Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Structural changes of the peripheral vascular component as seen during hypertension and atherosclerosis have been suggested during heart failure but have never been reported. Therefore, we studied possible structural alterations in the peripheral vasculature in an experimental model of heart failure, induced by ligation of the left coronary artery in rats. Large conduit and resistance-type arteries were excised at 1, 3, 5, and 12 weeks after myocardial infarct induction (MI) or sham surgery. Vessel dimensions (medial cross-sectional area [CSA], internal and external diameters, and media-to-lumen ratios) as well as medial collagen and elastin volume fractions were measured by computerized morphometry. The hydroxyproline assay was used to determine collagen and elastin content biochemically. In separate groups of animals, peripheral tissue flows were measured by using radioactive microspheres 5 and 12 weeks after MI. To evaluate the effects of the degree of heart failure, the animals of the 12-week group (n = 10) were subdivided into groups of moderate (< 45% infarct size) and large (> 45% infarct size) infarction. At all time points, body weights of sham-operated and MI rats were comparable. Lung weights of infarcted animals were increased proportionally to infarct size. No major changes in vessel dimensions were seen at the earlier time points. Twelve weeks after coronary artery ligation, significantly smaller CSAs were observed in several large conduit arteries such as the thoracic aorta, carotid artery, and superior mesenteric artery. These changes coincided with reductions in both internal and external diameters. In contrast, internal and external diameters of mesenteric and pulmonary resistance arteries were increased after 12 weeks of coronary artery ligation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Peripheral vascular alterations during experimental heart failure in the rat. Do they exist? 767 Sep 66

A previous uncontrolled study suggested that nasal continuous positive airway positive airway pressure (NCPAP) may improve left ventricular ejection fraction (LVEF) in patients with congestive heart failure (CHF) and Cheyne-Stokes respiration with central sleep apnea (CSR-CSA). In order to more critically evaluate the effects of NCPAP on cardiac function, we undertook a randomized, controlled trial of NCPAP in 29 patients with heart failure and CSR-CSA over a 3-mo period, with LVEF as the primary outcome measure. Patients with CHF and associated CSR-CSA who were receiving optimal medical therapy were randomly assigned to a control group (n = 15) or a group receiving nightly NCPAP (n = 14). Twelve patients in each group completed the study. There was a greater improvement of LVEF in the NCPAP group than in the control group during the study (mean +/- SEM = 7.7 +/- 2.5 versus - 0.5 +/- 1.5%, p = 0.019). In addition, there was a significantly greater reduction in the number of apneas and hypopneas (-28.5 +/- 3.9 versus -6.1 +/- 7.0 per hour of sleep, p = 0.012) in the NCPAP group than in the control group. Significantly greater improvements in symptoms of fatigue (5.6 +/- 1.2 versus 0.8 +/- 0.7, p = 0.005) and disease mastery (3.6 +/- 1.1 versus -0.7 +/- 0.7, p = 0.031) were also observed in the NCPAP group. We conclude that in patients with chronic heart failure and CSR-CSA, nightly administration of NCPAP can attenuate CSR-CSA, improve cardiac function, and alleviate symptoms of heart failure.
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PMID:Treatment of congestive heart failure and Cheyne-Stokes respiration during sleep by continuous positive airway pressure. 781 79

Sleep-related breathing disorders, including obstructive sleep apnea (OSA) and Cheyne-Stokes respiration with central sleep apnea (CSR-CSA), commonly occur in patients with congestive heart failure (CHF). In this setting they can have adverse pathophysiologic effects on the cardiovascular system. OSA may lead to development or progression of left ventricular (LV) dysfunction by increasing LV afterload through the combined effects of elevations in systemic blood pressure and a generation of exaggerated negative intrathoracic pressure, and by activating the sympathetic nervous system through the influence of hypoxia and arousals from sleep. Abolition of OSA by continuous positive airway pressure (CPAP) can improve cardiac function in patients with CHF. In contrast to OSA, CSR-CSA is likely a consequence rather than a cause of CHF. Here, pulmonary congestion causes hyperventilation by stimulating pulmonary irritant receptors. This leads to reductions in PaCO2 below the apneic threshold during sleep, precipitating posthyperventilatory central apneas. CSR-CSA is associated with increased mortality in CHF, probably because of sympathetic nervous system activation caused by recurrent apnea-induced hypoxia and arousals from sleep. Treatment of CSR-CSA by supplemental O2, theophylline, and CPAP can alleviate central apneas. Of these treatments, however, only CPAP has been shown to improve cardiac function and symptoms of heart failure. We conclude that effective treatments of OSA and CSR-CSA may prove to be useful adjuncts to the standard pharmacologic therapy of patients with CHF.
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PMID:Sleep apnea in congestive heart failure. 955 21

Adaptive servo-ventilation (ASV) is a novel method of ventilatory support designed for Cheyne-Stokes respiration (CSR) in heart failure. The aim of our study was to compare the effect of one night of ASV on sleep and breathing with the effect of other treatments. Fourteen subjects with stable cardiac failure and receiving optimal medical treatment were tested untreated and on four treatment nights in random order: nasal oxygen (2 L/min), continuous positive airway pressure (CPAP) (mean 9.25 cm H(2)O), bilevel (mean 13.5/5.2 cm H(2)O), or ASV largely at the default settings (mean pressure 7 to 9 cm H(2)O) during polysomnography. Thermistor apnea + hypopnea index (AHI) declined from 44.5 +/- 3.4/h (SEM) untreated to 28.2 +/- 3.4/h oxygen and 26.8 +/- 4.6/h CPAP (both p < 0.001 versus control), 14.8 +/- 2.3/h bilevel, and 6.3 +/- 0.9/h ASV (p < 0.001 versus bilevel). Effort band AHI behaved similarly. Arousal index decreased from 65.1 +/- 3.9/h untreated to 29.8 +/- 2.8/h oxygen and 29.9 +/- 3.2/h CPAP, to 16.0 +/- 1.3/h bilevel and 14.7 +/- 1.8/h ASV (p < 0.01 versus all except bilevel). There were large increases in slow-wave and rapid eye movement (REM) sleep with ASV but not with oxygen or CPAP. All subjects preferred ASV to CPAP. One night ASV suppresses central sleep apnea and/or CSR (CSA/CSR) in heart failure and improves sleep quality better than CPAP or 2 L/min oxygen.
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PMID:Adaptive pressure support servo-ventilation: a novel treatment for Cheyne-Stokes respiration in heart failure. 1152 Jul 25

Previous small-scale studies of the effect of sleep-disordered breathing (SDB) on prognosis in congestive heart failure (CHF) are either lacking or conflicting. The aim of this study was to assess the impact of the presence and type of SDB on mortality in a patient group with severe CHF referred to a specialised heart failure centre. Out of 78 patients ((mean +/- SD) 53 +/- 9 yrs, left ventricular ejection fraction 19.9 +/- 7.2% and pulmonary capillary wedge pressure 16.5 +/- 8.3 mmHg) followed-up over a median period of 52 months, 29% had no apnoea (CHF-N), 28% had obstructive sleep apnoea (CHF-OSA) and 42% had central sleep apnoea (CHF-CSA). At 52 months, their overall mortality was 40%, and combined mortality and transplantation was 72%. Mortality rates were similar between the three apnoea groups. Survivors had a similar prevalence of SDB (71%) as the nonsurvivors (70%). Although a significant increase in mortality was evident at 500 days in those patients with either CHF-SDB or CHF-CSA as compared with CHF-N, this was not significant at final follow-up (52 months) using Kaplan Meier analysis. Multivariate analysis identified transplantation but not SDB type or severity as a significant predictor of survival. In conclusion, sleep-disordered breathing impacts upon early (500 day), but not long-term (52 month), mortality in a specialised heart failure centre.
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PMID:Increased long-term mortality in heart failure due to sleep apnoea is not yet proven. 1517 74

In patients with heart failure, apnea type can shift overnight from mainly obstructive to mainly central in association with reductions in PCO(2) and increases in periodic breathing cycle length, indicative of a fall in cardiac output. We hypothesized that the predominant apnea type could also vary from one night to another in association with alterations in PCO(2) and cycle length. We studied 12 men with heart failure in whom the predominant apnea type changed from one night to the next over periods of at least 1 month, and two groups with either predominantly obstructive or central sleep apnea (OSA or CSA) in whom apnea type remained stable over time. In patients with unstable apnea type (n = 12, duration between sleep studies 9.0 +/- 4.4 months), PCO(2) was significantly lower (37.6 +/- 1.6 mmHg versus 41.7 +/- 1.9 mmHg, P < 0.01), and cycle length significantly longer (61.9 +/- 3.4 s versus 51.0 +/- 1.9 s, P < 0.001) during nights with predominantly central than nights with predominantly obstructive apnea. In contrast, in both the stable central (n = 8, duration between sleep studies 11.9 +/- 5.3 months) and the stable obstructive (n = 8, duration between studies 6.9 +/- 5.2 months) sleep apnea groups, neither PCO(2) nor cycle length changed significantly between the baseline and follow-up sleep studies. We conclude that in some patients with heart failure, OSA and CSA are part of a spectrum of periodic breathing that can shift over time in association with alterations in PCO(2), cycle length and probably cardiac function.
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PMID:Night-to-night alterations in sleep apnea type in patients with heart failure. 1691 Oct 35

One of the most common yet unidentified conditions in heart disease is sleep-disordered breathing (SDB). Although it is most prevalent in patients with heart failure, it has been epidemiologically and pathophysiologically linked to ischemic heart disease, hypertension, sudden cardiac death, atrial fibrillation, and stroke. There are two primary SDB syndromes: obstructive sleep apnea (OSA) and central sleep apnea (CSA; also known as Cheyne-Stokes respiration). The pathophysiologic mechanisms that underlie these disorders appear to be distinct but both involve recurrent cycles of excessive sympathetic activation, hypoxemias and hypercapnias, and increases in ventricular wall stress. Signs and symptoms may include daytime somnolence, snoring, difficult-to-control hypertension, and refractory arrhythmias or angina. In heart failure, half of patients will have SDB and most patients will exhibit evidence of both OSA and CSA, although one or the other may predominate. The current standard diagnostic method is overnight laboratory polysomnography. Primary therapies for OSA include lifestyle changes, various facial and oral appliances, head and neck surgery, and continuous positive airway pressure (CPAP). CPAP is the most effective form of therapy for OSA, with few side effects, but is limited by compliance because of comfort-related issues. In patients with cardiovascular disease who predominantly suffer from OSA, treatment recommendations should be based on current guidelines for OSA. For patients with heart failure with predominant CSA, the current cornerstone of therapy is the optimization of medical therapy and resynchronization therapy when indicated. When SDB persists despite optimal medical management, referral to a sleep medicine consultant should be considered.
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PMID:Diagnosis and treatment of sleep apnea in heart disease. 1822 2

Cheyne-Stokes respiration with central sleep apnea (CSR-CSA) is a form of periodic breathing, commonly observed in patients with heart failure (HF), in which central apneas alternate with hyperpneas that have a waxing-waning pattern of tidal volume. Uniform criteria by which to diagnose a clinically significant degree of CSR-CSA have yet to be established. CSR-CSA is caused by respiratory control system instability characterized by a tendency to hyperventilate. Central apnea occurs when Pa(CO(2)) falls below the threshold for apnea during sleep due to ventilatory overshoot. Patients with CSR-CSA are generally hypocapnic, with a Pa(CO(2)) closer than normal to the apneic threshold such that even slight augmentation in ventilation drives Pa(CO(2)) below threshold and triggers apnea. Factors contributing to hyperventilation in HF include stimulation of pulmonary irritant receptors by pulmonary congestion, increased chemoreceptor sensitivity, reduced cerebrovascular blood flow, and recurrent arousals from sleep. Controversy remains as to whether CSR-CSA is simply a reflection of HF severity, or whether it exerts unique adverse effects on prognosis. The main adverse influence of CSR-CSA on cardiovascular function appears to be excessive sympathetic nervous system activity due to apnea-related hypoxia and arousals from sleep. A number of studies have examined the potential relationship between CSR-CSA and mortality in HF. Most reported that CSR-CSA was associated with an increased risk for mortality, but these studies were small. Further research is therefore needed to elucidate mechanisms which contribute to the pathogenesis of CSR-CSA, and to determine whether its treatment can reduce morbidity and mortality in patients with HF.
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PMID:Central sleep apnea and Cheyne-Stokes respiration. 1825 Feb 16

There are three major types of sleep-disordered breathing (SDB) with respect to prevalence and health consequences, i.e. obstructive sleep apnoea syndrome (OSAS), Cheyne-Stokes respiration and central sleep apnoea (CSR-CSA) in chronic heart failure, and obesity hypoventilation syndrome (OHS). In all three conditions, hypoxia appears to affect body functioning in different ways. Most of the molecular and cellular mechanisms that occur in response to SDB-related hypoxia remain unknown. In OSAS, an inflammatory cascade mainly dependent upon intermittent hypoxia has been described. There is a strong interaction between haemodynamic and inflammatory changes in promoting vascular remodelling. Moreover, during OSAS, most organ, tissue or functional impairment is related to the severity of nocturnal hypoxia. CSR-CSA occurring during heart failure is primarily a consequence of cardiac impairment. CSR-CSA has deleterious consequences for cardiac prognosis and mortality since it favours sympathetic activation, ventricular ectopy and atrial fibrillation. Although correction of CSR-CSA seems to be critical, there is a need to establish therapy guidelines in large randomised controlled trials. Finally, OHS is a growing health concern, owing to the worldwide obesity epidemic and OHS morbidities. The pathophysiology of OHS remains largely unknown. However, resistance to leptin, obesity and severe nocturnal hypoxia lead to insulin resistance and endothelial dysfunction. In addition, several adipokines may be triggered by hypoxia and explain, at least in part, OHS morbidity and mortality. Overall, chronic intermittent hypoxia appears to have specific genomic effects that differ notably from continuous hypoxia. Further research is required to fully elucidate the molecular and cellular mechanisms.
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PMID:Intermittent hypoxia and sleep-disordered breathing: current concepts and perspectives. 1882 54

Sleep plays a large role in patients with heart failure. In normal subjects, sleep is usually in a supine position with reduced sympathetic drive, elevated vagal tone and as such a relatively lower cardiac output and minute ventilation, allowing for recuperation. Patients with heart failure may not experience the same degree of autonomic activity change and the supine position may place a large strain on the pulmonary system. More than half of all heart failure patients have one of two types of sleep apnea: either obstructive or central sleep apnea. Some patients have both types. Obstructive sleep apnea is likely to be a cause of heart failure due to large negative intrathoracic pressures, apnea related hypoxemia and hypercapnia, terminated by an arousal and surge in systemic blood pressure associated with endothelial damage and resultant premature atherosclerosis. Reversal of obstructive sleep apnea improves blood pressure, systolic contraction and autonomic dysfunction however mortality studies are lacking. Central sleep apnea with Cheyne Stokes pattern of respiration (CSA-CSR) occurs as a result of increased central controller (brainstem driving ventilation) and plant (ventilation driving CO2) gain in the setting of a delayed feed back (i.e., low cardiac output). It is thought this type of apnea is a result of moderately to severely impaired cardiac function and is possibly indicative of high mortality. Treatment of CSA-CSR is best undertaken by treating the underlying cardiac condition which may include with medications, pacemakers, transplantation or continuous positive airway pressure (CPAP). In such patients CPAP exerts unique effects to assist cardiac function and reduce pulmonary edema. Whether CPAP improves survival in this heart failure population remains to be determined.
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PMID:Sleep in heart failure. 1911 Jan 35


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