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- ABCESSOS PULMONARES: REVISÃO DE 60 CASOSPublication . Magalhães, L.; Valadares, D.; Oliveira, J.; Reis, E.
- Clinical Usefulness of Streptococcus pneumoniae Urinary Antigen in Patients Hospitalized with Non-Nosocomial PneumoniaPublication . Ferreira, J.; Abreu, M.; Rodrigues, P.; Maia, J.; Leuschner, P.; Correia, J.Introduction : Community acquired pneumonia (CAP) is a major cause of hospital admissions and mortality in developed countries. Nevertheless, in about half of the cases a microbial etiology can`t be determined. The need to improve the diagnostic tools of this disease has led to the development of new techniques, such as Streptococcus pneumoniae urinary antigen. Objectives : To analyse the usefulness of the urinary antigen in determining the etiologic diagnosis of pneumonias and its influence in the antibiotherapy modification. Methods : Retrospective analysis of hospitalized patients in 2010 with CAP (n=226) and healthcare associated pneumonia (HCAP) [n=64] diagnosis whose urinary pneumococcal antigen has been analyzed. Results: Median age was significantly greater in HCAP. HCAP patients had more co-morbidities and higher severity scores. Twenty-one patients in the CAP group and 4 patients in the HCAP group had positive pneumococcal antigen. The sensibility of urinary antigen in determining pneumococcal pneumonias was 36% and the specificity 89%. Almost one quarter of the 25 patients with positive urinary antigen had appropriate reductions in antimicrobial spectra, which was not statistically significant when compared with the group with negative urinary antigen. There was a significant relation between a positive urinary antigen and pneumonia severity. Conclusions: Considering its high specificity, the urinary antigen is useful to confirm the presence of pneumococcal pneumonia. Potentially urinary antigen can help to avoid unnecessary treatments in hospitalized patients with CAP.
- Eritema multiforme major a Herpes simplex 1 no adultoPublication . Brochado, B.; Santos, S.; Sousa, F.; Faria, R.
- Spontaneous Pneumothorax: A 5-Year ExperiencePublication . Sousa, C.; Neves, J.; Sa, N.; Gonçalves, F.; Oliveira, J.; Reis, E.BACKGROUND: Spontaneous pneumothorax (SP) is defined by the presence of air in the pleural space without history of trauma. It is classified as secondary if coexisting with underlying pulmonary disease. Its an entity with considerable incidence and treatment particularities which give reason for a reflection on the subject. We present a 5-year casuistry, characterizing the SP epidemiology, clinical presentation, investigation and therapeutic choices. METHODS: Sixty-six patients were included in the study, corresponding to 93 episodes of SP. RESULTS: We have found male predominance and the mean age was 34.5 years old. In 60.6% of cases there was history of tobacco use; 36.4% of cases were classified as secondary; 30.1% of patients with secondary SP and 21.7% with primary SP recurred; 89.2% had an acute presentation. The most frequent initial symptom was chest pain (90.3%) and 81.7% had diminished breath sounds. In 17.3% it was documented a physical strain associated. We did not identify statistically significant association between the SP occurrence and the variation of the atmospheric pressure, on the first day of symptoms. In 12.9% of episodes the initial treatment option was observation. In most of the episodes the lung totally expanded. However, in 29.1% of the episodes surgical treatment was needed. CONCLUSIONS: Our results are similar to the literature. Some clinical records are incomplete, demanding the implementation of rules to improve knowledge about this matter.
- Stability of blood gases when refrigeratedPublication . Ferreira, J.; Silva, S.; Rodrigues, P.; Abreu, M.; Maia, J.; Carvalho, D.; Carvalho, L.Background: Blood gas analysis is a widely used procedure. In clinical practice, the physicians may not always have a blood gas analyzer in their proximity. Not infrequently, blood gas samples are stored in a fridge or on ice and read retrospectively. Continued anaerobic and aerobic metabolism in the blood may alter blood gases in the interval between drawing arterial blood and its analysis, which may cause a fall in the PaO2 and pH and a rise in the PaCO2. Methods: Two sets of arterial blood samples were obtained from hospitalized patients. After the initial analysis, one sample from each patient was put in raw ice within a specimen bag (0 to +1 oC) and the other in the fridge (+4 to +8 oC). These samples were submitted to serial analysis at 30 minutes, 1 hour and 2 hours after the initial analysis. Results: Two hundred arterial blood gas results from 25 patients were analysed. The mean values of PaO2, PaCO2, HCO3-, Na+, K+, Ca2+ and lactate at 0 minutes, 30 minutes, 1 hour and 2 hours were not signifi cantly different between the two alternatives of storage. However, within each group, signifi cant changes were found over time for PaO2, K+, Na+, Ca2+ and lactate. Conclusions: When using plastic syringes, arterial blood gas analysis should be processed shortly after collecting the sample. Despite the fact that low temperatures can slow down the metabolism, neither the ice nor the fridge preserved all the sample parameters.