Your search keyword '"Rikker C"' showing total 2 results

1. [Liver support systems today].

Author

Rikker C

Subjects

Albumins metabolism, Extracorporeal Circulation, Humans, Liver Failure physiopathology, Liver Failure surgery, Liver Transplantation, Liver, Artificial, Plasmapheresis methods, Renal Dialysis methods, Sorption Detoxification methods, Liver Failure therapy

Abstract

Liver failure carries a high mortality, both the acute type with no pre-existing liver disease (acute liver failure) and the acute decompensation superimposed on a chronic liver disorder (acute on chronic liver failure). Today, liver transplantation still represents the only curative treatment for liver failure due to end-stage liver diseases. Donor organ shortage is still the major limitation and many patients die while awaiting transplantation. Due to the scarcity of donor organs, liver support technologies are being developed to support patients with severe liver failure until either an organ becomes available for transplantation or their livers recover from injury. Early devices including hemodialysis, hemoperfusion, exchange transfusion, cross-hemodialysis, cross-circulation and plasmapheresis appeared inefficient. In the present day, liver support systems' designs fall into two main categories: cell-based, so-called bioartificial and non-cell-based, also known as artificial systems. Bioartificial liver support systems use either porcine hepatocytes or human hepatoma cell lines housed within a hollow-fiber bioreactor. The system perfuses the patient's whole blood or separated plasma through the luminal space in the bioreactor. Theoretically, these methods should optimally resemble normal hepatic tissue structure and function. However, the existing bioartificial systems are far from ideal solution in terms of immunological, infectological, oncological and financial problems and must still be thought of as experimental. The artificial systems are already available for the clinicians in limited quantities. These non-cell-based devices are intended to remove protein-bound and water-soluble toxins without providing synthetic function, which can be partially replaced with substitution of the failing substances (plasma proteins, coagulation factors). These systems include the hemodiabsorption (Liver Dialysis Unit) which is commercially available in the United States, the albumin dialysis which is available in Europe and the newly developed fractionated plasma separation and adsorption (FPSA) system. The simple method of albumin dialysis is "single pass albumin dialysis" (SPAD), which evolved into the so-called "molecular adsorbent recirculating system"(MARS). Prometheus system combines the FPSA method with high-flux hemodialysis. Although the results of many experimental and clinical trials prove the efficacy of the above mentioned methods, large randomized controlled trials are mandatory to establish the impact on survival benefit of artificial and bioartificial support systems versus standard therapy.

Published

2009

2. [Therapeutic effect of the latest extracorporal elimination procedure (Prometheus treatment) in acute liver failure caused by intoxication].

Author

Bakos A, Rikker C, Tóvárosi S, and Kárteszi M

Subjects

Acetaminophen toxicity, Adult, Amanita, Female, Humans, Liver Failure, Acute blood, Liver Failure, Acute physiopathology, Liver Regeneration, Liver, Artificial, Membranes, Artificial, Mushroom Poisoning complications, Potassium Permanganate toxicity, Hemadsorption, Liver Failure, Acute chemically induced, Liver Failure, Acute therapy, Plasmapheresis, Renal Dialysis instrumentation, Sorption Detoxification methods

Abstract

Introduction: Despite intensive therapy the mortality of acute liver failure without organ transplantation is 60-90%. Because of organ shortage in liver transplantation, a significant number of patients dies while being on the waiting list. In order to diminish the mortality, various trials were introduced to remove the albumin-bound and water-soluble toxins in liver failure with the aim to support the spontaneous regeneration of the liver and maintaining the patients alive until liver transplantation. Prometheus treatment is a relatively new technique combining Fractionated Plasma Separation and Adsorption (FPSA) with a high-flux dialysis. During the procedure the patient's own separated albumin-rich plasma passes through special adsorbents making possible the elimination of albumin-bound toxins, while hemodialysis gets rid of water-soluble toxins., Aim: The authors' intention was to demonstrate the efficiency of Prometheus treatment in acute liver failure caused by intoxication., Patients and Method: Prometheus treatment was indicated in three patients who suffered from severe intoxication with paracetamol, potassium permanganate and Amanita phalloides, which resulted in a hepatic failure incurable with conservative therapy., Results: Ten treatments were performed in the three female patients. No serious complication was observed. Due to the treatment the albumin-bound (indirect bilirubin p = 0.048; bile acid p = 0.001) and water-soluble (direct bilirubin p = 0.002; creatinine p = 0.007) toxins were significantly decreased. The level of ammonia, urea nitrogen, fibrinogen and antithrombin III did not change significantly. All the three patients were cured without liver transplantation., Conclusion: Prometheus treatment removes efficiently the accumulating toxins in acute liver failure. It is a safe elimination technique. In cases untreatable with conservative therapy it makes possible maintaining the patients alive until the liver regenerates spontaneously, or liver transplantation is feasible.

Published

2007