UMLS:C0042963 - FACTA Search

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A 52-year-old female was hospitalized with malaise, pruritus, jaundice, abdominal discomfort and vomiting. For 20 weeks she had been taking enalapril (Reniten) for hypertension. Serum aminotransferases and bilirubin were highly elevated with prolonged thromboplastin time. There was no evidence for extrahepatic cholestasis in ultrasonography. Serological investigations for a viral etiology of the liver failure were negative and the patient had no risk factors for viral hepatitis or exposure to hepatotoxic substances. Liver puncture revealed hepatitis of the fulminant viral hepatitis type, a picture that can be seen in a drug-induced hepatitis. The complete recovery of liver function after cessation of enalapril administration suggests acute toxic hepatitis due to enalapril. A metabolically mediated idiosyncratic reaction is the most plausible. Potential mechanisms of enalapril-induced hepatotoxicity are discussed and the current literature is surveyed.
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PMID:[Enalapril (Reniten)-associated toxic hepatitis]. 806 14

Most cases of acute hepatitis are caused by hepatitis viruses A, B or C. Diagnosis rests on the risk factor history and serological tests. In seronegative cases, consider other agents, such as Epstein-Barr virus and cytomegalovirus, drug reactions and autoimmune hepatitis. Hepatitis A and B can be prevented by appropriate use of highly effective, safe vaccines. Acute liver failure is an uncommon, devastating complication of acute viral hepatitis; continued vomiting, prolongation of prothrombin time and clouding of consciousness are indications for urgent transfer to a liver transplant unit. Hepatitis A is a simple, enterically transmitted illness that does not cause chronic hepatitis. 95% of adults recover from acute hepatitis B, whereas infection with hepatitis B virus acquired in childhood usually becomes chronic.
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PMID:Acute viral hepatitis. 964 Mar 8

Our article concentrates on two acute states, which develop less dramatically but their after-effects may be very serious: Spontaneous bacterial peritonitis and Ogilvie's syndrome. Spontaneous bacterial peritonitis is a bacterial infection of the ascitic fluid without any intraperitoneal source of infection. Ascites is a condition of the disease but need not be clinically manifested. Spontaneous bacterial peritonitis comes usually during heavy hepatic impairment. Diagnosis can be set according: 1. Positive cultivation of ascitic fluid, 2. PMN levels higher than 250/mm3, 3. No infection, which may require a surgical intervention is apparent. Liver disease, which brings about the spontaneous bacterial peritonitis can be: 1. Chronic (e.g. alcoholic cirrhosis), 2. Subacute (e.g. alcoholic hepatitis), 3. Acute (e.g. fulminant hepatic failure). Mortality of this form of peritonitis can reach up to 46%. The most frequent etiological factor is alcohol and viral hepatitis, the most frequent agents are E. coli and Klebsiella pneumoniae. The disease is most effectively cured by cefalosporins of the third generation. With inadequate treatment, prognosis may be poor. Intestinal pseudoobstruction syndrome has clinical symptomatology of a serious impairment with ileus without signs of any mechanical intestinal obstruction. Syndrome can be classified according to its development: 1. Acute form--acute intestinal pseudoobstruction syndrome--Ogilvie's syndrome, 2. Chronic form--chronic intestinal pseudoobstruction syndrome. Pathogenic mechanism of the syndrome is not known. The disease is related to immobility, administration of some drugs, electrolyte imbalance and concomitant diseases (most frequently malignant tumors). Clinical symptomatology dominates nausea, vomiting, diffuse abdominal pain, constipation or diarrhoea. For diagnostics the first step should be termination of all medication, which could have causing affects, then taking native abdominal X-ray picture where gaseous intestinal distension can be prominent (coecum distended up to 9-12 cm). Identification of fluid surfaces is not usual. Endoscopic examination can exclude obstruction in the distal part of gut minimally. The most frequent complication is perforation of coecum. Pharmacological treatment relays on prokinetics. The basic intervention remains decompression by a rectal catheter or an effective coloscopic decompression with subsequent introduction of a cannula. Mortality of the disease fluctuates between 43 and 46%.
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PMID:[Acute states in gastroenterology: spontaneous bacterial peritonitis and the acute intestinal pseudoobstruction syndrome]. 1150 91

Complications of oral contraceptives (OCs) affecting the gastrointestinal tract, liver and pancreas are rare but potentially serious. Hepatobiliary complications are by far the most frequent and varied. Hepatic lesions will probably decline in frequency as low-dose OCs replace higher dosed pills. Intrahepatic cholestasis induced by OCs resembles that of pregnancy. There may be a genetic predisposition to both conditions involving a dose-dependent estrogen effect of decreasing bile secretion. Intrahepatic cholestasis appears within 6 cycles of OC use. Symptoms include pruritus with anorexia, asthenia, vomiting, and weight loss without fever, rash or abdominal pain. Termination of OCs clears the condition without sequelae within 1-3 months, sometimes after a temporary aggravation. A moderate and asymptomatic cytolysis may appear when OC treatment is begun. Sinusoidal dilatation has been conclusively linked to OCs although few cases have been published. Clinical manifestations other than hepatomegaly are variable. Abdominal pain and fever are the most common. The condition is not related to duration of use and disappears 5-15 days after OC use is terminated. The relative risk of Budd-Chiari syndrome in OC users is estimated at 2.37. OCs increase the prevalence of hepatic adenomas as a function of duration of treatment. They are usually discovered fortuitously but may be revealed by vague abdominal pains. Hemorrhagic complications are more likely in OC users. It may be difficult to distinguish between adenomas, hepatocellular carcinoma, and focal nodular hyperplasia. A puncture biopsy guided by sonography may aid diagnosis. The natural history of adenomas is poorly understood and treatment remains controversial. OCs do not appear to increase the risk of focal nodular hyperplasia but they increase the size of the tumor and the risk of hemorrhage. OCs should be terminated because of risk of hemorrhage. Surgical resection is not indicated unless there are complication or diagnostic doubts. While hepatocellular carcinoma is very rare, its risk is increased by a factor of 7-20 in women using OCs for 8 years or more. Use of combined OCs appears to speed development of lithiasis in predisposed women. Risk of lithiasis is linked to estrogen content in women under 30. Several cases of acute pancreatitis in the 1st 3 months of treatment have been reported in women with preexisting lipid metabolic anomalies. Cases of ischemic lesions of the small intestine or colon have been reported in OC users with A positive blood type. Such lesions can be fatal without early diagnosis and termination of OCs. Gastric esophageal reflux is increased by progestins. Preexisting constipation may be aggravated and the incidence of Crohn's disease increased by OCs. It is advisable to rule out preexisting hepatic pathology before prescribing OCs. OCs should be stopped in case of viral hepatitis.
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PMID:[Contraception and hepatogastroenterology]. 1231 76

Viral hepatitides are common diseases of modern man in both industrialized and developing countries, with a varying prevalence of particular types and mode of transmission. In current medicine, viral hepatitides are classified in the A-E nomenclature, differentiating viruses that can be etiologically defined with certainty on the basis of serum markers and hepatitides exhibiting all clinical and laboratory characteristics of viral hepatitis but of as yet nondemonstrable causative agents, classified in the non-A, non-E hepatitis group. Two issues are of high relevance in the pathogenesis of viral hepatitides: route of transmission (fecal-oral or parenteral) and basic mechanism of hepatocyte lesion. Although all hepatitis viruses replicate within the hepatocyte, the exact mechanism of hepatocyte necrosis has not yet been fully elucidated, i.e. direct cytotoxicity or hepatoprogressive immune response mediated primarily by the specific cytotoxic CD8 lymphocytes. Depending on the site of entry, the virus replicates in the adjacent lymphatic tissue for some time, followed by primary viremia, virus replication in the lymphoreticular organs (lymph nodes, liver, spleen), and eventual entry in the target cells--hepatocytes, accompanied by a varying grade of necrosis and inflammatory reaction. The clinical and laboratory signs of the disease correspond to the degree of liver necrosis and are not specific for particular types of viral hepatitis. The most frequent symptoms common to all types of viral hepatitis of moderate severity include elevated body temperature persisting for days, fatigue, gradual loss of appetite, nausea, dull pain and discomfort on DRL, vomiting, multiple loose stools, dark urine, jaundice of the skin and mucosa, and light stools. Generally, the ultimate outcome of the disease is elimination of the virus and complete recovery, however, a fulminant course with lethal outcome or transition to chronic disease may also occur, making viral hepatitides a major public health problem worldwide. In classical infectology, four clinical stages of the disease have been described: incubation or preclinical stage characterized by intensive virus replication; prodromal or preicteric stage with pronounced general symptoms of infection; icteric stage; and stage of recovery. The stages may show great interindividual variation in length and severity. The development of molecular technologies over the last decade has greatly contributed to better understanding of the pathogenesis of viral hepatitides and allowed for appropriate monitoring of the effect of antiviral therapy. However, major disadvantage of these tests is their high cost. The basic clinical characteristics of and diagnostic options for particular types of viral hepatitis are described, with special reference to the latest important concepts on the disease pathogenesis.
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PMID:[Clinical aspects and diagnosis of viral hepatitis]. 1458 62

We retrospectively reviewed 34 consecutive patients with serologically confirmed leptospirosis admitted during years 1992-2002. Nine patients (26.5%) had respiratory symptoms on admission including cough (n = 4), shortness of breath (n = 4), cyanosis (n = 2), and hemoptysis (n = 1). Six patients had pulmonary radiographic findings including (1) diffuse, ill-defined, ground-glass density (n = 3); (2) diffuse alveolar opacities (n = 2); and (3) small nodular density (n = 1). Male/female ratio was 8/1 and mean age was 47 years. Seven patients reported their exposure source including hunting (n = 2), fishing (n = 2), fresh water swimming (n = 2), and canoeing (n = 1). All patients had fever (mean = 40.1 degrees C). Other common symptoms were headache (n = 4), vomiting (n = 3), and myalgia (n = 3). Biological abnormalities included elevated liver enzymes (n = 8), proteinuria (n = 7), lymphopenia (n = 6), hematuria (n = 5), renal failure (n = 4), anemia (n = 4), and elevated neutrophil count (n = 4). PaO(2 )was measured for 3 patients while they were breathing room air (32, 55, and 66 mmHg). Suspected diagnosis on admission included leptospirosis (n = 2), bacterial pneumonia (n = 2), intoxication, influenza, viral hepatitis, biliary tract lithiasis, and rapidly progressive glomerulonephritis (one patient each). The first serologic testing for leptospirosis was positive for 5 patients (55%). Serovar was presumptively identified for 7 patients: Australis (n = 3), Grippotyphosa (n = 2), and Icterohaemorrhagiae (n = 2). Seven patients were treated with penicillin; two patients received no antibiotics. All patients were cured. In conclusion, patients with leptospirosis may present predominantly with nonspecific pulmonary symptoms. In these patients, leptospirosis must be suspected when there is a potential exposure to rats, especially in case of high-grade fever, myalgia, hepatitis, and renal abnormalities.
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PMID:Respiratory manifestations of leptospirosis: a retrospective study. 1621 64

Abnormal liver tests occur in 3%-5% of pregnancies, with many potential causes, including coincidental liver disease (most commonly viral hepatitis or gallstones) and underlying chronic liver disease. However, most liver dysfunction in pregnancy is pregnancy-related and caused by 1 of the 5 liver diseases unique to the pregnant state: these fall into 2 main categories depending on their association with or without preeclampsia. The preeclampsia-associated liver diseases are preeclampsia itself, the hemolysis (H), elevated liver tests (EL), and low platelet count (LP) (HELLP) syndrome, and acute fatty liver of pregnancy. Hyperemesis gravidarum and intrahepatic cholestasis of pregnancy have no relationship to preeclampsia. Although still enigmatic, there have been recent interesting advances in understanding of these unique pregnancy-related liver diseases. Hyperemesis gravidarum is intractable, dehydrating vomiting in the first trimester of pregnancy; 50% of patients with this condition have liver dysfunction. Intrahepatic cholestasis of pregnancy is pruritus and elevated bile acids in the second half of pregnancy, accompanied by high levels of aminotransferases and mild jaundice. Maternal management is symptomatic with ursodeoxycholic acid; for the fetus, however, this is a high-risk pregnancy requiring close fetal monitoring and early delivery. Severe preeclampsia itself is the commonest cause of hepatic tenderness and liver dysfunction in pregnancy, and 2%-12% of cases are further complicated by hemolysis (H), elevated liver tests (EL), and low platelet count (LP)-the HELLP syndrome. Immediate delivery is the only definitive therapy, but many maternal complications can occur, including abruptio placentae, renal failure, subcapsular hematomas, and hepatic rupture. Acute fatty liver of pregnancy is a sudden catastrophic illness occurring almost exclusively in the third trimester; microvesicular fatty infiltration of hepatocytes causes acute liver failure with coagulopathy and encephalopathy. Early diagnosis and immediate delivery are essential for maternal and fetal survival.
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PMID:Liver disease in pregnancy. 1826 10

A 31-year-old man admitted with abdominal pain, nauseas, vomiting, jaundice and fever that had began 2 weeks before. He had a history of hyperthyroidism and an irregular treatment with propylthiouracil (PTU) for 2 years. He had stopped PTU when the current symptoms started. The patient presented diffuse goiter, about 120g, FT4 22.7 ng/dL (N: 0.8 - 1.9 ng/dL); THS < 0.002 microUI/mL (N 0.4-5 microUI/mL). Transaminases, serum total and direct bilirubins were increased. He was kept without PTU and propranolol was started and increased until the dose of 480 mg/day. Abdominal ultrasonography was normal and serologic markers for hepatitis A, B and C pointed to acute virus B hepatitis. The patient presented a worse of hepatic function and elevated thyroid hormones levels. To avoid the future need of antithyroid drugs, to get a fast normalization of thyroid hormones levels and because of the goiter size thyroidectomy was recommended. The patient underwent one therapeutic plasmapheresis session just before the surgery. A total thyroidectomy was performed without complications. At the 5th day after surgery the patient presented improvement of hepatic function and low FT4 serum levels. We concluded that preexisting hyperthyroidism may aggravate or perpetuate a hepatic failure caused for acute viral hepatitis and plasmapheresis is a rapid, reliable and effective way to lower thyroid hormones serum levels, allowing a successful thyroidectomy in patients with severe thyrotoxicosis.
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PMID:[Acute hepatic failure in a patient with hyperthyroidism and virus B hepatitis: recovery after plasmapheresis and thyroidectomy--a case report]. 1850 84

Abnormal liver function tests occur in 3 - 5% of pregnancies for different reasons. Apart from pre-existing liver diseases liver diseases occurring during pregnancy, such as gall stones or viral hepatitis, most liver dysfunctions in pregnancy are caused by one of the five pregnancy-related liver diseases. The five known pregnancy-related liver diseases can be classified in two main categories depending on their association with or without preeclampsia. The preeclampsia-associated liver diseases are the preeclampsia itself, the HELLP-syndrome ("Hemolysis" (H), "Elevated Liver Tests" (EL), "Low Platelet Count" (LP)) and the acute fatty liver of pregnancy. Hyperemesis gravidarum and intrahepatic cholestasis of pregnancy are not associated with preeclampsia. Hyperemesis gravidarum is characterised by intractable vomiting in the first trimester of pregnancy. 50% of patients with this condition have liver dysfunction. Intrahepatic cholestasis of pregnancy presents with pruritus and elevated bile acids in the second half of pregnancy. Patients have often mild jaundice and highly elevated liver enzymes. Treatment of choice is ursodeoxycholic acid to relieve the mother's symptoms. With this condition mainly the fetus is at risk. Severe preeclampsia is the most common cause of liver dysfunction in pregnancy, and is in some cases further complicated by HELLP syndrome. The prompt delivery of the baby is the only definitive therapy. However, many life-threatening maternal complications like liver hematoma or rupture and abruptio placentae can occur. Acute fatty liver of pregnancy is also a severe illness occuring mostly in the third trimester; microvesicular fat deposition in the liver can cause liver failure with coagulopathy and encephalopathy. Only the immediate delivery of the fetus can save mother and child.
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PMID:[Liver diseases in pregnancy]. 1894 56

Albendazole binds to parasite's tubulin inhibiting its glucose absorption. Its common adverse effects are nausea, vomiting, constipation, thirst, dizziness, headache, hair loss and pruritus. Although mainly metabolized in the liver, abnormal liver function tests were a rare adverse effect during clinical trials and we found no literature about albendazole-induced hepatitis requiring admission. This patient had a previous history of albendazole ingestion in 2002 resulting in increase of liver function tests. And in 2005, the episode repeated. We evaluated the patient for viral hepatitis, alcoholic liver disease, and autoimmune hepatitis, but no other cause of hepatic injury could be found. Liver biopsy showed periportal steatosis and periportal necrosis. The initial abnormal liver function test improved only with supportive care. These findings and the Roussel Uclaf Causality Assessment Method of the Council for International Organizations of Medical Sciences (RUCAM/CIOMS) score of 9 are compatible with drug-induced hepatitis so we report the case of this patient with a review of the literature.
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PMID:Acute drug-induced hepatitis caused by albendazole. 1895 2

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