[en] OBJECTIVE: To report a case of chronic ingestion of very large amounts of senna fruits as an herbal tea, possibly leading to severe hepatotoxicity. CASE SUMMARY: A 52-year-old woman who had ingested, for > 3 years, one liter of an herbal tea each day made from a bag containing 70 g of dry senna fruits, developed acute hepatic failure and renal impairment requiring intensive care therapy. The severity of the hepatic failure was reflected by the increase in prothrombin time (international normalized ratio > 7) and the development of encephalopathy. Liver transplantation was discussed, but the patient ultimately recovered with supportive therapy. Renal impairment was consistent with proximal tubular acidosis, also with marked polyuria refractory to vasopressin administration. Suprisingly, large amounts of cadmium were transiently recovered in the urine. DISCUSSION: Cassia acutifolia and angustifolia plants are widely used as laxatives. Their chronic abuse may be associated with serious manifestations, including fluid and electrolyte loss, with chronic diarrhea. Severe hepatotoxicity is unusual, but could be explained by the exposure of the liver to unusual amounts of toxic metabolites of anthraquinone glycosides (sennosides). An objective causality assessment suggests that hepatotoxicity was possibly related to senna laxative abuse. Regarding nephrotoxicity, there are no available human data on sennosides, while experimental models suggest that anthraquinone derivatives may also accumulate in the kidneys. The finding of high urinary concentrations of cadmium would suggest contamination of the herbal tea by metals, but this hypothesis could not be verified. CONCLUSIONS: Ingestion of large doses of senna laxatives may expose people to the risk of hepatotoxicity.
Disciplines :
Pharmacy, pharmacology & toxicology
Author, co-author :
Vanderperren, Bénédicte; Université Catholique de Louvain - UCL
Rizzo, Michela; Cliniques Saint-Luc
Angenot, Luc ; Université de Liège - ULiège > Département de pharmacie > Pharmacognosie
Haufroid, Vincent; Cliniques Saint-Luc
Jadoul, Michel; Cliniques Saint-Luc
Hantson, Philippe; Cliniques Saint-Luc
Language :
English
Title :
Acute liver failure with renal impairment related to the abuse of senna anthraquinone glycosides
Whiting PW, Clouston A, Kerlin P. Black cohosh and other herbal remedies associated with acute hepatitis. Med J Aust 2002;177:440-3.
Stickel F, Seitz HK, Hahn EG, Schuppan D. [Liver toxicity of drugs of plant origin] German. Z Gastroenterol 2001;39:225-32, 234-7.
Chitturi S, Farrell G. Herbal hepatotoxicity: an expanding but poorly defined problem. J Gastroenterol Hepatol 2000;15:1093-9.
World Health Organization, Water Sanitation and Health. www.who. int/water_sanitation_health/dwq/en/ (accessed 2005 May 26).
Stedman C. Herbal hepatotoxicity. In: Hepatotoxicity in the twenty-first century. Semin Liver Dis 2002;22:195-206.
Clouatre DL. Kava kava: examining new reports of toxicity. Toxicol Lett 2004;150:85-96.
Kane JA, Kane SP, Jain S. Hepatitis induced by traditional Chinese herbs; possible toxic components. Gut 1995;36:146-7.
Bruneton J. Pharmacognosy, phytochemistry, medicinal plants. Paris: Edition Technique and Documentation-Lavoisier, 1995:349-58.
Monographs 01/2005:0207, 208 on Senna fruits. In: European pharmacopoeia. 5th ed., Strasbourg: Council of Europe, 2004.
Fructis sennae. In: WHO monographs on selected medicinal plants. Vol. 1. Geneva: World Health Organization, 1999, 250-8.
Sennae fructus angustifoliae-Tinnevelly senna pods. In: E/S/C/O/P Monographs. 2nd ed. New York: The Scientific Foundation for Herbal Medicine Products, 2003, 470-6.
Krumbiegel G, Schulz HU. Rhein and aloe-emodin kinetics from senna laxatives in man. Pharmacology 1993;47(suppl 1):120-4.
Lang W. Pharmacokinetics of 14C-labelled rhein in rats. Pharmacology 1998;36(suppl 1):158-71.
Wittoesch JHR, Jackman RJ, McDonald JR. Melanosis coli: general review and study of 887 cases. Dis Colon Rect 1958;1:172-80.
Cooke TW. Laxative abuse. Acta Gastro Ent Belg 1981;44:448-58.
Naranjo CA, Busto U, Sellers EM, Sandor P, Ruiz I, Roberts EA, et al. A method for estimating the probability of adverse drug reactions. Clin Pharmacol Ther 1981;30:239-45.
Chanwai L. Kava toxicity. Emerg Med 2000;2:142-5.
Beuers U, Spengler U, Pape GR. Hepatitis after chronic use of senna. Lancet 1991;337:372-3.
Seybold U, Landauer N, Hillebrand S, Goebel FD. Ann Intern Med 2004;141:650-1.
Tolman KG, Hammar S, Sanella JJ. Possible hepatotoxicity of Doxidan. Ann Intern Med 1976;84:290-2.
Mori H, Sugie S, Niwa K, Takahashi M, Kawai K. Induction of intestinal tumours in rats by chrysazin. Br J Cancer 1985;52:781-3.
Mori H, Sugie S, Niwa K, Yoshimi N, Tanaka T, Hirono I. Carcinogenicity of chrysazin in large intestine and liver of mice. Jpn J Cancer Res 1986;77:871-6.
Tasaka AC, Weg R, Galore EE, Sinhorini IL, Dagli ML, Haraguchi M, et al. Toxicity testing of Senna occidentalis seed in rabbits. Vet Res Commun 2000;24:573-82.
Bachmann M, Schlatter CV. Metabolism of 14C-emodin in the rat. Xenobiotica 1981;11:217-25.
Adam SE, Al-Yahya MA, Al-Farhan AH. Combined toxicity of Cassia senna and Citrullus colocynthis in rats. Vet Hum Toxicol 2001;43:70-2.
Rodriguez Soriano J. Renal tubular acidosis: the clinical entity. J Am Soc Nephrol 2002;13:2160-70.
Pramoolsinsap C, Promvanit N, Kurathong S. Serum trace metals in patients with acute hepatitis B. Southeast Asian J Trop Public Health 1996;27:476-80.
Steenkamp V, von Arb M, Stewart MJ. Metal concentrations in plants and urine from patients treated with traditional remedies. Forensic Sci Int 2000;114:89-95.
Klaassen CD, Liu J. Role of metallothionein in cadmium-induced hepatotoxicity and nephrotoxicity. Drug Metab Rev 1997;29:79-102.
