Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0729233 (Thoracic)
6,478 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of lumbar or thoracic extradural anaesthesia on the ventilatory response to progressive isocapnic hypoxaemia was studied in two groups of 10 unpremedicated patients. The ventilatory measurements were taken twice, before and 20 min after the administration of 10 ml of lignocaine 2%. Lumbar extradural anaesthesia did not change the slope of the hypoxic response curve, but it significantly increased minute ventilation by 27% at an arterial oxygen saturation of 90%. Thoracic extradural anaesthesia was not associated with any changes in either index. We conclude that neither lumbar nor thoracic extradural anaesthesia impairs the ventilatory response to progressive isocapnic hypoxaemia.
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PMID:Effect of extradural anaesthesia on the ventilatory response to hypoxaemia. 846 Jul 96

In an attempt to identify the range of opinions influencing the diagnosis and therapy of patients with the adult respiratory distress syndrome (ARDS), a postal survey was mailed to 3,164 physician members of the American Thoracic Society Critical Care Assembly. The questionnaire asked opinions regarding the factors important in the diagnosis of ARDS and its treatment. Thirty-one percent of physicians surveyed responded within 4 weeks, the vast majority of which were board certified or eligible in Internal Medicine, Pulmonary Disease, and/or Critical Care Medicine. A known predisposing cause, measure of oxygenation efficiency, and a chest radiograph depicting pulmonary edema were reported to be the most important criteria for a clinical and research diagnosis of ARDS. Lung compliance and bronchoalveolar lavage neutrophil or protein content were reportedly less important. The initial treatment of patients with ARDS was reported to be most commonly accomplished using volume-cycled ventilation in the assist/control mode. Nearly half the responders reported using lower tidal volumes (5 to 9 mL/kg) than the traditionally recommended 10 to 15 mL/kg. Most respondents indicated they have intentionally allowed CO2 retention. On average, oxygen toxicity was thought to begin at an FIO2 between 0.5 and 0.6. It was reported that modest levels of positive end-expiratory pressure (PEEP) were used in incremental fashion as FiO2 requirements increased. Perceived indications for insertion of pulmonary artery catheters and compensation of the effects of PEEP on the pulmonary artery occlusion pressure varied widely among the responders. We conclude that reported practice patterns regarding the care of ARDS patients vary widely even within a relatively homogenous group of critical care practitioners.
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PMID:Diagnosis and therapy of acute respiratory distress syndrome in adults: an international survey. 890 79

Respiratory therapy, consists in the administration of gases or drugs via airways; it includes: oxygen, humidity, aerosol therapy, IPPB, chest physiotherapy and mechanical ventilation. Asthmatic patients frequently require oxygen support which is delivered by low and high flow systems, for best results, gases must be humidified, either by bubble or wick humidifiers, heat increases usefulness. Spray is produced by nebulizers and metered dose inhalers, the last are cheaper but they need a certain grade of coordination. Powder inhalers are easier to use. IPPB is indicated in patients with severe fatigue, this method is used sporadically. Chest physiotherapy teaches utilization of relaxation and inferior thoracic respiration techniques. Thoracic percussion must be avoided in an asthmatic crisis. Mechanical ventilation is delivered through a large bore canule, its goal is to assure an adequate gas exchange and to avoid respiratory muscular fatigue.
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PMID:[Inhalation therapy in asthma]. 900 2

In a primary care setting, nurse-midwives will collaboratively manage common lower respiratory conditions that require pharmacologic therapy. As such, they must maintain up-to-date knowledge about the indications, use, and potential side effects of these medications. This article reviews the drugs most commonly used for the out-patient treatment of pneumonia, asthma, tuberculosis, and bronchitis (both acute and chronic). Differences among common oral antibiotics recommended by the American Thoracic Society are described. Inhaled bronchodilator and anti-inflammatory medications are covered, as well as systemic corticosteroids. The use of isoniazid preventive therapy for latent tuberculous infection is described in detail, with brief mention made of other drugs used for active tuberculosis. Adjunct treatments including immunotherapy, vaccines, oxygen supplementation, and nicotine replacement for smoking cessation also are discussed.
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PMID:Pharmacologic management of common lower respiratory tract disorders in women. 923 67

Oxygen-derived free radicals are believed to be involved in diabetes-induced vascular complications. The role of oxygen radicals in endothelial dysfunction in diabetes is not known with certainty. In this study we tested whether inhibition of lipid peroxidation using the potent inhibitor U74389F, a 21-aminosteroid also known as lazaroid, could prevent endothelial dysfunction in diabetes. Lewis strain rats were made diabetic by intravenous injection of streptozotocin. A subgroup of diabetic animals received daily oral doses of 10 mg/kg U74389F at 72 hours post streptozotocin and throughout the 8-week duration of diabetes. Thoracic aortas were isolated and suspended in isolated tissue baths and contracted with norepinephrine. Relaxation due to the endothelium-dependent vasodilator, acetylcholine, was impaired in diabetic aorta while relaxation due to A23187 and nitroglycerin was unaltered. Chronic treatment of diabetic animals with U74389F normalized the increase in plasma lipid peroxides as assessed by thiobarbituric acid-reactive substances but did not alter serum insulin levels, blood glucose concentration, nor total glycosylated hemoglobin. Increases in aortic catalase activity resulting from diabetes was not altered by U74389F. Despite reductions in lipid peroxides, U74389F did not prevent the diabetes-induced impairment in endothelium-dependent relaxation caused by acetylcholine. These data suggest that other pathways that are antecedent to lipid peroxidation may be responsible for endothelial dysfunction in diabetes.
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PMID:Chronic treatment with the 21-aminosteroid U74389F, an inhibitor of lipid peroxidation, does not prevent diabetic endothelial dysfunction. 931 Feb 71

In the evaluation of exercise intolerance of patients with respiratory diseases the American Medical Association (AMA) and the American Thoracic Society (ATS) have proposed similar classification for rating aerobic impairment using maximum oxygen uptake (VO2max) normalized for total body weight (ml min-1 kg-1). However, subjects with the same VO2max weight-corrected values may have considerably different losses of aerobic performance (VO2max expressed as % predicted). We have proposed a new, specific method for rating loss of aerobic capacity (VO2max, % predicted) and we have compared the two classifications in a prospective study involving 75 silicotic claimants. Logistic regression analysis showed that the disagreement between rating systems (higher dysfunction by the AMA/ATS classification) was associated with age > 50 years (P < 0.005) and overweight (P = 0.04). Interestingly, clinical (dyspnea score) and spirometric (FEV1) normality were only associated with the VO2max, % predicted, normal values (P < 0.01); therefore, in older and obese subjects the AMA/ATS classification tended to overestimate the aerobic dysfunction. We conclude that in the evaluation of aerobic impairment in patients with respiratory diseases, the loss of aerobic capacity (VO2max, % predicted) should be used instead of the traditional method (remaining aerobic ability, VO2max, in ml min-1 kg-1).
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PMID:Differences between remaining ability and loss of capacity in maximum aerobic impairment. 969 68

The Thoracic Research Scholarship 1996 of the German Society for Thoracic and Cardiovascular Surgery enabled me to visit Barnes Hospital at the Washington University of St. Louis, USA, from May to July 1996. At that center Prof. J. D. Cooper has established lung-volume reduction surgery as a successful surgical treatment for patients with endstage pulmonary emphysema. The operation is performed using left-sided double-lumen intubation. After opening of the chest and pleura and starting single-lung ventilation the less diseased parts of the second lung collapse due to absorption atelectasis whereas the more diseased portion of the lung stays hyperinflated. Linear staplers buttressed with bovine pericardium are used to resect the diseased parts of the lungs. Approximately 20-30% of the total lung volume can be resected by this way on each side. After inspection of the lungs for air leaks and preparation of pleural tents the pleura is closed bilaterally. Postoperative analgesia is performed via epidural catheter and patients are extubated postoperatively as soon as possible, usually in the operating theatre. 150 bilateral lung-volume reduction procedures for patients with severe emphysema were performed between January 1993 and February 1996 in St. Louis. 6 months postoperatively the 1-second forced expiratory volume had increased by up to 51% and residual volume was reduced by 28%. 70% of patients who required continuous oxygen supply prior to the operation no longer required this measure: the PaO2 had increased by an average of 8 mmHg. These data demonstrate that bilateral lung-volume reduction surgery is a suitable treatment for patients with terminal pulmonary emphysema. Most important for the success of this procedure are clear selection and specific perioperative treatment of the patients.
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PMID:German Thoracic Research Scholarship 1996: lung volume reduction for endstage pulmonary emphysema at the Washington University of St. Louis. 971 99

The purpose of this study was to determine if endothelin-1 (ET-1) mediates endothelium-dependent enhancement of rat aortic contractility following exposure to hypoxia. Rats breathed room air or 10% oxygen for 12 or 48 h. Thoracic aortas and plasma were analysed for ET-1 content by radioimmunassay. Aortic rings were mounted in organ bath myographs for measurement of isometric tension during activation by phenylephrine (10(-9)-10(-4) M), in the presence and absence of BQ-123. In some rings, the endothelium was removed. Plasma ET-1 levels were 0.79+/-0.09 pg/ml, 2.00+/-0.36 and 1.88+/-0.21 pg/ml, in normoxic rats and rats exposed to hypoxia for 12 or 48 h respectively (P<0.001, 12 or 48 h vs. control). Aortic ET-1 concentrations were 202.3+/-20.8 fg/mg in normoxic rats, compared to 274.9+/-40.6 fg/mg and 292.4+/-24.4 fg/mg in rats exposed to hypoxia for 12 and 48 h, respectively (P<0.01, 12 or 48 h vs. control) and 155.0+/-43.1 fg/mg in de-endothelialized aortas from rats exposed to hypoxia for 48 h (P>0.05 vs. normoxic controls). Maximum tension during phenylephrine-induced contraction was 0.46+/-0.04 mg/g and 0.33+/-0.03 mg/g in endothelialized rings from rats exposed to hypoxia for 48 h in the presence and absence of BQ-123, respectively (P<0.05 for difference), and 0.28+/-0.07 mg/g in rings in which the endothelium had been removed. Local endothelin release is an important mechanism by which the responsiveness of the systemic vasculature to agonists may be preserved during hypoxia.
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PMID:Enhancement of aortic contractility by endothelin following prolonged hypoxia in vivo. 991 55

Guidelines on the management of chronic obstructive pulmonary disease (COPD) issued by the European Respiratory Society (ERS), British Thoracic Society (BTS), American Thoracic Society (ATS), and Department of Health for England and Wales (DoH) suggest differing values of forced expiratory volume in 1 s (FEV1) below which arterial blood gas analysis should be performed to determine the presence of severe hypoxaemia and possible long-term oxygen therapy (LTOT) requirement. This study aimed to determine the value of FEV1 at these different levels in screening for LTOT requirement defined as PaO2 < 7.3 kPa in subjects with stable COPD. Comparative measures were taken against other lung function tests of volume and diffusing capacity. A retrospective analysis of paired lung function and arterial oxygen measurements in 491 subjects was made. The positive and negative predictive values, sensitivity and specificity of FEV1 < 70% predicted (ERS), FEV1 < 50% predicted (ATS), FEV1 < 40% predicted (BTS) and FEV1 < 1.51 (DoH) were determined for fulfilling LTOT criteria (PaO2 < 7.3 kPa). The correlation between lung function variables and PaO2 was established. Logistic regression analysis was used to classify subjects with PaO2 < 7.3 kPa and PaO2 > or = 7.3 kPa. Using FEV1 to screen for LTOT requirement produced a high negative predictive value at all four suggested limits (FEV1 < 70% 100%, FEV1 < 50% 96%, FEV1 < 40% 95%, FEV1 < 1.51 97%). However, the positive predictive values were low (FEV1 < 70% 13%, FEV1 < 50% 16%, FEV1 < 40% 19%, FEV1 < 1.51 15%) as were sensitivities. No single lung function variable was a strong determinant of PaO2. FEV1 % pred (r = 0.40), FVC % pred (r = 0.34) and TLCO % pred (r = 0.27) had the strongest relationships. Logistic regression also placed FEV1 % pred and TLCO % pred as the best predictors of PaO2 < 7.3 kPa. We conclude no lung function variable correlates well with PaO2 in subjects with stable COPD. The best predictor of PaO2 < 7.3 kPa was FEV1 % pred. Whilst a low FEV1 is a poor predictor of LTOT requirement in an individual, PaO2 < 7.3 kPa is only found in subjects with a low FEV1. A high FEV1 may be used to exclude subjects from further investigation for LTOT and prevent unnecessary arterial sampling.
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PMID:The value of forced expiratory volume in 1 s in screening subjects with stable COPD for PaO2 < 7.3 kPa qualifying for long-term oxygen therapy. 992 66

In twelve patients with severe emphysema who underwent lung volume reduction surgery (LVRS), we assessed the results of dyspnea scale, pulmonary function, 6-minute walk distance (6MD), and thoracic movement prior to and 6 months following LVRS. Postoperatively, forced expiratory volume (FEV1), maximum inspiratory mouth pressures (MIP), maximum expiratory mouth pressures (MEP), maximum voluntary ventilation (MVV), diffusing capacity for carbon monoxide (DLCO), partial pressure of oxygen (PaO2) and 6MD were significantly increased with the decrease in dyspnea scale and lung hyperinflation. Thoracic movement, as assessed by the bilateral lung area ratio of the mid-sagittal dimension of dynamic magnetic resonance imaging (MRI) at full inspiration to that at full expiration, was significantly increased. The improvement in thoracic movement was significantly correlated with the increases in FEV1, MVV, and MIP, and with the decrease in residual volume (RV), and with the improvement in the dyspnea scale. These findings suggest that LVRS is an effective procedure for improving not only the airflow limitation and gas exchange but also the thoracic movement in severe emphysema, and these improvements may contribute to an increase in exercise performance and relief of dyspnea.
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PMID:Improvements in thoracic movement following lung volume reduction surgery in patients with severe emphysema. 1022 58


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