Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030305 (pancreatitis)
 16,014 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We evaluated the usefulness of continuous regional arterial infusion (CRAI) of protease inhibitors and antibiotics in 156 patients with acute necrotizing pancreatitis (ANP) collected in a cooperative survey carried out in 1997 in Japan. The overall mortality rate was 18.6%, and the frequency of infected pancreatic necrosis was 12.8%. There was no significant difference in mortality rates between patients who received the protease inhibitor via CRAI and the antibiotics intravenously (group A) and patients who received both the protease inhibitor and the antibiotics via CRAI (group B), but the frequency of infected pancreatic necrosis was significantly lower in group B (7.6%) than in group A (23.5%). The mortality rate in patients in whom CRAI therapy was initiated within 48 h after the onset of ANP (11.9%) was significantly lower than that in patients in whom CRAI therapy was initiated more than 48 h after the onset (23.6%). These results suggested that CRAI of both protease inhibitors and antibiotics was effective in reducing mortality and preventing the development of pancreatic infection in ANP when initiated within 48 h after the onset of ANP.
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PMID:Continuous regional arterial infusion (CRAI) therapy reduces the mortality rate of acute necrotizing pancreatitis: results of a cooperative survey in Japan. 1145 82

The recent genetic discoveries in CP support the hypothesis that inappropriate intrapancreatic activation of zymogens by trypsin results in autodigestion and pancreatitis. Two different protective mechanisms prevent activation of the pancreatic digestive enzyme cascade. First, SPINK1 inhibits up to 20% of potential trypsin activity and, second, trypsin itself activates trypsin-like enzymes readily degrading trypsinogen and other zymogens. Pancreatitis may therefore be the result of an imbalance between proteases and their inhibitors within the pancreatic parenchyma. The discovery of PRSS1 mutations in families with CP was the first breakthrough in the understanding of the underlying genetic mechanisms. Enhanced trypsinogen activation may be the common initiating step in pancreatitis caused by these mutations. The discovery of SPINK1 mutations underlines the importance of the protease inhibitor system in the pathogenesis of CP. Thus, gain-of-function in the cationic trypsinogen resulting in an enhanced autoactivation, or loss-of-function mutations in SPINK1 leading to decreased inhibitory capacity, may similarly disturb the delicate intrapancreatic balance of proteases and their inhibitors. The recent findings of SPINK1, CFTR, and PRSS1 mutations in CP patients without a family history have challenged the concept of idiopathic CP as a non-genetic disorder and the differentiation between HP and ICP. There is a clear mode of autosomal dominant inheritance for some mutations (R122H, N291, possibly MIT), whereas the inheritance pattern (autosomal recessive, complex, or modifying) of other mutations (A16V, N34S) is controverted or unknown. The lack of mutations in the above-mentioned genes in many patients suggests that CP may also be caused by genetic alterations in yet unidentified genes. Evaluation of CP patients without an obvious predisposing factor, e.g. alcohol abuse, should include genetic testing even in the absence of a family history of pancreatitis. Finally, identification of further disease-causing genes will create a better understanding of pathogenesis and may help to develop specific preventive and therapeutic strategies.
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PMID:Genetic aspects of chronic pancreatitis: insights into aetiopathogenesis and clinical implications. 1177 91

Three categories of highly active antiretroviral therapy (HAART)-associated major toxic effects have been identified: nucleoside-related toxic effects (e.g., neuropathy, myopathy, pancreatitis, hepatic steatosis, lactic acidosis, and possibly lipoatrophy), metabolic complications (e.g., fat redistribution, insulin resistance, and hyperlipidemia), and bone disease (e.g., osteopenia and/or osteoporosis). The toxic effects caused by nucleosides are hypothesized to be a result of mitochondrial injury and include myopathy, pancreatitis, liver failure, and lactic acidosis. Alterations in lactic acid metabolism range from common instances of asymptomatic lactic acidemia to rare occurrences of life-threatening lactic acidosis with hepatic steatosis. A metabolic syndrome consisting of lipodystrophy (i.e., fat redistribution), hyperlipidemia and insulin resistance has been observed, particularly with protease inhibitor treatment. Some additive interaction between protease inhibitors and nucleosides has also been described. The potential relationship of these metabolic abnormalities to increased risk of cardiovascular disease and diabetes has broad implications on long-term patient management. Lipodystrophy associated with HAART is generally accompanied by potentially serious abnormalities, including dyslipidemia (i.e., hypercholesterolemia and hypertriglyceridemia) and altered glucose metabolism (i.e., insulin resistance). Regimens of HAART may have adverse effects on bone metabolism, as indicated by emerging reports of osteopenia, osteoporosis, and avascular necrosis.
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PMID:Long-term exposure to lifelong therapies. 1183 99

Pancreatitis is rightly the most feared complication of endoscopic retrograde cholangiopancreatography (ERCP). Ten percent to 15% of cases of post-ERCP pancreatitis (PEP) are severe by clinical and radiologic criteria. Such cases carry significant morbidity and mortality and are responsible for the vast majority of ERCP-related deaths. The prediction and prevention of PEP have been of great interest to endoscopists since the introduction of ERCP 30 years ago. Prediction and diagnosis of PEP have become more accurate with the widespread availability of serum amylase estimation. A variety of cytokines (eg, interleukin -1, IL-6, and IL-8) and acute phase reactants (eg, C-reactive protein) are also elevated in the serum in acute pancreatitis, and these form the basis of evolving tests for PEP. Urine testing (for amylase) in acute pancreatitis is obsolete, but it may soon undergo a revival in the form of a rapid (3-minute) dipstick test for trypsinogen-2, a sensitive and specific test for this disease. The prevention of PEP takes multiple forms. The following steps are recommended for clinicians: 1) avoid ERCP when other, less invasive or noninvasive imaging tests can do the job (eg, CT or magnetic resonance imaging); 2) avoid high-risk (of PEP) procedures, such as needle-knife papillotomy, balloon dilation of the biliary sphincter, and pancreatic sphincterotomy, and take steps to reduce risk when these procedures are unavoidable; 3) ensure that those who perform ERCP have adequate training and experience; and 4) consider pharmacologic intervention. Despite a depressing catalog of drug interventions that have failed over the years (eg, antihistamines, anticholinergics, and corticosteroids), three agents have recently shown promise: somatostatin; its octapeptide analogue, octreotide; and gabexate mesylate, a protease inhibitor.
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PMID:Predicting and preventing post-ERCP pancreatitis. 1190 Jun 75

Although we have reported the beneficial effect of continuous regional arterial infusion (CRAI) of protease inhibitor and antibiotic on acute necrotizing pancreatitis (ANP), the optimal timing of the initiation of CRAI therapy has not been clarified. The present study was conducted to evaluate whether the difference of the timing of CRAI therapy may affect the clinical course and outcome in ANP. 73 patients with ANP were stratified into three groups according to the interval between the onset and initiation of CRAI therapy as follows: group I (32 patients in whom CRAI therapy was initiated within 48 h after the onset); group II (22 patients in whom CRAI therapy was initiated between 48 and 72 h after the onset), and group III (19 patients in whom CRAI was initiated more than 72 h after the onset). The mortality rate was 3.2% in group I, 9.1% in group II, and 26.3% in group III. The mortality rate was significantly low in group I compared with that in group III. The frequency of respiratory failure in group I was also significantly low compared with that in group III. CRP and APACHE II score were reduced rapidly in both groups I and II after the initiation of CRAI therapy. These results suggested that the optimal timing of CRAI therapy in ANP should be considered to be within 72 h after the onset.
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PMID:Benefit of continuous regional arterial infusion of protease inhibitor and antibiotic in the management of acute necrotizing pancreatitis. 1212 Feb 52

In massive hemorrhage from acute gastric mucosal lesions, it is occasionally difficult to control the bleeding with nonsurgical therapy. We used the somatostatin analog, octreotide, which suppresses gastric and pancreatic function, to treat severe hemorrhagic erosive gastritis in a patient with acute pancreatitis. A 22-year-old man presented with epigastralgia and melena. Blood levels of pancreatitis markers were elevated. Computed tomography revealed diffuse enlargement of the pancreas, without fluid collection around the organ. An endoscopic examination showed extensive hemorrhagic erosions over almost the whole gastric mucosa. We diagnosed extensive hemorrhagic erosive gastritis with acute pancreatitis. A protease inhibitor (nafamostat mesilate 50 mg/day) and an H(2) receptor antagonist (famotidine 40 mg/day) were administered by injection for 6 days; the patient's serum and urine amylase levels fell, but the gastric erosions with hemorrhage were not attenuated. Octreotide was given subcutaneously, at a daily dose of 100 microg for 5 days, without famotidine administration. His melena disappeared, and the gastric erosions were markedly decreased. Administration of the somatostatin analog, octreotide, proved to be effective treatment in a patient with severe hemorrhagic erosive gastritis associated with acute pancreatitis.
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PMID:Extensive hemorrhagic erosive gastritis associated with acute pancreatitis successfully treated with a somatostatin analog. 1237 48

HIV protease inhibitors decrease mortality and improve quality of life in patients with HIV infection. However, these drugs have been associated with serum lipid elevations, which may pose an increased risk of cardiovascular disease and pancreatitis. Treatment of protease inhibitor-related hyperlipidaemia (PIH) is complicated by drug interactions, which significantly increase concentrations of most 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitors (statins). Although pravastatin and atorvastatin effectively lower cholesterol and triglyceride concentrations in HIV-infected patients, a significant number of patients did not achieve their National Cholesterol Education Program low density lipoprotein concentration goals. Nonetheless, due to the increased risk of rhabdomyolysis with elevated statin concentrations, atorvastatin should be considered a second-line agent. The limited available PIH data supports the fact that pravastatin and atorvastatin are well-tolerated in HIV-infected individuals. More data are needed on the appropriate starting doses, maximum safe doses, role of combination statin-fibrate therapy, documentation of coronary heart disease benefit and incidence of myotoxicity and hepatotoxicity. Pravastatin has an acceptable risk-benefit ratio in PIH, while theoretical toxicity concerns exist with atorvastatin.
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PMID:Risk-benefit of HMG-CoA reductase inhibitors in the treatment of HIV protease inhibitor-related hyperlipidaemia. 1290 55

Pancreatitis presents clinically as acute and chronic form. A common characteristic of these two forms is enzymatic autodigestion of pancreas in the course of the disease. It results from premature activation of pancreatic digestive enzymes and disturbance of subtle balance between proteolytic enzymes and their inhibitors. The way to understand the character of mechanisms leading to development of pancreatitis has been simplified by discovery of genetic factors, which are able to initiate pathological changes at tissue level. Mutations in the PRSS1 gene (first of all R122H and N29I mutations), which encodes for cationic trypsin, cause trypsin to be protected from autodegradation. These mutations also cause precursor of trypsin - trypsinogen, to be activated easier. On the other hand mutations in the SPINK1 gene have been identified. SPINK1 gene encodes for the most important protease inhibitor of the pancreatic fluid. The most frequent mutation, namely N34S, decrease SPINK1 protein in its activity. The link between the genotype and phenotype is not clear in every case. It is probable that pancreatitis will be recognized as poligenic with many genes engaged in the disease development. Pancreatic cancer is a frequent consequence of pancreatitis. It is a very invasive cancer with high mortality. In the course of pancreatic inflammation intensive cell proliferation takes place for regeneration of pancreas damage. It is the chance for amplification of pathological changes in DNA, which have arisen as a ROS's (Reactive Oxygen Species) and RNOS's (Reactive Nitrogen Oxide Species) action effect. ROS and RNOS are generated in the course of pancreas inflammation.
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PMID:[Hereditary aspects of pancreatitis]. 1313 Jan 70

Dyslipidemia, characterized by elevated serum levels of triglycerides and reduced levels of total cholesterol, low-density lipoprotein-cholesterol (LDL-C) and high-density lipoprotein-cholesterol, has been recognized in patients with human immunodeficiency virus (HIV) infection. It is thought that elevated levels of circulating cytokines, such as tumor necrosis factor-alpha and interferon-alpha, may alter lipid metabolism in patients with HIV infection. Protease inhibitors, such as saquinavir, indinavir and ritonavir, have been found to decrease mortality and improve quality of life in patients with HIV infection. However, these drugs have been associated with a syndrome of fat redistribution, insulin resistance, and hyperlipidemia. Elevations in serum total cholesterol and triglyceride levels, along with dyslipidemia that typically occurs in patients with HIV infection, may predispose patients to complications such as premature atherosclerosis and pancreatitis. It has been estimated that hypercholesterolemia and hypertriglyceridemia occur in greater than 50% of protease inhibitor recipients after 2 years of therapy, and that the risk of developing hyperlipidemia increases with the duration of treatment with protease inhibitors. In general, treatment of hyperlipidemia should follow National Cholesterol Education Program guidelines; efforts should be made to modify/control coronary heart disease risk factors (i.e. smoking; hypertension; diabetes mellitus) and maximize lifestyle modifications, primarily dietary intervention and exercise, in these patients. Where indicated, treatment usually consists of either pravastatin or atorvastatin for patients with elevated serum levels of LDL-C and/or total cholesterol. Atorvastatin is more potent in lowering serum total cholesterol and triglycerides compared with other hydroxymethylglutaryl coenzyme A (HMG-CoA) reductase inhibitors, but it is also associated with more drug interactions compared with pravastatin. Simvastatin and lovastatin are significantly metabolized by cytochrome P450 enzymes (CYP3A4) and are therefore not recommended for coadministration with protease inhibitors. A fibric acid derivative (gemfibrozil or fenofibrate) should be used in patients with primary hypertriglyceridemia. However, it must be kept in mind that protease inhibitors, such as nelfinavir and ritonavir, induce enzymes involved in the metabolism of the fibric acid derivatives and may, therefore, reduce the lipid-lowering activity of coadministered gemfibrozil or fenofibrate. In certain patients HMG-CoA reductase inhibitors may be used in combination with fibric acid derivatives but patients should be carefully monitored for liver and skeletal muscle toxicity. Select patients may experience improvements in serum lipid levels when their offending protease inhibitor(s) is/are exchanged for efavirenz, nevirapine, or abacavir; however each patient's virologic and immunologic status must be taken closely into consideration.
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PMID:Management of protease inhibitor-associated hyperlipidemia. 1472 85

Camostat mesilate (CM), an oral protease inhibitor, has been used clinically for the treatment of chronic pancreatitis in Japan. However, the mechanism by which it operates has not been fully understood. Our aim was to evaluate the therapeutic efficacy of CM in the experimental pancreatic fibrosis model induced by dibutyltin dichloride (DBTC), and we also determined the effect of CM on isolated monocytes and panceatic stellate cells (PSCs). In vivo, chronic pancreatitis was induced in male Lewis rats by single administration of 7 mg/kg DBTC and a special diet containing 1 mg/g CM was fed to the DBTC+CM-treated group from day 7, while the DBTC-treated group rats were fed a standard diet. At days 0, 7, 14 and 28, the severity of pancreatitis and fibrosis was examined histologically and enzymologically in both groups. In vitro, monocytes were isolated from the spleen of a Lewis rat, and activated with lipopolysaccharide stimulation. Thereafter, the effect of CM on monocyte chemoattractant protein-1 (MCP-1) and tumor necrosis factor-alpha (TNF-alpha) production from monocytes was examined. Subsequently, cultured rat PSCs were exposed to CM and tested to see whether their proliferation, MCP-1 production and procollagen alpha1 messenger RNA expression was influenced by CM. In vivo, the oral administration of CM inhibited inflammation, cytokines expression and fibrosis in the pancreas. The in vitro study revealed that CM inhibited both MCP-1 and TNF-alpha production from monocytes, and proliferation and MCP-1 production from PSCs. However, procollagen alpha1 expression in PSCs was not influenced by CM. These results suggest that CM attenuated DBTC-induced rat pancreatic fibrosis via inhibition of monocytes and PSCs activity.
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PMID:Camostat mesilate attenuates pancreatic fibrosis via inhibition of monocytes and pancreatic stellate cells activity. 1553 8


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