Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0085383 (hypocapnia)
 1,697 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this experimental study, we investigated pathophysiology of respiratory failure with acute pancreatitis. Pancreatitis was induced by injection of 15% Na-taurocholate 1 ml/kg into the main pancreatic duct of the dogs. Experimental dogs were divided into two groups based on the value of Respiratory Index (R-Index). Group A included 9 dogs in whom respiratory failure was not recognized (R-Index less than 0.5) and Group B included 9 dogs with respiratory failure (R-Index less than 0.5). All the dogs were sacrificed 12 hours after induction of pancreatitis, and histological findings were examined. Quantity of water in the lung (Qwl) was also measured by gravimetric method. Group B showed severe hypoxia with hypocapnia, and increase of A-aDO2, R-Index, and decrease of a/A PO2. Qwl in Group B increased significantly comparing with Group A. In biochemical study, increase of serum lipase, triglyceride, free fatty acid, and angiotensin converting enzyme were observed in Group B. These results indicate that respiratory failure with acute pancreatitis is due to lung edema following injury of the capillary of the lung. The role of free fatty acid liberated by lipolysis was suggested in the mechanism of pulmonary damage with acute pancreatitis.
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PMID:[Experimental study of respiratory failure with acute pancreatitis in dogs]. 241

Central sleep apnoea (CSA) in congestive heart failure is sleep state dependent and occurs typically in stages I and II of non-REM sleep. The pre-requisites are hypocapnia and some prolongation of the circulation time. It is not certain whether abnormalities in after-discharge activity in the brainstem are also important. The presence of CSA in patients with left ventricular dysfunction is a poor prognostic sign and associated with a higher mortality in that group compared to age, sex and ejection fraction matched patients with congestive cardiac failure alone. It is reasonable to speculate that the CSA causes an increase in sympathetic nervous system activity which would maintain afterload at a high level or tend to increase it with time. The application of a high afterload to an impaired left ventricle leads over time to a further reduction in ejection fraction. From other studies, particularly ACE inhibitor studies, it is known that ejection fraction and prognosis are almost linearly related. It could therefore be said that once CSA has developed it may lead to a vicious circle of increasing afterload and further reduction in ejection fraction, causing worsening CSA and further increases in afterload. A number of treatments have been shown to be of benefit: supplemental nocturnal oxygen therapy, acetazolamide and nasal CPAP therapy have all been shown to reduce CSA. In addition nasal continuous positive airways pressure (CPAP) has been shown by two groups in Canada to also improve ejection fraction. The beneficial effects on ejection fraction in particular, persist after the treatment has been withdrawn, which suggests either remodelling of the left ventricular musculature or a resetting of the baseline sympathetic nervous system activity. The impressive increase in ejection fraction due to three months nasal CPAP therapy in one study (an average 35% increase) is both dramatic and exciting for the future. It is reasonable to expect improvement in prognosis for patients with CCF whose ejection fraction rises with CPAP treatment. Finally, only a limited number of studies have been published. Unfortunately the impressive results from Canada have not yet been reproduced in other centres around the world.
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PMID:Central sleep apnoea and heart failure (Part I). 952 93

Central sleep apnoea (CSA) in congestive heart failure is sleep state dependent and occurs typically in stages I and II of non-REM sleep. The pre-requisites are hypocapnia and some prolongation of the circulation time. It is not certain whether abnormalities in after-discharge activity in the brainstem are also important. The presence of CSA in patients with left ventricular dysfunction is a poor prognostic sign and associated with a higher mortality in that group compared to age, sex and ejection fraction matched patients with congestive cardiac failure alone. It is reasonable to speculate that the CSA causes an increase in sympathetic nervous system activity which would maintain afterload at a high level or tend to increase it with time. The application of a high afterload to an impaired left ventricle leads over time to a further reduction in ejection fraction. From other studies, particularly ACE inhibitor studies, it is known that ejection fraction and prognosis are almost linearly related. It could therefore be said that once CSA has developed it may lead to a vicious circle of increasing afterload and further reduction in ejection fraction, causing worsening CSA and further increases in afterload. A number of treatments have been shown to be of benefit: supplemental nocturnal oxygen therapy, acetazolamide and nasal CPAP therapy have all been shown to reduce CSA. In addition nasal continuous positive airways pressure (CPAP) has been shown by two groups in Canada to also improve ejection fraction. The beneficial effects on ejection fraction in particular, persist after the treatment has been withdrawn, which suggests either remodelling of the left ventricular musculature or a resetting of the baseline sympathetic nervous system activity. The impressive increase in ejection fraction due to three months nasal CPAP therapy in one study (an average 35% increase) is both dramatic and exciting for the future. It is reasonable to expect improvement in prognosis for patients with CCF whose ejection fraction rises with CPAP treatment. Finally, only a limited number of studies have been published. Unfortunately the impressive results from Canada have not yet been reproduced in other centres around the world.
 ...
PMID:Central sleep apnoea and heart failure (part II). 965 53