AI Article Synopsis
- Approximately 90% of patients with fulminant hepatic failure die without a liver transplant, highlighting the urgent need for a liver support system during the wait for donor organs.
- Researchers have developed an artificial liver system that efficiently removes both hydrophilic and lipophilic toxins from the blood, including harmful substances typically elevated in liver failure.
- In over 100 in vitro experiments and subsequent animal trials with pigs, the system demonstrated a strong ability to eliminate key toxins without adversely affecting blood parameters.
Article Abstract
Without transplantation, approximately 90% of patients with fulminant hepatic failure die. If patients receive a liver transplant, there is often a lag between the need for and the availability of a donor liver. Therefore, there is a definite need for a liver support system to support the patient's own liver function in fulminant hepatic failure and while awaiting transplantation. We have developed an artificial liver system that not only eliminates lipophilic toxins such as phenols, fatty acids, and mercaptans, but also hydrophilic ones such as ammonia. This artificial liver system consists of a monitor, an extracorporeal blood circuit that uses a hydrophilic polysulfone high-flux dialyzer to remove water-soluble metabolites, and a novel hydrophilic liquid membrane filter to remove lipophilic toxins. In more than 100 in vitro experiments using porcine (5 I) blood, the system was evaluated for its ability to remove toxins that are normally increased in hepatic failure. We found that phenol, cresol, and short- and medium-chain fatty acids can be almost completely eliminated from the blood within 5 h. In animal experiments using pigs, we also found no significant changes of blood gases, liver parameters, electrolytes, and blood cell counts.
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| http://dx.doi.org/10.1111/j.1525-1594.1992.tb00303.x | DOI Listing |
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