C Lessard scite author profile

The choice of antimicrobial therapy for the treatment of bacteremia is often empirical and based on the knowledge of antibiotic susceptibility profiles of the most common bacteria causing such infections. It therefore is crucial to survey the susceptibility of bacteria causing sepsis. This study examines the susceptibility profiles of 941 gram-negative bacteria, isolated from septic patients in 10 Canadian hospitals, to 28 antimicrobial agents. Among the isolates, 30 different species were represented; Escherichia coli dominated, representing 52.5% of isolates. More than 50% of all bacteria were resistant to ampicillin. Only 67% of the E. coli isolates were susceptible to ampicillin, while 30% of all strains were resistant to ticarcillin. Of the cephalosporins, ceftazidime and cefoperazone/sulbactam were the agents to which isolates were the most susceptible (90%). Only 51% of the E. coli strains were susceptible to cephalothin, while 91% were still susceptible to cefazolin. A total of 93% and 98% of the strains were susceptible to aztreonam and imipenem, respectively. Aminoglycosides were highly active against most isolates, in general in the following order: netilmicin greater than tobramycin greater than gentamicin greater than amikacin. Tobramycin was the most active against Pseudomonas aeruginosa. Nearly all isolates were susceptible to the quinolones. Tolerance (MBC/MIC ratio, greater than or equal to 32) was rarely observed. This survey of the susceptibility of gram-negative bacteria causing sepsis provides valuable information for implementing the chemotherapy for gram-negative septicemia and demonstrates that several older and newer agents, alone or in combination, can be used as adequate initial therapy for gram-negative sepsis in Canada.

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Disturbed Intrarenal Distribution of Gentamicin in Experimental Pyelonephritis Due to Escherichia coli

Bergeron

Trottier

Lessard

et al. 1982

Journal of Infectious Diseases

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The intracortical, medullary, and papillary distribution of gentamicin was studied in normal and pyelonephritic rats. The animals were evaluated from 1 hr to 365 days after the end of therapy with either a single dose or two daily injections given every 12 hr for seven days. The serum levels of gentamicin at 1 hr were significantly (P less than 0.001) higher in the pyelonephritic rats than in the normal rats after one dose (26 vs. 12 microgram/ml) and 14 doses (25.7 vs. 8.8 microgram/ml). Peak concentrations or gentamicin in all parts of infected kidneys were significantly (P less than 0.001) higher than in normal kidneys. Gentamicin was still detectable at levels of 1.2 microgram/g in the cortex of one pyelonephritic animal one year after the end of therapy, when the levels of both serum creatinine (1.1 mg/100 ml) and blood urea nitrogen (30 mg/100 ml) were much higher than at seven days after the end of therapy (0.5 and 19 mg/100 ml, respectively).

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Norfloxacin penetration into human renal and prostatic tissues

Bergeron¹,

Thabet²,

Roy³

et al. 1985

Antimicrob Agents Chemother

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Daptomycin may attenuate experimental tobramycin nephrotoxicity by electrostatic complexation to tobramycin

Couture

Simard

Gourde

et al. 1994

Antimicrob Agents Chemother

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). In an attempt to explain these results, the in vivo and in vitro interactions between daptomycin and tobramycin were studied. Tobramycin alone and preincubated with negatively charged phospholipid bilayers (liposomes) was dialyzed against increasing concentrations of daptomycin in buffer at pH 5.4. A significant drop in the concentration of tobramycin was observed when daptomycin was added to the opposite half cells. Furthermore, daptomycin induced a concentration-dependent release of lipid-bound tobramycin. Gold labeling experiments showed that daptomycin could be incorporated into phospholipid layers. Female Sprague-Dawley rats were treated with daptomycin alone, with tobramycin alone, or with the combination over 2 to 10 days. Levels of daptomycin and tobramycin in serum were similar in all groups. The levels of tobramycin in the renal cortex increased significantly with time and, on day 10, reached values of 654 ± 122 and 844 ± 298 ,ug/g of tissue (mean ± standard deviation; not significant) in animals treated with tobramycin and the combination of daptomycin-tobramycin, respectively. No significant difference was observed in the levels of tobramycin in the kidneys between animals treated with tobramycin or the daptomycin-tobramycin combination at any time. By contrast, daptomycin levels were significantly higher in the renal cortexes of animals treated with daptomycin-tobramycin in comparison with those in the renal cortexes of animals treated with daptomycin alone on days 6, 8, and 10 (P < 0.01). For immunogold labeling studies, animals were killed 4 h after a single injection of daptomycin alone or daptomycin in combination with tobramycin. Daptomycin was found throughout the matrixes of the lysosomes of proximal tubular cells of animals treated with daptomycin alone. In animals treated with the combination of daptomycin and tobramycin, daptomycin was associated with intralysosomal myeloid bodies. Our results suggest that daptomycin might attenuate experimental aminoglycoside nephrotoxicity by interacting with the aminoglycoside, perhaps electrostatically, and thereby protecting intracellular targets of toxicity.

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Encapsulation of foscarnet in liposomes modifies drug intracellular accumulation, in vitro anti-HIV-1 activity, tissue distribution, and pharmacokinetics

Dusserre

Lessard

Paquette

et al. 1995

AIDS

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C Lessard

Antibiotic Susceptibility Profiles of 941 Gram-Negative Bacteria Isolated from Septicemic Patients Throughout Canada

Disturbed Intrarenal Distribution of Gentamicin in Experimental Pyelonephritis Due to Escherichia coli

Norfloxacin penetration into human renal and prostatic tissues

Daptomycin may attenuate experimental tobramycin nephrotoxicity by electrostatic complexation to tobramycin

Encapsulation of foscarnet in liposomes modifies drug intracellular accumulation, in vitro anti-HIV-1 activity, tissue distribution, and pharmacokinetics

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