Relationship between immunosuppression and intensive care unit-acquired multidrug-resistant bacteria: A case-control study*

Autor:	Alain Durocher, Stéphanie Tissier, Saad Nseir, Christophe Di Pompeo, Maimouna Diarra, Marie Boulo, Hélène Brisson
Rok vydání:	2007
Předmět:	Male medicine.medical_specialty medicine.drug_class medicine.medical_treatment Antibiotics Ceftazidime Drug resistance Critical Care and Intensive Care Medicine law.invention Risk Factors law Drug Resistance Multiple Bacterial Neoplasms Internal medicine Intensive care medicine Humans Retrospective Studies Immunosuppression Therapy Cross Infection Infection Control biology business.industry Retrospective cohort study Immunosuppression Bacterial Infections Length of Stay Middle Aged biology.organism_classification Respiration Artificial Intensive care unit Anti-Bacterial Agents Acinetobacter baumannii Surgery Intensive Care Units Logistic Models Case-Control Studies Multivariate Analysis Female business medicine.drug
Zdroj:	Critical Care Medicine. 35:1318-1323
ISSN:	0090-3493
DOI:	10.1097/01.ccm.0000261885.50604.20
Popis:	Objective To determine the relationship between immunosuppression and intensive care unit (ICU)-acquired multidrug-resistant (MDR) bacteria. Design Retrospective case-control study based on prospectively collected data. Setting A 30-bed medical and surgical ICU. Patients All patients hospitalized >48 hrs in the ICU were eligible during a 2-yr period. Interventions Immunosuppression was defined as active solid or hematologic malignancy, leucopenia, or chronic immunosuppressive treatment. MDR bacteria were defined as methicillin-resistant Staphylococcus aureus, ceftazidime- or imipenem-resistant Pseudomonas aeruginosa, Acinetobacter baumannii, Stenotrophomonas maltophilia, and extending spectrum beta-lactamase producing Gram-negative bacilli. MDR bacteria screening (nasal, anal, and axilla swabs and tracheal aspirate in intubated patients) was performed at ICU admission and weekly. Only MDR bacteria isolated >48 hrs after ICU admission were taken into account; duplicates were excluded. Isolation measures were applied in all patients at ICU admission, in patients with MDR bacteria, and in patients with immunosuppression. Immunosuppressed patients (cases) were matched (1:1) with immunocompetent patients (controls) according to all the following criteria: age +/-5 yrs, Simplified Acute Physiology Score II +/-5, duration of ICU stay +/-3 days, and category of admission (medical/surgical). Risk factors for ICU-acquired MDR bacteria were determined using univariate and multivariate analyses. Measurements and main results Of 1,065 eligible patients, nine patients were excluded for absence of MDR bacteria screening at ICU admission. One hundred thirty-three (12%) patients were immunosuppressed, and 128 (96%) of them were successfully matched. Mean time between ICU admission and first ICU-acquired MDR bacteria was 12 +/- 9 days. Incidence of MDR bacteria was significantly higher in cases than in controls (22 vs. 12 MDR bacteria/1000 ICU days, p = .004). However, immunosuppression was not independently associated with ICU-acquired MDR bacteria.Multivariate analysis identified prior antibiotic treatment and antibiotic treatment in the ICU as risk factors for ICU-acquired MDR bacteria (odds ratio [95% confidence interval] = 1.9 [1-3.6], p = .003; 11 [1.4-83], p = .02; respectively). Conclusions Immunosuppression is not independently associated with ICU-acquired MDR bacteria. However, infection control measures used in our ICU may have influenced this result.
Databáze:	OpenAIRE
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