ pool. Furthermore, biliary strictures and ischemic cholangiopathy, as a result of severe ischemia reperfusion injury, cause prolonged hospital stay, long-term complications, and increased costs. Targeted treatments, such as the one proposed in this application, will reduce the need for re-transplantation, reduce biliary injury, and potentially increase the number of donor organs available.

Detailed Description

Liver transplantation is the sole therapy for end-stage liver diseases in children and adults. However, use of this life-saving technique is limited due to a severe shortage of donor livers and, consequently, over 1500 patients/year on waiting lists die prior to transplantation due to organ shortages. Also, poor immediate graft function remains a persistent problem especially in recipients of marginal livers, and biliary strictures evolving from reperfusion injury cause prolonged hospital stay, increased health care costs, and increased mortality. Furthermore, hepatic cold storage and reperfusion in transplantation settings cause mitochondrial dysfunction in liver cells, which constitutes a great risk for primary nonfunction and initial poor function after liver transplantation. The tetracycline derivative minocycline is a safe and widely used antibiotic that possesses cytoprotective effects through prevention of mitochondrial dysfunction in a variety of disease models. Recently, we showed that minocycline also protects against graft dysfunction and failure after orthotopic rat liver transplantation and against cell death after ischemia-reperfusion to cultured rat hepatocytes. Minocycline treatment specifically prevented mitochondrial dysfunction and increased graft and animal survival by blocking necrotic and apoptotic death pathways. Clinical studies indicating severe deterioration of mitochondrial function in livers during preservation provide a strong impetus to investigate minocycline as an effective agent to decrease injury and improve graft function after human clinical transplantation.

Study Design

Outcome Measures

Primary Outcome Measures

1. AST [6 month]

   AST is the primary endpoint our study is powered to detect. Peak AST >1500 IU/L is associated with clinical sequel of IRI such as severe graft dysfunction and complications.

Eligibility Criteria

Criteria

Inclusion Criteria:

• All adult primary transplant recipients of solitary orthotopic liver transplants are considered for this study

Exclusion Criteria:

• Pediatric patients, fulminant hepatic failures, split livers, living donor liver transplants, multiple organs, known tetracycline hypersensitivity, and re-transplant patients are excluded.

Contacts and Locations

Locations

Sponsors and Collaborators

• Medical University of South Carolina

Investigators

• Principal Investigator: Kenneth Chavin, MD, PhD, Medical University of South Carolina

Study Documents (Full-Text)

More Information

Publications