View clinical trials related to Hepatotoxicity.
Filter by:Acute lymphoblastic leukemia (ALL) is the most common cancer seen in pediatric oncology. The necessary chemotherapy for pediatric and adolescent and young adult (AYA) patients with ALL includes steroids, anthracyclines, asparaginase, and vincristine. One of the most hepatotoxic chemotherapy agents is asparaginase, with treatment-associated hepatotoxicity (TAH) observed in up to 60% of patients. The frequency of TAH is increased in overweight or obese patients of Latino heritage. Carnitine is a naturally-derived compound that is produced in the liver and kidneys; it is found in certain foods, such as meat, poultry, fish, and some dairy products. Endogenous carnitine transports long-chain fatty acids into the mitochondria, where they are oxidized to produce energy, and acts as scavengers of oxygen free radicals. Thus, carnitine can reduce oxidative stress and modulate inflammatory response. Levocarnitine is a supplement form of carnitine used typically in the care and management of patients with carnitine deficiency. Pediatric and AYAs with ALL will be given oral levocarnitine as a supplement during their initial phases of treatment, when the most hepatotoxic agents are administered, to determine if the incidence of liver toxicity can be reduced or eliminated.
A study to evaluate the long-term risk of hepatic failure with TURALIO™ (pexidartinib) and the mechanism of liver injury based upon liver biopsy information among patients who received or are receiving TURALIO™ (pexidartinib) and experience hepatotoxicity.
Paracetamol (acetaminophen, APAP) is the most commonly used antipyretic and painkiller worldwide, but also the leading cause of acute liver failure (ALF) in developed countries after supra-therapeutic doses (half overdoses being unintentional). At therapeutic doses (4g/day), up to one third of healthy volunteers develop liver test elevation and cases of ALF have been described in the presence of suggested risk factors such as malnutrition, fasting and low body weight as a result of glutathione depletion. However, no well conducted study has aimed to prospectively assess the impact of malnutrition/fasting on the toxicity to therapeutic doses of APAP. Considering the widespread use of APAP and the prevalence of malnutrition in hospitalized patients (up to 30%), it is of crucial importance to assess whether these patients are at higher risk of hepatotoxicity. It is indeed likely that cases of liver damage secondary to normal recommended dose are under-estimated in these situations as the dose is not perceived as excessive and not described as such in international guidelines for pain management. The primary objective of our project will therefore be to assess if malnutrition and fasting are risk factors for liver toxicity after therapeutic doses (4g/day) of APAP in surgery patients. The second objective will be to evaluate the pharmacokinetics of APAP and metabolites according to nutrition status in order to establish, if necessary, dose reduction guidelines. Developing and validating an early and easily accessible marker of hepatotoxicity would especially be useful in these putative higher risk and fragile populations in order to improve early detection diagnosis and allow earlier management.
To improve the treatment outcome in patients with tuberculosis and integrate the pharmacogenetics into clinical practice, the information of NAT2 genotyping was used in re-challenge protocol for isoniazid (INH) titration in patients with anti-tuberculosis medication-induced hepatitis.
Apply the information of NAT2 genotyping into the re-challenge protocol of INH titration in patients with anti-TB medication induced hepatitis.