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:C0020440 (hypercapnia)
7,939 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The objective was to examine whether abnormal breathing during sleep may affect regulation of ventilation after awakening in patients with obstructive sleep apnoea (OSAS). In 19 patients with OSA and 12 normal subjects we examined ventilatory responses to hypoxia (HVR) and to hypercapnia (HCVR) before and after sleep (BS and AS), and compared the changes in ventilatory responses with respiratory events during sleep. In the OSA group, the values of resting ventilation were significantly smaller in AS than those in BS and end-tidal partial pressure of CO2 in arterial blood (Pco2) (PETCO2) rose significantly from BS to AS. The slopes of the HVR or HCVR did not differ between BS and AS. However, both the response lines shifted downward and minute ventilation (VE)80 (VE at arterial oxygen saturation (Sao2) of 80%) in HVR and VE60 (VE at PETCO2 of 60 mmHg) in HCVR decreased significantly from BS to AS. The percentage changes of VE80 and VE60 were significantly correlated with mean Sao2, total sleep time below Sao2 of 90% and lowest Sao2 during sleep. However, in normal subjects we observed no circadian variation in their ventilatory responses. These data support the hypothesis that repeated episodes of nocturnal hypoxia and hypercapnia may modify the regulation of ventilation after awakening in patients with OSA.
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PMID:Regulation of ventilation before and after sleep in patients with obstructive sleep apnoea. 1038 30

Obstructive sleep apnoea (OSA) is a potentially life-threatening breathing disorder characterized by repeated collapse of the upper airway during sleep, with cessation for breathing. Patients with OSA are at risk of severe cardiovascular and respiratory complications secondary to recurrent hypoxia and hypercapnia in addition to an overall reduced quality of life for sufferers and their families. An overview of the aetiology including pathophysiology, clinical signs and symptoms and diagnosis was presented in the first article in this series. In this article the management of OSA is presented, with particular emphasis on the role of dentistry in contemporary management.
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PMID:The relationship between obstructive sleep apnoea and dentistry: 2. Management. 1047 9

Obstructive sleep apnoea is a potentially life-threatening breathing disorder characterized by repeated collapse of the upper airway during sleep, with cessation of breathing. Patients are at risk of severe cardiovascular and respiratory complications secondary to recurrent hypoxia and hypercapnia and the overall quality of life for sufferers and their families may be reduced. This article gives an overview of the aetiology (including pathophysiology), clinical signs and symptoms, diagnosis and treatment. The role dentistry can play in contemporary management of the disorder will be discussed in a second article.
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PMID:The relationship between obstructive sleep apnoea and dentistry: 1. Aetiology and diagnosis. 1047 30

It is well established that the genioglossus muscle (tongue protrudor) has a role in protecting or enhancing upper airway patency in individuals with obstructive sleep apnea. However, no investigation completed to date has addressed the role of the styloglossus and hyoglossus muscles (tongue retractors) in maintaining upper airway patency in humans. As a first step toward this goal, the present investigation was designed to examine the response of human tongue protrudor and retractor muscles during a breathhold maneuver and in steady-state hypoxic hypercapnia. The results showed that the protrudor and retractor muscles were coactivated under both conditions. Measurements of onset time of electromyographic activity during steady-state hypoxic hypercapnia revealed that phasic protrudor and retractor activity was initiated immediately before or during the early part of inspiration. We conclude that the tongue protrudor and retractor muscles are coactivated in response to hypoxia and hypercapnia, and that the tongue retractors may have a significant role in protecting upper airway patency during both apnea and hyperpnea.
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PMID:Response of human tongue protrudor and retractors to hypoxia and hypercapnia. 1058 16

The obstructive sleep apnea syndrome is characterized by the occurrence of cyclic snoring and frequent apneic episodes during sleep, with consequent hypoxia and hypercapnia. Obstructive sleep apnea syndrome is associated with excess daytime sleepiness, depression, and an increased incidence of ischemic cardiopathy, cardiac arrhythmias, systemic hypertension and brain infarction. Hypoglossal motoneurons, which innervate extrinsic and intrinsic muscles of the tongue, play a key role in maintaining the patency of the upper airway and in the pathophysiology of obstructive sleep apnea syndrome. Based on data obtained by using extracellular recording techniques, there is a consensus that hypoglossal motoneurons cease to discharge during rapid eye movement sleep, because they are disfacilitated. Since other somatic motoneurons are known to be postsynaptically inhibited during rapid eye movement sleep, we sought to determine, by the use of intracellular recording techniques during cholinergically induced rapid eye movement sleep, whether postsynaptic inhibitory mechanisms act on hypoglossal motoneurons. We found that, during this state, a powerful glycinergic premotor inhibitory system acts to suppress hypoglossal motoneurons. This finding opens new avenues for the treatment of obstructive sleep apnea syndrome, and provides a foundation to explore the neural and pharmacological control of respiration-related motoneurons during rapid eye movement sleep.
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PMID:Hypoglossal motoneurons are postsynaptically inhibited during carbachol-induced rapid eye movement sleep. 1061 91

The gradual decay in ventilation after removal of a respiratory stimulus has been proposed to protect against cyclic breathing disorders such as obstructive sleep apnea (OSA). The male predominance of OSA, and the increased incidence of OSA in women after menopause, indicates that the respiratory-stimulating effect of progesterone may provide protection against OSA by altering the rate of poststimulus ventilatory decline (PSVD). It was therefore hypothesized that PSVD is longer in premenopausal women than in men and is longer in the luteal menstrual phase compared with the follicular phase. PSVD was measured in 12 men and in 11 women at both their luteal and follicular phases, after cessation of isocapnic hypoxia and normoxic hypercapnia. PSVD was compared between genders and between women in the luteal and follicular phases by repeated-measures ANOVA. There were no significant differences in PSVD between any of the groups after either respiratory stimulus. This suggests that the higher occurrence of OSA in men does not reflect an underlying gender difference in PSVD and implies the increased prevalence of OSA in women after menopause is not representative of an effect of progesterone on PSVD.
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PMID:Ventilatory decline after hypoxia and hypercapnia is not different between healthy young men and women. 1064 55

The contribution of apnea to chronic hypercapnia in obstructive sleep apnea (OSA) has not been clarified. Using a model (D. M. Rapoport, R. G. Norman, and R. M. Goldring. J. Appl. Physiol. 75: 2302-2309, 1993), we previously illustrated failure of CO(2) homeostasis during periodic breathing resulting from temporal dissociation between ventilation and perfusion ("temporal V/Q mismatch"). This study measures acute kinetics of CO(2) during periodic breathing and addresses interapnea ventilatory compensation for maintenance of CO(2) homeostasis in 11 patients with OSA during daytime sleep (37-171 min). Ventilation and expiratory CO(2) and O(2) fractions were measured on a breath-by-breath basis by means of a tight-fitting full facemask. Calculations included CO(2) excretion, metabolic CO(2) production, and CO(2) balance (metabolic CO(2) production - exhaled CO(2)). CO(2) balance was tabulated for each apnea/hypopnea event-interevent cycle and as a cumulative value during sleep. Cumulative CO(2) balance varied (-3,570 to +1,388 ml). Positive cumulative CO(2) balance occurred in the absence of overall hypoventilation during sleep. For each cycle, positive CO(2) balance occurred despite increased interevent ventilation to rates as high as 45 l/min. This failure of CO(2) homeostasis was dependent on the event-to-interevent duration ratio. The results demonstrate that 1) periodic breathing provides a mechanism for acute hypercapnia in OSA, 2) acute hypercapnia during periodic breathing may occur without a decrease in average minute ventilation, supporting the presence of temporal V/Q mismatch, as predicted from our model, and 3) compensation for CO(2) accumulation during apnea/hypopnea may be limited by the duration of the interevent interval. The relationship of this acute hypercapnia to sustained chronic hypercapnia in OSA remains to be further explored.
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PMID:CO(2) homeostasis during periodic breathing in obstructive sleep apnea. 1064 88

Because of similar physiological changes such as increased left ventricular (LV) afterload and sympathetic tone, an exaggerated depression in cardiac output (CO) could be expected in patients with coexisting obstructive sleep apnea and congestive heart failure (CHF). To determine cardiovascular effects and mechanisms of periodic obstructive apnea in the presence of CHF, 11 sedated and chronically instrumented pigs with CHF (rapid pacing) were tested with upper airway occlusion under room air breathing (RA), O(2) breathing (O2), and room air breathing after hexamethonium (Hex). All conditions led to large negative swings in intrathoracic pressure (-30 to -39 Torr) and hypercapnia (PCO(2) approximately 60 Torr), and RA and Hex also caused hypoxia (to approximately 42 Torr). Relative to baseline, RA increased mean arterial pressure (from 97.5 +/- 5.0 to 107.3 +/- 5.7 Torr, P < 0.01), systemic vascular resistance, LV end-diastolic pressure, and LV end-systolic length while it decreased CO (from 2.17 +/- 0.27 to 1.52 +/- 0.31 l/min, P < 0.01), stroke volume (SV; from 23.5 +/- 2.4 to 16.0 +/- 4.0 ml, P < 0.01), and LV end-diastolic length (LVEDL). O2 and Hex decreased mean arterial pressure [from 102.3 +/- 4.1 to 16.0 +/- 4.0 Torr (P < 0.01) with O2 and from 86.0 +/- 8.5 to 78.1 +/- 8.7 Torr (P < 0.05) with Hex] and blunted the reduction in CO [from 2.09 +/- 0.15 to 1.78 +/- 0.18 l/ml for O2 and from 2.91 +/- 0.43 to 2.50 +/- 0.35 l/ml for Hex (both P < 0.05)] and SV. However, the reduction in LVEDL and LV end-diastolic pressure was the same as with RA. There was no change in systemic vascular resistance and LVEDL during O2 and Hex relative to baseline. In the CHF pigs during apnea, there was an exaggerated reduction in CO and SV relative to our previously published data from normal sedated pigs under similar conditions. The primary difference between CHF (present study) and the normal animals is that, in addition to increased LV afterload, there was a decrease in LV preload in CHF contributing to SV depression not seen in normal animals. The decrease in LV preload during apneas in CHF may be related to effects of ventricular interdependence.
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PMID:Hemodynamic effects of periodic obstructive apneas in sedated pigs with congestive heart failure. 1071 Apr 3

Patients with obstructive sleep apnea are at increased risk for hypertension. The mechanisms underlying this increased risk are not known. During sleep, repetitive apneic episodes result in hypoxemia and carbon dioxide retention, which cause increases in sympathetic nerve activity and elicit humoral vasoconstrictor responses. While these mechanisms explain nocturnal elevations in blood pressure, it is unclear why hypertension and elevated sympathetic nerve activity prevail even during the daytime. This review will examine briefly some of the neural and humoral mechanisms that are activated by nocturnal apneas and which may contribute to persistent increases in blood pressure even during daytime normoxia. Disruption of the autonomic and hemodynamic profile of normal sleep by apneic events manifests as raised blood pressure and heightened sympathetic nerve traffic during sleep. During awake daytime normoxia, baroreflex and chemoreflex dysfunction may contribute to maintenance of higher blood pressure and sympathetic activity. Sustained vasoconstrictor effects of nocturnal endothelin release may also be implicated in the elevated daytime blood pressures.
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PMID:Neural and humoral mechanisms mediating cardiovascular responses to obstructive sleep apnea. 1072 61

Complaints of poor sleep are very common in people with chronic respiratory disorders. In patients with chronic obstructive pulmonary disease (COPD), poor sleep may be due to many causes, including cough, excess mucous production, and frequent arousals from sleep caused by hypercapnia, as well as secondary to medications used to manage the lung disease. Patients with obstructive sleep apnea (OSA) also complain of excessive daytime sleepiness and fatigue due to poor-quality sleep, although the mechanism of sleep disruption is somewhat different from that in patients with COPD. Although benzodiazepines are often the drugs of choice for the management of insomnia, caution is suggested with the use of these agents in patients with chronic obstructive respiratory disease due to the reduction in upper airway muscle tone and blunting of the arousal response to hypercapnia. However, controlled trials with short-acting benzodiazepine receptor antagonists, including triazolam, zolpidem, and zaleplon, suggest that these agents may be safely used in selected patients who have mild to moderate COPD without daytime hypercapnia. Less data are available on the use of these agents for patients with OSA, but a preliminary trial using zaleplon suggests that respiratory function is not adversely affected in patients with mild to moderate OSA. Studies are needed to further define the benefit-risk ratio of the use of benzodiazepine receptor agonists for the management of insomnia in patients with chronic obstructive lung disease.
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PMID:Perspectives on the management of insomnia in patients with chronic respiratory disorders. 1075 6


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