Articles: respiratory-distress-syndrome.
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Patients undergoing prolonged, complex oncological surgery are at increased risk of developing the adult respiratory distress syndrome (ARDS) and other organ failures. Our hypothesis is that maintaining adequate tissue perfusion and oxygenation may prevent tissue hypoxia and acidosis in pulmonary, peripheral, and splanchnic microcirculations. Experimental evidence suggests that the hypoxic, acidotic endothelium stimulates the release of cytokines, kinins, and other mediators. ⋯ Nitroglycerin and fluids were used to maintain tissue perfusion and prevent tissue hypoxia as reflected by transcutaneous oxygen tension values. In 155 high-risk patients, none developed ARDS. We conclude that maintenance of tissue perfusion and oxygenation in high-risk surgical patients decreases the incidence of ARDS.
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Despite numerous advances in critical care, the mortality of postinjury acute respiratory distress syndrome (ARDS) remains high. Recently, permissive hypercapnia (PHC) has been shown to be a viable alternative to traditional ventilator management in patients with ARDS. However, lowering tidal volume, as employed in PHC, below 5 cc/kg impinges upon anatomic dead space and precipitates a significant rise in PaCO2 The purpose of this study was to determine if continuous tracheal gas insufflation (cTGI) is a useful adjunct to PHC by lowering PaCO2, thus allowing adequate reduction in minute ventilation to achieve alveolar protection. ⋯ Continuous TGI is a useful adjunct to permissive hypercapnia, allowing maintenance of an acceptable pH and PaCO2 while allowing further reduction in tidal volume and minute ventilation.
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It is standard practice for physicians to use blood gas (BG) evaluations when evaluating neonates with respiratory distress. In this study we addressed two questions: (1) What is the distribution of BG values in a population of infants receiving BG evaluation in the first 4 hours of life; and (2) How does the behavior of physicians correlate with BG values in these infants? We discuss the implications of our findings for claims about "standards" of medical care for newborn infants with respiratory distress. We reviewed medical records for 226 infants with birthweight > 2000 grams who were not intubated at the time of first BG determination. ⋯ Recognizing that anecdotal recall of experience, even by "experts," may be inaccurate and is often systematically biased (the "Monday morning quarterback" phenomenon), we propose that the testimony of expert witnesses ought to conform, whenever possible, to a data-based description of medical care that actually is "ordinary used in similar circumstances". Our current observations suggest that (1) expert opinions of the "standard" to evaluate neonatal respiratory distress with a BG sample should reflect that the time scale is 1 to 2 hours, not 10 to 20 minutes; and (2) expert opinions that "abnormal" BG values either "require" or "preclude" intubation for most newborn infants with respiratory distress find little support in data. Clinical observation, not BG values, appears to be the most powerful "standard" by which physicians determine whether to initiate mechanical ventilation for newborn infants with respiratory distress.
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Results of a national survey of the current use of steroids in newborns in 1993 showed that 95% of the neonatologists in the United States have used dexamethasone for neonates at risk for chronic lung disease. Dexamethasone therapy for a period of a week or longer is associated with suppression of the hypothalamic-pituitary-adrenal axis (HPAA) in a substantial number of premature infants. A review of our current understanding of the biochemical tests evaluating HPAA function in premature infants and suggested guidelines for HPAA evaluation and management following dexamethasone therapy are presented.
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Zhonghua Yi Xue Za Zhi (Taipei) · Nov 1996
Case ReportsHypercapnic respiratory acidosis precipitated by hypercaloric carbohydrate infusion in resolving septic acute respiratory distress syndrome: a case report.
Complications may occur when nutritional support is administered either parenterally or enterally. Inappropriate nutritional formulas with high carbohydrate loads can precipitate respiratory failure in patients with compromised lung function, induce respiratory distress which manifests as dyspnea and tachypnea in an originally normal lung condition, produce hypercapnic acidosis in mechanically ventilated patients with chronic obstructive pulmonary disease (COPD) as well as patients recovering from acute respiratory distress syndrome (ARDS) without chronic lung disease, or result in difficult weaning. ⋯ As carbohydrate calories were decreased, CO2 production diminished and the hypercapnia was resolved. The importance of indirect calorimetry cannot be overemphasized during tailoring of nutritional support for the critically ill patients.