You searched for:"Pedro Paulo Martins"
We found (2) results for your search.Abstract
Rev Bras Ter Intensiva. 2017;29(2):180-187
DOI 10.5935/0103-507X.20170028
To analyze patients after cardiac surgery that needed endotracheal reintubation and identify factors associated with death and its relation with the severity scores.
Retrospective analysis of information of 1,640 patients in the postoperative period of cardiac surgery between 2007 and 2015.
The reintubation rate was 7.26%. Of those who were reintubated, 36 (30.3%) underwent coronary artery bypass surgery, 27 (22.7%) underwent valve replacement, 25 (21.0%) underwent correction of an aneurysm, and 8 (6.7%) underwent a heart transplant. Among those with comorbidities, 54 (51.9%) were hypertensive, 22 (21.2%) were diabetic, and 10 (9.6%) had lung diseases. Among those who had complications, 61 (52.6%) had pneumonia, 50 (42.4%) developed renal failure, and 49 (51.0%) had a moderate form of the transient disturbance of gas exchange. Noninvasive ventilation was performed in 53 (44.5%) patients. The death rate was 40.3%, and mortality was higher in the group that did not receive noninvasive ventilation before reintubation (53.5%). Within the reintubated patients who died, the SOFA and APACHE II values were 7.9 ± 3.0 and 16.9 ± 4.5, respectively. Most of the reintubated patients (47.5%) belonged to the high-risk group, EuroSCORE (> 6 points).
The reintubation rate was high, and it was related to worse SOFA, APACHE II and EuroSCORE scores. Mortality was higher in the group that did not receive noninvasive ventilation before reintubation.
Abstract
Rev Bras Ter Intensiva. 2007;19(4):428-433
DOI 10.1590/S0103-507X2007000400004
BACKGROUND AND OBJECTIVES: Hospitalized patients receiving treatment at intensive care units (ICU) usually show poor oral hygiene, and may have the mouth and oropharingeal region colonized by pathogens involved in nosocomial pneumonia. The presence of these pathogens may increase the risk for respiratory diseases. The aim of this study was to investigate the presence of respiratory pathogens in the oral cavity of hospitalized patients at ICU. METHODS: Were included in the study 30 patients from Hospital Raul Sertã, Nova Friburgo, with the diagnostic of nosocomial pneumonia, and tracheal aspirate samples were cultured to identify the causing microorganisms. In addition, microbiological samples from supragingival dental plaque, tongue and respiratory tube were cultured for the presence of a panel of respiratory pathogens. RESULTS: The most frequently found bacteria in the tracheal aspirate were S. Pneumoniae 23.3% (7), P. aeruginosa 20% (6), S. aureus 13.3% (4), K. pneumoniae 13.3% (4), C. albicans 6.6% (2), a-hemolytic streptococcus 6.6% (2), Staphylococcus sp. 6.6% (2), A. calcoaceticus 3.3% (1), E. coli 3.3% (1) and E. cloacae 3.3% (1). 70% (21) of these microorganisms were found in the dental biofilm, 63.33% (19) in tongue samples; 73.33% (22) in the respiratory tube; and 43.33% (13) in all sampling sites simultaneously. No differences in proportions could be observed between the sampling sites (p > 0.05) CONCLUSIONS: The results of this study show that respiratory pathogens associated with nosocomial pneumonia are present in the oral biofilm of hospitalized patients in ICU, which may serve as a reservoir for these microorganisms.