Although eosinophilic pleural effusion (EPE) has been a subject of numerous studies, its clinical significance still remains unclear. The aim of our study was to evaluate: 1) the relative incidence and aetiology of EPE; 2) the predictors of malignancy in patients with EPE; and 3) the relationship between repeated thoracentesis and pleural fluid eosinophilia.A retrospective analysis of 2,205 pleural fluid samples from 1,868 patients treated between 1995 and 2007 was performed.We identified 135 patients with EPE (7.2% of all patients with pleural effusion) and 153 EPE samples. The most common condition associated with EPE was malignancy (34.8%) followed by infectious (19.2%), unknown (14.1%), post-traumatic (8.9%) and miscellaneous (23.0%) pleural effusions. The incidence of malignancy was significantly higher in patients with a lower (f40%) pleural fluid eosinophil percentage. 40 patients with EPE underwent a second thoracentesis. In 16, eosinophilia was present in both pleural fluid samples, 14 revealed pleural fluid eosinophilia only after the second thoracentesis and 10 had eosinophilia only in the first pleural fluid sample.Pleural fluid eosinophilia should not be regarded as a predictor of nonmalignant aetiology. Probability of malignancy is lower in effusions with a high eosinophil percentage. The incidence of EPE in patients undergoing second thoracentesis is not different to that found during the first thoracentesis.KEYWORDS: Eosinophilic pleural effusion, eosinophils, pleural effusion, pleural fluid, pleural fluid eosinophilia E osinophilic pleural effusion (EPE) is usually defined as a pleural effusion (PE) that contains o10% of eosinophils [1,2]. The relative incidence of EPE has been estimated at between 5% and 16% of all PEs [1,[3][4][5], but the clinical significance of pleural fluid eosinophilia remains unclear. Some early studies have shown that pleural fluid eosinophilia is associated with a decreased risk of a malignant aetiology [1]. However, later studies did not confirm these observations [3][4][5]. Another interesting and unresolved issue is a potential causative relationship between the presence of air and/or blood in the pleural space and pleural fluid eosinophilia [1,[6][7][8].Since pleural fluid eosinophilia is uncommon, our knowledge concerning EPE is based on small series and case reports. The majority of reports published before 1982 have been analysed by ADELMAN et al. [1]. However, the results of the studies published in the subsequent 15 yrs questioned some of the conclusions of their analysis.To re-evaluate some of the important issues concerning EPE, we performed an analysis of a large series of samples of PE in our institution (Dept of Internal Medicine, Pneumology and Allergology Medical University of Warsaw, Warsaw, Poland). The specific goals of our study were to: 1) assess the relative incidence and aetiology of EPE; 2) search for the predictors of malignancy in patients with EPE; and 3) evaluate the relationship between the first and repeated thoracentesis and ple...
Podstawowym celem tego dokumentu jest opracowanie spójnych wytycznych dotyczących wskazań, przeciwwskazań, metodyki i zasad interpretacji testu 6-minutowego chodu (6MWT, 6 min walk test) w ramach codziennej praktyki szpitalnej i ambulatoryjnej [...]
We reasoned that, if the lung inflation reflex contributes importantly to apnea-induced sympathetic activation, such activation would be attenuated in bilateral lung transplant recipients (LTX). We measured muscle sympathetic nerve activity (MSNA; intraneural electrodes), heart rate, mean arterial pressure, tidal volume, end-tidal Pco(2), and arterial oxygen saturation in seven LTX and seven healthy control subjects (Con) before, during, and after 20-s end-expiratory breath holds. Our evidence for denervation in LTX was 1) greatly attenuated respiratory sinus arrhythmia and 2) absence of cough reflex below the level of the carina. During apnea, the temporal pattern and the peak increase in MSNA were virtually identical in LTX and Con (347 +/- 99 and 359 +/- 46% of baseline, respectively; P > 0.05). In contrast, the amount of MSNA present in the first 5 s after resumption of breathing was greater in LTX vs. Con (101 +/- 4 vs. 38 +/- 7% of baseline, respectively; P < 0.05). There were no between-group differences in apnea-induced hypoxemia or hypercapnia, hemodynamic, or ventilatory responses. Thus cessation of the rhythmic sympathoinhibitory feedback that normally accompanies eupneic breathing does not contribute importantly to sympathetic excitation during apnea. In contrast, vagal afferent input elicited by hyperventilation-induced lung stretch plays an important role in the profound, rapid sympathetic inhibition that occurs after resumption of breathing after apnea.
Effectiveness of oxygen supplementation from a POC did not differ from the LO source during 6MWT in COPD patients with respiratory failure. Oxygen at 3lpm flow was not sufficient to prevent hypoxaemia during strenuous exercise.
The purpose of this study was to present a retrospective analysis of the frequency of nontuberculous mycobacteria (NTM)-related pulmonary infections among the AFB-positive and/or culture-positive patients in the Warsaw region who were suspected of tuberculosis (TB) and hospitalized in the university hospital between 1999 and 2005. All the AFB-positive pulmonary samples were examined with a molecular method using the Amplicor MTB test (Roche) for detection of Mycobacterium tuberculosis complex, and all mycobacterial isolates were speciated by high performance liquid chromatography (HPLC) analysis of mycolic acids. Patients who met clinical, radiological, and bacteriological criteria of mycobacteriosis were classified according to the American Thoracic Society (ATS) guidelines for diagnosis of NTM related disease. Among the 445 smear-positive or/and culture-positive patients, 142 subjects (31.9%) were found to be infected with M. tuberculosis. Among 303 non-TB patients, mycobacteriosis was found in 27 (8.9%) subjects. The frequency of NTM-related lung disease as compared to the bacteriologically-confirmed lung TB was estimated at 1:5. The rapid, precise methods of NTM speciation are necessary for progress in diagnostics of NTM related diseases.
Airway resistance is the ratio of driving pressure to the rate of the airflow in the airways. The most frequent methods used to measure airway resistance are whole-body plethysmography, the interrupter technique and the forced oscillation technique. All these methods allow to measure resistance during respiration at the level close to tidal volume, they do not require forced breathing manoeuvres or deep breathing during measurement. The most popular method for measuring airway resistance is whole-body plethysmography. The results of plethysmography include among others the following parameters: airway resistance (Raw), airway conductance (Gaw), specific airway resistance (sRaw) and specific airway conductance (sGaw). The interrupter technique is based on the assumption that at the moment of airway occlusion, air pressure in the mouth is equal to the alveolar pressure . In the forced oscillation technique (FOT), airway resistance is calculated basing on the changes in pressure and flow caused by air vibration. The methods for measurement of airway resistance that are described in the present paper seem to be a useful alternative to the most common lung function test - spirometry. The target group in which these methods may be widely used are particularly the patients who are unable to perform spirometry.
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