UMLS:C0018801 - FACTA Search

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasma ADH, PA and PRA in patients with respiratory failure (RF) were studied. RF patients were divided into 4 groups, i.e. acute RF (ARF) and chronic RF (CRF), with or without hypercapnia. The levels of these hormones were significantly higher in RF than those in control subjects, moreover, they were markedly elevated in ARF than those in CRF. In multiple regression analysis, ADH correlated with PaO2, pH and PRA in RF patients, but correlated with serum osmolality in control subjects. It was considered that ADH in RF was affected by the direct effect of blood gases and circulatory disorder. The mechanism of elevated PA and PRA in RF probably was mediated through restriction of intake of water and Na, reduction of renal blood flow and decreased ACE often occurred in RF. Abnormally elevated hormones are more often recognized in edematous patients than in nonedematous patients. It was suggested that many patients with RF develop heart failure or edema due to hormonal abnormalities.
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PMID:[ADH (anti-diuretic hormone), aldosterone (PA) and renin activity (PRA) in patients with respiratory failure]. 269 88

The histories and the results of the postmortem examinations of 507 patients with chronic pulmonary heart disease were studied. In 62.6% of them left ventricular hypertrophy was found. As probable causes for this left ventricular hypertrophy are suggested: arterial hypertension, ischemic heart disease, hypoxemia, hypercapnia, heart failure, diabetes mellitus. The weight measurement correlations between the left and the right heart ventricles were studied in: "normal hearts", hearts with right ventricular, hypertrophy only, hypertrophy of both ventricles, left ventricular hypertrophy only. A correlation between the mass increase and the wall thickness of the ventricles was established. In the patients with chronic pulmonary heart disease and hypertrophy of both ventricles the mass and the wall thickness of the ventricles increase simultaneously. The possible pathogenetic mechanisms of the left ventricular involvement in patients with chronic pulmonary heart disease are discussed.
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PMID:[Left heart ventricle in chronic cor pulmonale patients. Etiological, pathomorphological and organ weight measurement studies]. 296 38

Sleep related disorders of respiratory regulation can result, through various mechanisms, in impairment of the hemodynamics of the heart and the systemic and pulmonary circulations. The group of patients with sleep apnea has been most thoroughly investigated thus far. The patients frequently develop essential and/or pulmonary hypertension. In sleep all forms of cardiac arrhythmia may occur, and thus the patients are at high risk for nocturnal sudden cardiac death. Responsibility for most hemodynamic alterations is attributed to apnea-induced hypoxia and hypercapnia and the intrathoracic pressure fluctuations observed in obstructive apnea. However, we are still short of detailed knowledge regarding the individual pathologic mechanisms. The hemodynamic changes observed in patients with sleep related disorders of respiratory regulation lead in the long run to cardiac failure. Early diagnosis and care of these patients is therefore urgently necessary to render timely therapeutic action possible.
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PMID:[Cardiovascular diseases in nocturnal disorders of respiratory regulation]. 305 70

The present study was undertaken to examine the effects of changes in PaCO2 and pHa on myocardial blood flow and central hemodynamics during acute ischemic left ventricular failure. Six closed-chest dogs anesthetized with pentobarbital were hyperventilated, and CO2 was added to the inspiratory gas to induce: a) normocapnia, b) hypocapnia, c) hypercapnia, and d) hypercapnia with sodium carbonate given to correct pH. Embolization of the left coronary artery with 50-microns microspheres resulted in deterioration of left ventricular function, as indicated by increased left ventricular end-diastolic pressure and mean pulmonary arterial pressure, while cardiac output decreased. During hypocapnia with left ventricular failure, the central hemodynamics remained unchanged, while a minor but nonsignificant decrease in myocardial blood flow was observed. Hypercapnia aggravated the heart failure, as indicated by increased left ventricular end-diastolic pressure, mean right atrial pressure, and mean pulmonary arterial pressure; however, the pump function of the heart was unchanged, as demonstrated by the unaltered cardiac output, heart rate, and mean aortic blood pressure. The changes in the central hemodynamics were reversed when pH was normalized during hypercapnia. Thus, in the present study pH, and not PaCO2, was responsible for the hemodynamic deterioration observed during hypercapnia in the failing heart.
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PMID:Effects of carbon dioxide and pH on myocardial function in dogs with acute left ventricular failure. 311 92

Blood gas and haemodynamic changes caused by chronic respiratory insufficiency affect the right ventricle and produce chronic cor pulmonale. Equally important but less well known modifications affect the left ventricle and the general circulation and are the subject of the present report. Hypoxemia, hypercapnia and acidosis caused by severe hypoxia create functional disturbances in both ventricles that are manifested in a volume overload that added to other major malfunctions provoke congestive heart failure. The coronary circulation is affected by metabolic factors, perfusion alterations, right ventricular hypertrophy and concomitant coronary lesions. Advanced respiratory insufficiency caused by poorly compensated respiratory acidosis and metabolic acidosis reduces cardiac output and frequency so that tissue perfusion is compromised. Furthermore alterations in transmembrane electrolytic concentrations produce repeated multifocal ventricular arrhythmias that expose the patient to the risk of sudden death. Cardiac failure is reflected in other organs like the kidney and the central nervous system and also contributes to tissue and cerebral hypoxia. The later depresses the respiratory centres and develops into often irreversible coma. A better knowledge of these elements may contribute to the development of appropriate treatment.
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PMID:[General cardiocirculatory effects in chronic respiratory insufficiency]. 354 42

Studies are reported of four patients (all lifetime non-smokers) who presented with right heart failure as a consequence of unrelieved asthmatic airways obstruction. These patients demonstrated severe airways obstruction with crackles on auscultation and hypercapnia. As shown here, such a presentation, without the usual pattern of dyspnoea and wheeze, tends to obscure the diagnosis and delays effective treatment. In three of the patients, treatment to relieve airways obstruction improved gas exchange, and the heart failure resolved. In the remaining patient, improvement was limited, and death ensued from respiratory failure. In patients who present with right heart failure, a relationship with airways obstruction and respiratory failure should be considered and assessed by objective tests. Delays in the effective treatment of these patients may result in the progression of their disease to a stage at which airways obstruction no longer responds to medical therapy.
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PMID:Malignant asthma presenting as right heart failure. 360 Apr 57

In order to study the effects of hypoxic and hypercapnic respiratory gas mixtures on brain activity, the auditory nerve brain stem evoked potentials (ABP) were recorded in 6 human volunteers and in 12 cats while they were breathing various gas mixtures. In humans, no effect of gas mixtures containing 9-13% O2 or 7.5-10% CO2 was observed on the wave form, latency and amplitude of the ABP. The cats were exposed to up to 25% CO2 and down to 5.5% O2 or to combined hypoxic and hypercapnic gas mixtures for up to 45 min while recording ABP and monitoring CO2 and O2 in the respired gases, arterial blood gas levels, pH, arterial blood pressure, body temperature and EEG. The extremes of pH were 6.68 and 7.46. The EEG was depressed or became isoelectric during hypercapnia. In general, the wave form, amplitude and latencies of the ABP waves were not much affected by these conditions. Loss of ABP was observed only when the animal was ventilated with about 5% O2 and this was secondary to and following cardiac failure and depressed arterial blood pressure, presumably leading to brain ischaemia. Thus, even though the cortex (EEG) is depressed, the brain stem seems to be resistant to these alterations in the blood gases in spite of the relatively higher rates of metabolism reported for the brain stem auditory structures.
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PMID:Auditory nerve-brain stem potentials in man and cat under hypoxic and hypercapnic conditions. 617 95

Hypoxemia, hypercarbia, and cor pulmonale ultimately occur in most patients with chronic lung disease. Although oxygen therapy may reduce or delay the development of pulmonary hypertension and myocardial failure in these patients, its use is thought to lead to CO2 narcosis and apnea. The effect of O2 administration during sleep has been examined in 12 patients (seven with cystic fibrosis, three with bronchopulmonary dysplasia, one with bronchiolitis obliterans, and one with severe hypersensitivity pneumonitis) using skin surface O2 (Roche) and CO2 (Radiometer) electrodes. Both electrodes were calibrated over wet gas and applied at 44 C. Ten patients had chronic hypercarbia (PaCO2 62 +/- 19 torr; range 46 to 103 torr) when awake. Humidified oxygen was administered by nasal cannula, Venturi mask, or head hood. Oxygen flow was increased every 20 minutes from 80 minutes or until the patient awoke. In eight of ten patients with hypercarbia and in the two normocarbic patients, skin surface carbon dioxide tension (PsCO2) increased by 10% or less as the skin surface oxygen tension (PsO2) was increased. In the remaining two patients with hypercarbia (both had cystic fibrosis) PsCO2 increased 18% and 24% as PsO2 was increased. These last two patients with depressed responsiveness to CO2 could not be separated from the other patients by clinical or laboratory criteria. It is concluded that the skin surface blood gas tensions are a simple and reproducible method for adjusting oxygen therapy in patients with chronic lung disease, and although the response to oxygen varies from patient to patient, most patients with chronic hypercarbia retain their central responsiveness to CO2 during sleep and for them O2 therapy is probably safe.
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PMID:Effect of oxygen administration during sleep on skin surface oxygen and carbon dioxide tensions in patients with chronic lung disease. 678 98

The mechanisms of oedema in cor pulmonale remain unexplained. On the basis of a small number of studies, cor pulmonale is not caused by cardiac muscle failure, at least in early oedematous phases. Progressive and persistent elevation of pulmonary vascular resistance may exceed the pumping capacity of the right ventricle in later stages. Alternative explanations for the sharp fall in renal blood flow as oedema appears should be sought. The renin-angiotensin-aldosterone system seems causally related to oedema. The curious position of hypercapnia remains an enigma. Surprisingly few studies of hypercapnia, renal blood flow and renal hormones are reported. Redistribution of body water from intracellular to the extracellular space may be in part due to the need to buffer extracellular respiratory acidosis caused by hypercapnia. It provides an explanation for one form of hypercapnic oedema. Cyclical loss and gain of tissue mass seems more evident in cor pulmonale than ischaemic or valvular heart failure.
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PMID:Oedema in cor pulmonale. 703 67

The prevalence of reported sleep disturbances in a general population is high. Many of the complaints are the result of sleep-related breathing disorders, due mainly to the occurrence of obstructive and central apnoeas. Obstructive sleep apnoea is a fully described and well-recognized entity. Central sleep apnoea (CSA) however, has been poorly studied. There is accumulating evidence that central sleep apnoea should be considered as the end of a spectrum. Instability in the breathing pattern is the main underlying mechanism and is due to the interaction of many factors. Breathing during sleep is dependent on metabolic control and the activity of the respiratory muscles. Decreased chemical drive and/or failing respiratory muscle function are associated with CSA and usually also with ongoing hypoventilation during wakefulness, characterized by chronic daytime hypercapnia. Central respiratory drive can also be inhibited by upper airway reflexes. Mostly, however, CSA occurs as the hallmark of unstable breathing during sleep brought about by an overall increase in loop gain (especially in light sleep stages) and the unmasking of a CO2 threshold. Arousal following central apnoeas acts as an amplification of the instability. Micro electroencephographic (EEG) arousals are often observed as a consequence of CSA. They are responsible for sleep fragmentation and hypersomnolence during the day. The daytime hypersomnolence and complaints of awakenings during sleep in patients with CSA can be striking. CSA can occur in specific pathologies, such as chronic heart failure and (post-traumatic) brain lesions, that are associated with irregular breathing. Treatment strategies are remarkably few in number. Use of nasal ventilation and the inhalation of CO2 are mainly of theoretical interest, since patients do not often tolerate these more invasive therapies. Drug treatment, especially with acetazolamide, is easier to perform. Stimulation of upper airway reflexes, by less invasive methods, seems to be promising for the near future.
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PMID:Central sleep apnoea, pathogenesis and treatment: an overview and perspective. 748 5

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