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:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Imipenem is the first of a new class of beta-lactam antibiotics, the carbapenems, to be released for clinical use. It has the broadest antibacterial activity of all antibiotics available for systemic use in humans. It is active against streptococci, methicillin-sensitive staphylococci, Neisseria, Haemophilus, anaerobes, and the common aerobic gram-negative nosocomial pathogens including Pseudomonas. Resistance to imipenem may emerge during treatment of P. aeruginosa infections, as has occurred with other beta-lactam agents; P. maltophilia and P. cepacia are typically resistant to it. Like the penicillins, imipenem has inhibitory activity against enterococci. Daily doses may range from 500 mg to 1 g, every 6 to 8 hours, in patients with normal renal function. The principal toxic effects have been nausea and vomiting, which occur during intravenous infusion, and seizures, which develop in 1 to 3% of treated patients and are likely to occur in the setting of renal insufficiency and underlying disease of the central nervous system. Imipenem should be considered for treatment of mixed bacterial infections and treatment of resistant aerobic gram-negative bacteria that are not susceptible to other beta-lactam agents. In addition to provoking unnecessary toxicity, indiscriminate use of this agent will promote dissemination of resistance against it.
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PMID:Imipenem. 192 91

Observations on 1,754 patients treated with imipenem/cilastatin in phase III dose-ranging studies in the United States were reviewed to determine risk factors for seizures. The patients were moderately to severely ill with numerous background disorders known to be associated with an increased risk of seizures. Fifty-two patients (3 percent) had seizures and in 16 (0.9 percent) of them the seizures were judged by the investigators to be possibly, probably, or definitely related to imipenem/cilastatin. An incidence of seizure of 2 to 3 percent was noted among patients treated with other antibiotics (usually including a beta-lactam in the regimen) at times when imipenem/cilastatin was not being given. The average time of onset of seizures for patients receiving imipenem/cilastatin was seven days after start of therapy. As with other beta-lactam antibiotics, central nervous system lesions and disorders including seizures and renal insufficiency were found to be strong risk factors for seizures. Imipenem/cilastatin dosages in excess of those currently recommended by the manufacturer, particularly in patients with renal insufficiency, were also associated with an increased risk of seizures. There was an association with Pseudomonas aeruginosa infection that remained statistically significant even after controlling for imipenem/cilastatin dosage as well as for the other factors indicated. A high background incidence of seizures in general in a group of severely ill patients makes it both difficult to assess the etiology of a seizure and important to consider the risk factors when choosing the appropriate dose of an antibiotic. Guidelines are presented for appropriate dosing of imipenem/cilastatin in relation to renal function, body weight, and infecting pathogen.
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PMID:Factors predisposing to seizures in seriously ill infected patients receiving antibiotics: experience with imipenem/cilastatin. 328 42

Imipenem/cilastatin was administered during 153 febrile episodes occurring in cancer patients and the response rate was 68%. Considering only documented infections the response rate was 71%. Patients who received imipenem as initial therapy had a higher response rate than patients who received it after failing other antibiotics (77% versus 68%). The overall response rates for septicemias and pneumonias were 75% and 58%. Among the 57 gram-negative infections 77% responded, but the response rate was substantially higher if imipenem was used as initial therapy (94% versus 69%). The poorest response rate was observed when imipenem was given as secondary therapy for Pseudomonas infections (50%), but most of these patients had failed to respond to other appropriate antibiotics. The only serious side effect was seizures which occurred in ten patients, although eight of them had other predisposing factors. Imipenem appears to be a useful antibiotic for treatment of infections, even in neutropenic cancer patients.
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PMID:Imipenem/cilastatin therapy of infections in cancer patients. 329 82

Imipenem/cilastatin was used to treat 68 documented infections in patients who had failed to respond to other antibiotic regimens. The overall response rate was 68% and was higher among patients in whom the infecting organism could be identified (71% vs. 60%). The response rates were 73% in the 37 cases of septicaemia and 54% in the 13 cases of pneumonia. The response rate in Gram-negative bacillary infections was 69%, but was 50% for those caused by Pseudomonas aeruginosa. The response rate did not correlate with patients' neutrophil counts, but was higher if the neutrophil count increased during therapy than if it decreased (86% vs. 48%, P = 0.001). The drug was well tolerated but one patient developed seizures. Imipenem/cilastatin appears to be a useful antibiotic as single agent therapy for most infections in cancer patients.
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PMID:Imipenem/cilastatin as secondary therapy for infections in cancer patients. 346 89

Imipenem, a new carbapenem beta-lactam broad-spectrum antibiotic, is highly active in vitro against most aerobic and anaerobic gram-positive and gram-negative bacteria isolated from infectious diseases of human beings. Except for enterococci and methicillin-resistant staphylococci most gram-positive cocci are inhibited by less than 2 micrograms/ml. Although the MIC-90 of methicillin-resistant staphylococci may be less than 4 micrograms/ml, these bacteria are usually resistant to imipenem by modified testing methods. The enterococcus, S. faecalis, has an MIC-90 of less than 8 micrograms/ml but bactericidal concentration may be much higher. Most Enterobacteriaceae are highly susceptible to imipenem with MIC-90 of 0.5 to 2.0 micrograms/ml. Proteus species are less susceptible with MICs of 4 to 8 micrograms/ml. Isolates of P. aeruginosa have variable susceptibility with MICs ranging from 0.25 to 16 micrograms/ml. Pseudomonas maltophilia and P. cepacia are usually resistant to imipenem. Except for Clostridium species, most strict anaerobes are susceptible to less than 1.0 micrograms/ml of imipenem. When combined with cilastatin (1:1 ratio), the renal elimination of the active form is increased. The serum halflife in normal renal function is about 1 hour and increases to 3.4 hours in anuria. Major adverse effects are similar to those of cephalosporins except for seizures in some patients. Colonization with fungi and drug-resistant bacteria occurs in about 5% of imipenem-treated patients. Clinical studies have demonstrated efficacy in 79% to 96% of patients treated.
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PMID:Review of imipenem. 351 99

The chemistry, antimicrobial spectrum, mechanism of action, pharmacology and pharmacokinetics, clinical use, adverse effects, dosage and administration, place in therapy, cost-effectiveness, and formulary considerations of imipenem-cilastatin sodium are reviewed. Imipenem is the first carbapenem antibiotic of the thienamycin class to be used clinically. Imipenem has the widest spectrum of antimicrobial activity of currently available beta-lactam agents and, in contrast to other beta-lactam antibiotics, lacks cross resistance with recently introduced extended-spectrum penicillins and third-generation cephalosporins. Against gram-positive and gram-negative aerobic and anaerobic organisms, imipenem demonstrates excellent activity. Pseudomonas maltophilia, some strains of Pseudomonas cepacia, and Streptococcus faecium are resistant. Strains of methicillin-resistant staphylococci should also be considered resistant to imipenem. For clinical use imipenem is coadministered in equal parts with cilastatin. Cilastatin is a renal dehydropeptidase inhibitor that inhibits the metabolism of imipenem by renal brush-border enzymes, thus increasing imipenem concentrations in urine. Imipenem-cilastatin is administered by the intravenous route only. The adverse reaction profile of imipenem-cilastatin is similar to t that of other beta-lactam antibiotics. Recommended dosage reductions appropriate for renal impairment should be guided by periodic assessments of renal function, with close adherence to recommended dosage schedules, particularly among patients who are predisposed to seizures or receiving anticonvulsant medication. Imipenem-cilastatin performed well in both comparative and noncomparative trials of clinical efficacy and safety. For infections with multiple organisms (e.g., pelvic, intra-abdominal, or soft-tissue infections), imipenem-cilastatin may be a cost-effective and less toxic single-agent alternative to "standard" combination (e.g., aminoglycoside-penicillin plus an antianaerobic agent) therapy. However, in patients with serious pseudomonal infections (e.g., pneumonia), isolates may rapidly acquire resistance to imipenem or be replaced by resistant strains of Ps. aeruginosa when imipenem is used alone. Therefore, when the recovery of Ps. aeruginosa is anticipated or documented, treatment with imipenem-cilastatin should include an aminoglycoside to reduce the likelihood of the emergency of resistant organisms during therapy.
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PMID:Imipenem-cilastatin sodium, a broad-spectrum carbapenem antibiotic combination. 353 Jun 14

Imipenem, the first of a new class of carbapenem antibiotics, has potent activity against most clinically important species of bacteria, including isolates resistant to other antibiotics. The drug is well distributed to most tissues and fluids after intravenous administration; however, levels in cerebrospinal fluid are modest. Most of the drug is eliminated in the urine, where it is metabolized by an enzyme on the brush border of the renal tubular cells; cilastatin is given simultaneously to inhibit this inactivation. Adverse effects include a syndrome of nausea and hypotension, especially after rapid intravenous infusion, and a predisposition to seizures in certain high-risk patients. Superinfections by resistant bacteria and fungi are infrequent. This new drug may be particularly useful in the treatment of infections caused by mixtures of bacteria for which a combination of antibiotics, often including an aminoglycoside, would otherwise be necessary. Examples include pulmonary, intra-abdominal, and soft-tissue infections.
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PMID:Imipenem: first of a new class of beta-lactam antibiotics. 389 54

Monobactams and carbapenems are 2 classes of beta-lactam antibiotics that were introduced in the 1980s. This review considers the monobactam aztreonam and the carbapenems imipenem and meropenem. Imipenem is administered together with cilastatin, which inhibits the enzymatic breakdown of imipenem in the kidney. The antibacterial activities of these drugs are quite different from older beta-lactams. Aztreonam is directed towards aerobic Gram-negative bacteria, especially Pseudomonas aeruginosa, while imipenem and meropenem are active against both aerobic and anaerobic Gram-positive and Gram-negative bacteria. Thus, these drugs should be reserved for patients who have a special need for them. They are also structurally different from older beta-lactams and possess different adverse drug reaction profiles. It was initially suggested that aztreonam would be less immunogenic than previous beta-lactams because reactive breakdown products acting as haptens are less likely to be formed. Clinical reports now support this assumption, and, in particular, cross hypersensitivity between aztreonam and other beta-lactams seems to be rare which makes the drug a useful therapeutic alternative. However, hypersensitivity to aztreonam does occur. The predominant concern in terms of adverse reactions to imipenem/cilastatin is the increased tendency to cause seizures compared with other beta-lactams. The risk of producing a seizure is highly associated with inadequate dose adjustment in relation to kidney function. If appropriate care is taken, seizures occur in less than 1% of patients treated. However, it is possible that concomitant administration of other drugs with neurotoxic profiles (e.g. theophylline and cyclosporin) given in overdose, may increase the risk of seizures.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adverse effects of monobactams and carbapenems. 766 60

The epileptogenic activities of several beta-lactam antibiotics were compared following their intracerebroventricular administration in rats. Different convulsant potencies were observed among the various beta-lactam antibiotics tested, but the epileptogenic patterns were similar. The patterns consisted of an initial phase characterized by wet-dog shakes followed by head tremor, nodding, and clonic convulsions. After the largest doses of beta-lactam antibiotics injected, clonus of all four limbs and/or the trunk, rearing, jumping, falling down, escape response, transient tonic-clonic seizures, and sometimes generalized seizures were observed, followed by a postictal period with a fatal outcome. At a dose of 0.033 mumol per rat, cefazolin was the most powerful epileptogenic compound among the drugs tested. It was approximately three times more potent than benzylpenicillin in generating a response and much more potent than other cephalosporins, such as ceftriaxone, cefoperazone, and cefamandole. No epileptogenic signs were observed with equimolar doses of cefotaxime, cefonicid, cefixime, and ceftizoxime in this model. The more convulsant compounds (i.e., cefazolin and ceftezole) are both characterized by the presence of a tetrazole nucleus at position 7 and show a marked chemical similarity to pentylenetetrazole. Imipenem and meropenem, the two carbapenems tested, also showed epileptogenic properties, but imipenem was more potent than meropenem, with a convulsant potency similar to those of ceftezole and benzylpenicillin. In addition, the monobactam aztreonam possessed convulsant properties more potent than those of cefoperazone and cefamandole. This suggest that the beta-lactam ring is a possible determinant of production of epileptogenic activity, with likely contributory factors in the substitutions at the 7-aminocephalosporanic or 6-aminopenicillanic acid that may increase or reduce the epileptogenic properties of the beta-lactam antibiotics. While the structure-activity relationship was also investigated, there seem to be no convincing correlations among the rank order of lipophilicities and the convulsant potencies of the compounds studied. The lack of marked convulsant properties of cefixime, cefonicid, cefuroxime, and cephradine suggests that these antibiotics may interact with a binding site which is different from that by which the beta-lactam antibiotics exert their convulsant effects or may demonstrate a reduced affinity for the relevant site(s).
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PMID:Relationship between structure and convulsant properties of some beta-lactam antibiotics following intracerebroventricular microinjection in rats. 769 12

The behavioural and convulsant effects of imipenem and meropenem were studied after intraperitoneal administration in DBA/2 mice, a strain genetically susceptible to sound-induced seizure, and in C57 mice, a strain not prone to seizure. DBA/2 mice were more susceptible than C57 mice to seizures induced by imipenem-cilastatin or meropenem. Imipenem was also 1.9 times more potent than meropenem in inducing clonus in DBA/2 mice. To investigate the possibility that the seizure-inducing activity of imipenem might be due to a probenecid-like effect of cilastatin, animals were treated with imipenem alone. No significant differences were observed between imipenem-cilastatin and imipenem-treated animals. Thus, it is reasonable to exclude a probenecid-like effect of cilastatin. Although the main mechanism for seizure-like activity of imipenem cannot be easily determined, we believe that several mechanisms may be involved. An increased excitation of the central nervous system (CNS) by inhibition of GABA binding to receptors and a slow clearance of imipenem from the CNS may be postulated. Cilastatin did not induce seizures. In addition, meropenem, a compound structurally related to imipenem, showed weak or no convulsant effects.
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PMID:Comparative convulsant potencies of two carbapenem derivatives in C57 and DBA/2 mice. 779 Oct 26


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