Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study examined the feasibility of maintaining male Hartley guinea pigs on long-term hyperalimentation. Data from animals fed ad libitum, but infused with 0.9% saline, indicated that there was minimal effect from catheter implantation, sepsis, or the infusion of large volumes of fluid. This group compared with animals fed and watered ad libitum demonstrated a nearly identical growth rate (6.33 +/- 1.18 and 6.12 +/- 1.32 g/day, respectively), serum chemistry, tissue weights, and hepatic composition and morphology. Animals infused with a total parenteral diet demonstrated growth rates of 4.06 +/- 1.46 g/day for up to 25 days. Loss of infused animals was due in varying degrees to sepsis, mechanical failure, improper placement of the cannula, loss of patency, and death from unknown causes. Morphological analysis of animals fed by total parenteral nutrition revealed an altered distribution and increased size of lipid droplets in hepatic parenchymal and Kupffer cells and glycogen accumulation by the parenchymal cells. Decreased hepatic content of total protein and lipid, as well as cytochrome P450, was also observed. Similarly, serum values of triglyceride were decreased in animals fed by the total parenteral diet. This study indicated that the guinea pig fed by hyperalimentation may be a useful animal model for a number of clinical and basic research applications.
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PMID:Growth and hepatic composition in the guinea pig after long-term parenteral hyperalimentation. 309 Aug 99

In experimental animals, injection of gram-negative endotoxin (LPS) decreases hepatic cytochrome P450-mediated drug metabolism. To evaluate this phenomenon in a human model of gram-negative sepsis, LPS was administered on two consecutive days to healthy male volunteers during which time a cocktail of antipyrine (AP-250 mg), hexobarbital (HB-500 mg), and theophylline (TH-150 mg) was ingested and the apparent oral clearance of each drug determined. Each subject had a control drug clearance study with saline injections. In the first experiment, six subjects received the drug cocktail 0.5 h after the first dose of LPS. In the second experiment, another six subjects received the drug cocktail 0.5 h after the second dose of LPS. In both experiments, LPS caused the expected physiologic responses of inflammation including fever with increases in serum concentrations of TNF alpha, IL-1 beta, IL-6, and acute phase reactants. In the first experiment, only minor decreases in clearances of the probe drugs were observed (7-12%). However in the second experiment, marked decreases in the clearances of AP (35, 95% CI 18-48%), HB (27, 95% CI 14-34%), and TH (22, 95% CI 12-32%) were seen. The decreases in AP clearance correlated with initial peak values of TNF alpha (r = 0.82) and IL-6 (r = 0.86). These data show that in humans the inflammatory response to even a very low dose of LPS significantly decreases hepatic cytochrome P450-mediated drug metabolism and this effect evolves over a 24-h period. It is likely that septic patients with much higher exposures to LPS have more profound inhibition of drug metabolism.
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PMID:Endotoxin administration to humans inhibits hepatic cytochrome P450-mediated drug metabolism. 798 76

Ketoconazole appears to be an effective prophylactic measure in surgical patients at risk of developing ARDS. The beneficial effects may be caused by thromboxane synthetase inhibition because thromboxane B2 concentrations were decreased by ketoconazole in both studies. Two studies were unable to demonstrate a beneficial effect with the selective thromboxane synthetase inhibitor dazoxiben. Both studies consisted of a small number of subjects with already established ARDS, not prophylaxis in patients at risk of ARDS. Although the effects of ketoconazole on mortality in patients at risk of ARDS are conflicting, there may be reduced mortality in patients with sepsis. Several issues must be considered before ketoconazole is used in this setting. First, the studies to date have excluded patients at risk of hepatotoxicity, which is probably wise considering the potential hepatotoxicity with ketoconazole and the unknown benefit/risk ratio in these patients. Also, therapies that reduce gastric acidity should be avoided to ensure bioavailability. If ketoconazole is administered through a jejunostomy tube, it probably should be given with a dilute acid to enhance absorption. Furthermore, ketoconazole is a known inhibitor of the cytochrome P450 system, which results in a number of drug interactions. If ketoconazole is used, the patient's current drug therapy should be reviewed for potential interacting drugs. In light of the current studies, ketoconazole may be considered for surgical patients at risk of developing ARDS (especially patients with sepsis) with the previously noted considerations. Future research should seek to confirm ketoconazole's role for the prevention of ARDS in all critically ill patients. Additional studies also should clarify the role of various inflammatory mediators in the pathophysiology and therapy of ARDS.
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PMID:Ketoconazole to prevent acute respiratory distress syndrome in critically ill patients. 852 99

Hepatic dysfunction is a major contributor to death in multiple organ system failure. To evaluate whether this dysfunction increases with the length of sepsis, we studied the effect of fulminant CLP peritonitis with hyperoxia on mixed-function oxidase-MFO (cytochrome P450 content and activity) and lipid peroxidation in rat livers. Livers were harvested at 18, 21, 24, and 27 hr, homogenized, and microsomal fractions prepared. Cytochrome P450 concentration was determined by assay and P450 activity was determined by the metabolism of ethoxyresorufin and ethoxycoumarin. Lipid peroxidation was estimated by measuring malondialdehyde content. Septic rats showed decreases in P450 levels and activity, which worsened with duration of sepsis. These decreases were partially lessened by hyperoxia. Although there was a trend toward increased lipid peroxidation, this effect was not statistically significant. This study suggests that while MFO content and activity decrease with sepsis, these decreases do not appear to be related to the production of oxygen-derived free radicals. Furthermore, hyperoxia actually appears to have a protective role in this instance.
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PMID:Mixed-function oxidase activity in sepsis. 853 82

Reduction in whole body cytochrome P450 (CYP 450) activity is evident in humans who develop trauma and sepsis-induced multiple organ failure (MOF). It is not known whether this has any deleterious or protective effect. Intraperitoneal injection of zymosan, the cell wall of Saccharomycoses A, induces dose-dependent inflammation with concomitant MOF in rats. High dose intraperitoneal zymosan (100 mg/100 g body weight) causes mortality and organomegaly in rats; low dose zymosan (20 mg/100 g body weight) does not. To study a role for CYP 450 in zymosan-induced toxicity, we examined the effect of the non-specific CYP 450 suicide inhibitor 1-aminobenzotriazole (1-ABT)(80 mg/kg/d), on rats treated with low dose zymosan. The 90% reduction in CYP 450 content achieved by this dose of 1-ABT was associated with 58% mortality in rats treated with low dose zymosan, in contrast to no mortality in rats treated with low dose zymosan alone (p < 0.01). In survivors, liver and lung organomegaly (p < 0.01), and polymorphonuclear leukocyte accumulation in the liver (p < 0.01) were increased after zymosan administration in rats treated with 1-ABT compared to those without 1-ABT. There was no effect of treatment with 1-ABT on the increased urinary excretion of nitric oxide byproducts observed after zymosan administration. These observations are consistent with the hypothesis that the CYP 450 enzyme system is an endogenous protectant in this experimental model of inflammation-induced MOF.
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PMID:The cytochrome P450 suicide inhibitor, 1-aminobenzotriazole, sensitizes rats to zymosan-induced toxicity. 992 Mar 46

The dynamic liver function test based on the hepatic conversion of lidocaine to monoethylglycinexylidide (MEGX) can complement established static liver function tests if prognostic information is of particular interest. Because of its ease of use and rapid turnaround, the MEGX test has found widespread application for realtime assessment of hepatic function in transplantation, critical care medicine, and various experimental models. Lidocaine is metabolized primarily by the liver cytochrome P450 system through sequential oxidative N-dealkylation, the major initial metabolite in humans being MEGX. Because of the relatively high extraction ratio of lidocaine, this liver function test depends not only on hepatic metabolic capacity but also on hepatic blood flow. For the determination of MEGX in serum, an immunoassay based on the fluorescence polarization immunoassay technique high-performance liquid chromatography and gas liquid chromatography methods have been described. Whereas high-performance liquid chromatography and gas liquid chromatography are specific for MEGX, the fluorescence polarization immunoassay also cross-reacts with 3-OH-MEGX. Although this is not a problem in humans, some species, such as the rat, produce significant amounts of this metabolite. The findings of most studies published so far suggest that the MEGX test is a useful tool that can improve our decision-making process with respect to the selection of transplant candidates. Patients with a MEGX 15- or 30-minute test value <10 microg/L have a particularly poor 1-year survival rate. Serial monitoring of liver graft recipients early after transplantation with the MEGX test may initially alert the clinician to a major change in liver function; if used with other tests, such as serum hyaluronic acid concentrations, it may become more discriminatory. In critically ill patients, several studies have shown that an initially rapid decrease in MEGX test values is associated with an enhanced risk for the development of multiple organ dysfunction syndrome and a poor outcome. Further, this decrease appears to be associated with an enhanced systemic inflammatory response. The MEGX test has potential for investigating the pathogenesis of multiple organ dysfunction syndrome with regard to early hepatic functional impairment in critically ill patients after polytrauma or sepsis.
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PMID:The MEGX test: a tool for the real-time assessment of hepatic function. 1129 22

The production of monoethylglycine xylidide (MEGX) from lidocaine is thought to be dependent on hepatic blood flow. We assessed the relationship between hepatosplanchnic blood flow, lidocaine uptake, and the production of MEGX from lidocaine in seven patients after cardiac surgery and in nine septic patients. Systemic (pulmonary artery catheter) and splanchnic (hepatic vein catheter and dye dilution) hemodynamics and arterial and hepatic venous lidocaine and MEGX concentrations were measured after a lidocaine bolus injection (1 mg/kg) before and 90 min after increasing cardiac output by at least 25% with dopamine. Dopamine infusion [in cardiac surgery patients 4.2 (1.4-8.5) microg x kg(-1) x min(-1) (median, range) and in septic patients 4.0 (2.1-9.0) microg x kg(-1) x min(-1)] increased splanchnic blood flow in cardiac surgery patients from 0.65 (0.12) L x min(-1) x m(-2) to 0.84 (0.14) L x min(-1) x m(-2) mean (standard deviation) P = 0.018) and in septic patients from 0.91 (0.32) L x min(-1) x m(-2) to 1.12 (0.40) L x min(-1) x m(-2) (P = 0.038). Splanchnic MEGX production for the 30 min after lidocaine injection was higher in cardiac surgery patients than in septic patients both at baseline [4130 (1100) microg x m(-2) vs. 930 (420) microg x m(-2) (P < 0.005)] and afterdopamine infusion [4480 (1000) microg x m(-2) vs. 1090 (620) microg x m(-2) (P = 0.005)]. We found no correlation between changes in MEGX production and changes in splanchnic blood flow. Patients with sepsis have severe impairment of cytochrome P450-dependent liver function, which is not influenced by acute changes in hepatosplanchnic blood flow. MEGX production cannot be used as an estimate of changes in splanchnic blood flow.
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PMID:Effect of dopamine-induced changes in splanchnic blood flow on MEGX production from lidocaine in septic and cardiac surgery patients. 1209 26

Sepsis and septic shock are accompanied by profound changes in the organism that may alter both the pharmacokinetics and the pharmacodynamics of drugs. This review elaborates on the mechanisms by which sepsis-induced pathophysiological changes may influence pharmacological processes. Drug absorption following intramuscular, subcutaneous, transdermal and oral administration may be reduced due to a decreased perfusion of muscles, skin and splanchnic organs. Compromised tissue perfusion may also affect drug distribution, resulting in a decrease of distribution volume. On the other hand, the increase in capillary permeability and interstitial oedema during sepsis and septic shock may enhance drug distribution. Changes in plasma protein binding, body water, tissue mass and pH may also affect drug distribution. For basic drugs that are bound to the acute phase reactant alpha(1)-acid glycoprotein, the increase in plasma concentration of this protein will result in a decreased distribution volume. The opposite may be observed for drugs that are extensively bound to albumin, as the latter protein decreases during septic conditions. For many drugs, the liver is the main organ for metabolism. The determinants of hepatic clearance of drugs are liver blood flow, drug binding in plasma and the activity of the metabolic enzymes; each of these may be influenced by sepsis and septic shock. For high extraction drugs, clearance is mainly flow-dependent, and sepsis-induced liver hypoperfusion may result in a decreased clearance. For low extraction drugs, clearance is determined by the degree of plasma binding and the activity of the metabolic enzymes. Oxidative metabolism via the cytochrome P450 enzyme system is an important clearance mechanism for many drugs, and has been shown to be markedly affected in septic conditions, resulting in decreased drug clearance. The kidneys are an important excretion pathway for many drugs. Renal failure, which often accompanies sepsis and septic shock, will result in accumulation of both parent drug and its metabolites. Changes in drug effect during septic conditions may theoretically result from changes in pharmacodynamics due to changes in the affinity of the receptor for the drug or alterations in the intrinsic activity at the receptor. The lack of valid pharmacological studies in patients with sepsis and septic shock makes drug administration in these patients a difficult challenge. The patient's underlying pathophysiological condition may guide individual dosage selection, which may be guided by measuring plasma concentration or drug effect.
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PMID:Pharmacokinetic and pharmacodynamic considerations when treating patients with sepsis and septic shock. 1240 64

The repressed expression of cytochrome P450 (CYP) enzymes in septic patients contributes significantly to therapeutic failures. Mice treated with sepsis-inducing agent lipopolysaccharide (LPS) sequentially express reduced mRNA levels of the pregnane X receptor (PXR) and its target genes Cyp3a(s), suggesting that reduction of Cyp expression is associated with the repression of PXR. The present study was undertaken to determine whether septic rats induced by LPS and cecal ligation/puncture (CLP) express reduced levels of rat PXR protein and whether the subcellular distribution of PXR is altered in septic conditions. Rats were treated with LPS (55 vs. 1 mg/kg) or underwent CLP, and the expression of CYP3A and PXR was determined. In LPS-treated rats, the expression of CYP3A enzymes was consistently decreased regardless of the doses used. In contrast, high dose and repeated low dose of LPS caused significant decreases on the nuclear PXR, whereas the opposite was true with the cytosolic PXR. When rats were administered with only a single low dose of LPS, both nuclear and cytosolic PXR levels were significantly increased. In the CLP model, rats undergoing CLP for 30 h expressed significantly lower levels of CYP3A but the PXR levels were not significantly altered. In addition, when rats were treated with dexamethasone, a significant induction of CYP3A was detected. However, such an induction was markedly antagonized by the treatment with LPS. The differential changes on the levels of the nuclear PXR and CYP3A between LPS and CLP models suggest that PXR plays negligible roles in the constitutive expression of CYP3A. The antagonism of LPS against dexamethasone-mediated CYP3A induction suggests that endotoxemia minimizes the inducibility of PXR target genes.
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PMID:Lipopolysaccharide and cecal ligation/puncture differentially affect the subcellular distribution of the pregnane X receptor but consistently cause suppression of its target genes CYP3A. 1274 92

Trolox is a hydrophilic analogue of vitamin E. The aim of this study was to investigate its effects on hepatic injury, especially alteration in cytochrome P450 (CYP)-dependent drug metabolism during polymicrobial sepsis. Rats were subjected to polymicrobial sepsis by cecal ligation and puncture (CLP). The rats were treated intravenously with Trolox (2.5 mg/kg) or vehicle, immediately after CLP. Serum aminotransferases and lipid peroxidation levels were markedly increased 24 h after CLP. This increase was attenuated by Trolox. Total CYP content and NADPH-P450 reductase activity decreased significantly 24 h after CLP. This decrease in CYP content was attenuated by Trolox. At 24 h after CLP, there was a significant decrease in the activity of these CYP isozymes: CYP1A1, 1A2, 2B1, and 2E1. However, Trolox differentially inhibited the decrease in CYP isozyme activity. Trolox had little effect on the decrease in CYP1A1 activity but Trolox significantly attenuated decreases in CYP1A2 and 2E1 activities. In fact, Trolox restored CYP2B1 activity to the level of activity found in control rats. Our findings suggest that Trolox reduces hepatocellular damage as indicated by abnormalities in hepatic drug-metabolizing function during sepsis. Our data also indicates that this protection is, in part, caused by decreased lipid peroxidation.
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PMID:The beneficial effect of Trolox on sepsis-induced hepatic drug metabolizing dysfunction. 1502 27


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