Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0037315 (sleep apnea)
8,000 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Obstructive sleep apnea may contribute to the development of pulmonary hypertension and RVF primarily through pulmonary vasoconstriction secondary to hypoxia. Several recent studies indicate, however, that intermittent apnea-related hypoxia is not sufficient to cause sustained pulmonary hypertension. These studies have been consistent in showing that pulmonary hypertension and RVF are almost invariably seen in the presence of diurnal hypoxia. Sustained pulmonary hypertension, therefore, appears to be associated with sustained hypoxia as is the case in COPD. Patients with OSA who have hypoxia while awake are, as a rule, obese and have mild-to-moderate diffuse obstructive airways disease. Thus, most cases of pulmonary hypertension in association with OSA result from a combination of OSA, obesity, and diffuse obstructive airways disease, a so-called overlap syndrome. However, from the therapeutic viewpoint, it is apparent that treatment of OSA by NCPAP or tracheostomy, in such cases, is usually sufficient to reverse pulmonary hypertension and RVF. More recent work has provided strong evidence that OSA can play a role in the pathogenesis of LV heart failure in patients with CHF of otherwise unknown etiology. It is likely that this occurs through a combination of increased LV afterload related to exaggerated negative Pit swings during obstructive apneas, to intermittent hypoxia, and to chronically elevated sympathoadrenal activity. Reversal of OSA by NCPAP in these patients may relieve LV heart failure. These findings add a new dimension to our understanding of the pathophysiologic effects of OSA on the cardiovascular system by demonstrating that the LV is a structure that may suffer functional impairment secondary to the stresses imposed by OSA. Finally, it has now become apparent that CSR in patients with CHF can cause symptoms of a sleep apnea syndrome when associated with intermittent hypoxia and arousals from sleep. Reversal of CSR during sleep by NCPAP can lead to alleviation of these symptoms and possibly to reduced cardiac dyspnea and LV systolic function as well. Taken together, this suggests that much more extensive use of polysomnography may be warranted in the investigation of cardiovascular disease. The reasons are compelling: sleep apnea disorders are common and eminently treatable conditions whose reversal can result in improved right and left heart function and symptomatic improvement in patients with impaired myocardial function.
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PMID:Right and left ventricular functional impairment and sleep apnea. 152 13

We hypothesized that (1) patients with congestive heart failure (CHF) and Cheyne-Stokes respiration with central sleep apnea (CSR-CSA) would have greater nocturnal urinary and daytime plasma norepinephrine concentrations (UNE and PNE, respectively) than those without CSR-CSA because of apneas, hypoxia and arousals from sleep and (2) attenuation of CSR-CSA by nasal continuous positive airway pressure (NCPAP) would reduce UNE and PNE concentrations. Eighteen patients with and 17 without CSR-CSA (Non-CSR-CSA group) were studied. Left ventricular ejection fraction was similar in the two groups, but overnight UNE and awake PNE concentrations were greater in the CSR-CSA group (30.2 +/- 2.5 nmol/mmol creatinine and 3.32 +/- 0.29 nmol/L) than in the Non-CSR-CSA group (15.8 +/- 2.1 nmol/mmol creatinine, p < 0.005, and 2.06 +/- 0.56 nmol/L, p < 0.05, respectively). Patients with CSR-CSA were randomized to a control group or to nightly NCPAP for 1 mo. CSR-CSA was attenuated in the NCPAP but not in the control group. The NCPAP group experienced greater reductions in UNE and PNE concentrations (-12.5 +/- 3.3 nmol/mmol creatinine and -0.74 +/- 0.40 nmol/L) than did the control group (-1.3 +/- 2.8 nmol/mmol creatinine, p < 0.025 and 1.16 +/- 0.66 nmol/L, p < 0.025, respectively). In conclusion, in patients with CHF, CSR-CSA is associated with elevated sympathoneural activity, which can be reduced by NCPAP.
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PMID:Effects of nasal CPAP on sympathetic activity in patients with heart failure and central sleep apnea. 763 95

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

We have previously shown that hypocapnia triggers Cheyne-Stokes respiration with central sleep apnea (CSR-CSA) in patients with congestive heart failure (CHF). Nasal continuous positive airway pressure (NCPAP) may attenuate CSR-CSA in patients with CHF and CSR-CSA. Accordingly, we hypothesized that attenuation of CSR-CSA by NCPAP would be related to an increase in PCO2. Therefore, we examined the effect of NCPAP on the frequency of apneas and hypopneas, transcutaneous PCO2 (PtcCO2), and minute volume of ventilation (VI) in 12 consecutive patients with CHF and CSR-CSA during stage 2 sleep. A control group of six patients, who did not receive NCPAP, was also studied. In the control group, there were no changes from baseline to 1 mo in the frequency of central apneas and hypopneas, mean PtcCO2, mean VI, or mean SaO2 during stage 2 sleep. In contrast, from baseline to 1 mo the NCPAP group experienced a decrease in the frequency of apneas and hypopneas (58.7 +/- 5.2 to 23.2 +/- 6.0/h of sleep, p < 0.001), an increase in mean PtcCO2 (34.6 +/- 1.4 to 40.8 +/- 1.1 mm Hg, p < 0.001), a reduction in mean VI (8.1 +/- 1.0 to 5.2 +/- 0.5 L/min, p < 0.01) and an increase in mean SaO2 (91.6 +/- 1.1 to 95.0 +/- 0.5%, p < 0.025) during stage 2 sleep while on 10.2 +/- 0.5 cm H2O nasal CPAP. We conclude that likely mechanisms through which NCPAP reduces CSR-CSA are by increasing SaO2 and raising PaCO2 during sleep toward or above the apneic threshold.
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PMID:Effect of continuous positive airway pressure on central sleep apnea and nocturnal PCO2 in heart failure. 795 21

Periodic breathing with central apneas during sleep is typically triggered by hypocapnia resulting from hyperventilation. We therefore hypothesized that hypocapnia would be an important determinant of Cheyne-Stokes respiration with central sleep apnea (CSR-CSA) in patients with congestive heart failure (CHF). To test this hypothesis, 24 male patients with CHF underwent overnight polysomnography during which transcutaneous PCO2 (PtcCO2) was measured. Lung to ear circulation time (LECT), derived from an ear oximeter as an estimate of circulatory delay, and CSR-CSA cycle length were determined. Patients were divided into a CSR-CSA group (n = 12, mean +/- SEM of 49.2 +/- 6.3 central apneas and hypopneas per h sleep) and a control group without CSR-CSA (n = 12, 4.9 +/- 0.8 central apneas and hypopneas per h sleep). There were no significant differences in left ventricular ejection fraction, awake PaO2, mean nocturnal SaO2, or LECT between the two groups. In contrast, the awake PaCO2 and mean sleep PtcCO2 were significantly lower in the CSR-CSA group than in the control group (33.0 +/- 1.2 versus 37.5 +/- 1.0 mm Hg, p < 0.01, and 33.2 +/- 1.2 versus 42.5 +/- 1.2 mm Hg, p < 0.0001, respectively). Neither group had significant awake or sleep-related hypoxemia. In addition, CSR-CSA cycle length correlated with LECT (r = 0.939, p < 0.001). We conclude that (1) hypocapnia is an important determinant of CSR-CSA in CHF and (2) circulatory delay plays an important role in determining CSR-CSA cycle length.
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PMID:Role of hyperventilation in the pathogenesis of central sleep apneas in patients with congestive heart failure. 814 43

Patients with congestive heart failure (CHF) suffer from respiratory muscle weakness which may contribute to dyspnea. Nasal continuous positive airway pressure (NCPAP) can improve left ventricular ejection fraction (LVEF) and reduce dyspnea in patients with CHF and Cheyne-Stokes respiration with central sleep apnea (CSR-CSA) but its effects on respiratory muscle strength are not known. We therefore studied the effects of NCPAP on maximal inspiratory and expiratory pressures (MIP and MEP, respectively), LVEF, dyspnea, and fatigue in patients with chronic CHF and CSR-CSA over 3 mo. Eight patients were randomized to control and nine to nightly NCPAP. There were no significant changes in any of these factors in the control group during the study. In contrast, among the NCPAP group, MIP increased from 79.3 +/- 8.1 to 90.7 +/- 10.4 cm H2O (mean +/- SEM; p < 0.02), LVEF increased from 24.0 +/- 4.0 to 32.6 +/- 6.6% (p < 0.02) and symptoms of dyspnea and fatigue were alleviated. However, MEP did not change. In addition, the number of apneas and hypopneas decreased from 49 +/- 11 to 17 +/- 7 per hour of sleep (p < 0.001) and mean low Sao2 during sleep increased from 87.9 +/- 1.0 to 93.0 +/- 1.0% (p < 0.01). Our data indicate that nightly application of NCPAP in patients with CHF and CSR-CSA improves inspiratory muscle strength and LVEF, and relieves dyspnea and fatigue.
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PMID:CPAP improves inspiratory muscle strength in patients with heart failure and central sleep apnea. 854 29

Because apnea length during periodic breathing varies according to the preceding increase in ventilation and reduction in PaCO 2, differences in the cycle length of periodic breathing among patients with normal and impaired cardiac function might be explained by the influence of lung-to-carotid body circulatory delay, as reflected by lung-to-ear circulation time (LECT), on hyperpnea length rather than on apnea length. It was therefore hypothesized that circulatory delay is an important determinant of periodic-breathing hyperpnea length but not apnea length. To test this hypothesis, LECT, periodic-breathing cycle length, apnea length, and hyperpnea length were compared in 10 patients with idiopathic central sleep apnea (ICSA), whose cardiac function was normal, as opposed to 10 with Cheyne-Stokes respiration and central sleep apnea (CSR-CSA) in association with congestive heart failure (CHF). As compared with ICSA patients, cycle length was significantly longer in patients with CSR-CSA (37.3 +/- 3.0 s versus 59.0 +/- 4.9 s, p < 0.005). This difference was due to significantly longer hyperpnea length in the CSR-CSA patients (16.7 +/- 2.8 s versus 36.7 +/- 3.4 s, p < 0.001), since apnea length was similar in the two groups. In addition, LECT was longer in the CSR-CSA patients (24.3 +/- 2.0 s versus 10.3 +/- 1.0 s, p < 0.001), and correlated strongly with cycle length (r = 0.88, p < 0.001) and hyperpnea length (r = 0.90, p < 0.001) but not with apnea length. LECT correlated inversely with cardiac output (r = -0.72, p < 0.006), indicating that LECT is a valid measure of circulatory delay. Thus, circulatory delay is an important determinant of hyperpnea length but not of apnea length in patients with ICSA and CSR-CSA.
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PMID:Cycle length of periodic breathing in patients with and without heart failure. 875 9

Despite advances in medical therapy of congestive heart failure (CHF), morbidity and mortality for this disorder remain high. One factor that could contribute to the poor prognosis of CHF is Cheyne-Stokes respiration with central sleep apnea (CSR-CSA). This breathing disorder is a frequent complication of CHF, where it is associated with increased mortality. One reason for this higher mortality may be that apnea-related hypoxia and arousals from sleep can increase sympathetic nervous system activity (SNA), as manifested by increases in overnight urinary and daytime plasma norepinephrine concentrations ([UNE] and [PNE], respectively). Recently published randomized trials have demonstrated that nasal continuous positive airway pressure (CPAP), if applied nightly at high enough levels over periods of at least 1-3 months, can alleviate CSR-CSA in patients with CHF in association with hemodynamic improvement, as evidenced by increased left ventricular ejection fraction (LVEF) and inhibition of SNA, as manifest by reductions in [UNE] and [PNE]. These findings indicate a role for CPAP as a non-pharmacologic adjunctive therapy for CHF complicated by CSR-CSA. Longer-term trials of CPAP are needed to determine whether this intervention can provide long-lasting clinical benefit to patients with CHF and CSR-CSA.
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PMID:Hemodynamic and sympathoinhibitory effects of nasal CPAP in congestive heart failure. 908 19

In patients with congestive heart failure (CHF), elevated, left ventricular (LV) volume might lead to pulmonary congestion and hypocapnia, which would create a predisposition to the development of Cheyne-Stokes respiration with central sleep apnea (CSR-CSA). In addition, because LV volume affects cardiac output, it should influence the lengths of hyperpneas. We therefore evaluated LV volumes and transcutaneous PCO2 (PtcCO2) during wakefulness and stage 2 sleep in 16 patients with CHF due to nonischemic dilated cardiomyopathy (NIDC). Data were then compared between those with (n = 7) and those without CSR-CSA (n = 9). LV end-diastolic volume (LVEDV) was significantly higher in patients with than those without CSR-CSA (585 +/- 118 versus 312 +/- 41 ml, p < 0.05). Compared with patients without CSR-CSA, those with CSR-CSA had lower mean stage 2 sleep PtcCO2 (36.3 +/- 2.2 versus 41.2 +/- 1.2 mm Hg, p < 0.05) and a lesser change in PtcCO2 from wakefulness to stage 2 sleep (-0.4 +/- 0.3 versus 2.0 +/- 0.4 mm Hg, p < 0.001). Among patients with CSR-CSA, hyperpnea length was inversely related to LVEDV (R = 0.769, p = 0.043) owing to the direct relationship of cardiac output to LVEDV (R = 0.791, p = 0.034). We conclude that CSR-CSA in patients with CHF due to NIDC is associated with increased LV volumes possibly through the direct or indirect influence of LV volume on PaCO2 and cardiac output.
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PMID:Left ventricular volume in patients with heart failure and Cheyne-Stokes respiration during sleep. 937 74

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


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