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)

A retrospective study of pediatric patients with obstructive sleep apnea who underwent adenotonsillectomy between 1987 and 1990 was undertaken to determine the frequency of postoperative respiratory compromise and to determine if risk factors for its development could be identified. Sixty-nine patients less than 18 years old had polysomnographically documented obstructive sleep apnea and were observed postoperatively in the pediatric intensive care unit. Of these, 16 (23%) had severe respiratory compromise, defined as intermittent or continuous oxygen saturation of 70% or less, and/or hypercapnia, requiring intervention. Compared with patients without respiratory compromise, these patients were younger (3.4 +/- 4 vs 6.1 +/- 4 years) and had more obstructive events per hour of sleep on the polysomnogram (49 +/- 41 vs 19 +/- 30). They were more likely to weight less than the fifth percentile for age (odds ratio [OR], 5.1; 95% confidence interval [CI], 1.4 to 18.7), to have an abnormal electrocardiogram and/or echocardiogram (OR, 4.5; 95% CI, 1.3 to 15.1), and to have a craniofacial abnormality (OR, 6.2; 95% CI, 1.5 to 26). Multiple logistic regression analysis revealed the most significant risk factors were age below 3 years and an obstructive event index greater than 10. Children with obstructive sleep apnea are at risk for respiratory compromise following adenotonsillectomy; young age and severe sleep-related upper airway obstruction significantly increase this risk. We recommend in-hospital postoperative monitoring for children undergoing adenotonsillectomy for obstructive sleep apnea.
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PMID:Respiratory compromise after adenotonsillectomy in children with obstructive sleep apnea. 150 20

We hypothesized that intermittent hypoxemia and increased ventricular afterload due to obstructive apnea during sleep (OSA) would cause chronic left ventricular dysfunction. Overnight polysomnography, M-mode and two-dimensional echo-Doppler studies while awake were performed on 51 consecutive snorers, 30 with OSA and 21 without apnea. Patients with previous myocardial infarction, awake hypoxemia or hypercapnia, or other causes of nocturnal hypoxemia were excluded. Echo-Doppler measurements included end-diastolic right and left ventricular dimensions and wall thickness, indices of left ventricular systolic performance (fractional shortening, ejection fraction and ejection time and diastolic performance, (isovolumic relaxation time, ratio of peak early [E] to late [A] diastolic transmitral flow and mitral pressure half-time). Both OSA patients and nonapneic snorers were of similar age. Although OSA patients were heavier, had a greater apnea-hypopnea index, and significant nocturnal hypoxemia, their echo-Doppler measurements were within normal limits and were not significantly different from nonapneic snorers. It is concluded that isolated obstructive sleep apnea does not cause chronic left ventricular dysfunction.
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PMID:Ventricular function in snorers and patients with obstructive sleep apnea. 840 27

We investigated the effect of different levels of hypercapnia on total pulmonary resistance (RL) in 13 subjects ranging from nonsnorers with low RL to snorers with high RL and dynamic narrowing of the upper airway during inspiration. Added CO2 was adjusted to achieve a steady-state increase in PETCO2 of +2, +4, or +6 mm Hg. RL was measured at peak inspiratory flow (RLpf), at maximal resistance within breath (RLmax), and at 10 equally spaced points within inspiration in several trials. During wakefulness, hypercapnia was associated with decreased RLmax. During steady state +6 mm Hg hypercapnia, RLmax decreased by 30% (p less than 0.01). During NREM sleep, low levels of hypercapnia did not affect RL. However, +6 mm Hg hypercapnia was associated with decreased RLmax in six of eight subjects (p = 0.07), especially in subjects with high RLmax during room air breathing. The effects of hypercapnia on RLpf paralleled its effect on RLmax. We concluded that (1) the decrease in RL during awake hypercapnia suggests an increase in upper airway dimensions and stiffness, (2) the absence of increased RL during low level NREM hypercapnia (despite the increase in inspiratory flows and collapsing pressures) also suggests an increase in upper airway dimensions and stiffness, and (3) upper airway dilating muscles appear to be recruited in a coordinated fashion with inspiratory muscles in normal humans during NREM sleep. The implications of these findings in patients with obstructive sleep apnea are not clear at this point.
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PMID:Effect of hypercapnia on total pulmonary resistance during wakefulness and during NREM sleep. 185 68

The modifications in the ventilation pattern when a continuous positive pressure is applied through the nose (CPAPn) in an acute form or by increasing pressures is evaluated in 13 normal subjects and 8 individuals presenting obstructive sleep apnea syndrome (OSAS). No significant modifications are observed in breathing frequency or breathing time when 5 and 10 cm of H2 are applied. It is concluded that this mechanism does not seem to be involved in the disappearance of hypercapnia which occurs in some patients with OSAS.
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PMID:[The effect of continuous positive-pressure via the nose (CPAPn) on the ventilatory pattern]. 189 93

It has been postulated that sleep disruption may change ventilatory chemoresponsiveness to hypercapnia and hypoxia and thereby contribute to the development of respiratory failure in some patients with obstructive sleep apnea syndrome (OSAS) or with other respiratory disorders. Some studies have demonstrated a reduction in ventilatory chemoresponsiveness in normal subjects after one night of total sleep deprivation. However, sleep fragmentation rather than total sleep deprivation is usual in patients. In this study, therefore, we measured hypercapnic ventilatory responsiveness (HCVR) and spirometry in 13 healthy male subjects (18 to 30 yr of age) after two consecutive nights of severe sleep fragmentation (arousal to an auditory stimulus after each minute of sleep) and compared the results with those obtained in the same subjects after normal sleep. Sleep fragmentation and normal sleep were separated by a week, and the order of intervention was randomized from patient to patient. No significant differences were observed in the slope or position of the HCVR curve after sleep fragmentation or in forced expiratory volumes. Although it is possible that a more prolonged period of sleep fragmentation than that used in this study may have an effect on HCVR, the results suggest that sleep fragmentation is an unlikely cause of progressive respiratory failure in patients with OSAS or with other respiratory disorders.
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PMID:Sleep fragmentation and ventilatory responsiveness to hypercapnia. 195 42

Defense of ventilatory homeostasis against recurrent hypercapnia, hypoxia, and acidosis resulting from apnea in obstructive sleep apnea syndrome (OSAS) is dependent on compensatory mechanisms operative between episodes of airway obstruction. This investigation was designed to examine whether endogenous opiate activity modulates the compensatory ventilatory response to apnea in OSAS. Polysomnography and quantitative measurement of tidal volume was performed in 12 patients with moderate to severe OSAS during a morning nap study before and after intravenous administration of 10 mg of naloxone. Apnea index was not significantly altered. There was a small but significant shortening of apneas (postnaloxone apnea duration, 91.2% of prenaloxone; p = 0.002 by ANOVA). Tidal volume of the first postapnea breath and minute ventilation extrapolated from the first two postapnea breaths, but not frequency, increased significantly after naloxone (postnaloxone first breath volume, 112.7% of prenaloxone value [p = 0.03], with a similar increase for minute ventilation, 115.1% [p = 0.007]). The volume of the first postapnea breath was correlated with the duration of the previous apnea, both before (r = 0.59, p = 0.0001) and after naloxone. Despite this, analysis of covariance with apnea duration as the covariate confirmed a significant independent increase in postapnea breath volume after naloxone (p = 0.001). Naloxone also altered sleep architecture, increasing percent time awake during the study period (prenaloxone, 36.3 +/- 15.6%; postnaloxone, 56.7 +/- 22.4%; p = 0.0003) and decreasing total sleep time and percent time in Stage 1. Furthermore, naloxone increased continuity of awake periods (mean length of awake periods increased from 27.0 +/- 8.4 to 66.0 +/- 66.6 s after naloxone, p = 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endogenous opiates modulate the postapnea ventilatory response in the obstructive sleep apnea syndrome. 204 14

Fifty-four patients with obstructive sleep apnea (OSA) syndrome received long-term treatment with nasal continuous positive airway pressure (CPAP). The effects on daytime lung function and pulmonary hemodynamics were prospectively evaluated by repeating pulmonary function tests, including right heart catheterization after a follow-up period of at least 1 yr (554 +/- 28 days, mean +/- SEM). PaO2 increased in the patient group as a whole from 69.9 +/- 1.4 to 72.8 +/- 1.4 mm Hg (p less than 0.02). The increase in PaO2 was greater (from 60.4 +/- 1.0 to 66.4 +/- 2.1, p less than 0.01) in those patients who were hypoxemic prior to treatment. PaCO2 decreased significantly only in the subgroup of patients with significant hypercapnia prior to treatment (n = 7), from 48.5 +/- 1.3 to 44.5 +/- 1.5 mm Hg (p less than 0.01). The improvement in daytime blood gases seemed to be related to an increase in the alveolar ventilation, from 5.2 +/- 0.2 to 5.9 +/- 0.3 L/min without a change in the alveolar-arterial PO2 difference, as calculated in 25 patients. Both the red blood cell count and the hematocrit decreased significantly, from 5,347 +/- 90 to 5,024 +/- 61 10(3)/mm3 and from 49.4 +/- 0.9 to 47.1 +/- 0.6%, p less than 0.001 and p less than 0.02, respectively. No change was observed in the resting pulmonary arterial pressure. We conclude that nasal CPAP is effective in improving daytime blood gases in patients with OSA.
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PMID:Long-term effects of treatment with nasal continuous positive airway pressure on daytime lung function and pulmonary hemodynamics in patients with obstructive sleep apnea. 218 56

The CSF pressure was measured continuously at the lumbar level during nocturnal sleep in 3 patients with sleep apnea hypersomnia syndrome. Nocturnal sleep was very unstable with frequent episodes of obstructive sleep apnea. When the patients were awake and relaxed in the supine position, their CSF pressure was stable and within the normal range. Episodic marked elevations of CSF pressure occurred frequently during sleep, and each elevation was preceded and accompanied by an episode of sleep apnea or hypopnea. Significant correlations were found between the duration of apneic episodes and increase of CSF pressure, and between decrease of SaO2 or TcPO2 and increase of CSF pressure. The duration of sleep apnea was longer, increase of CSF pressure was greater, and decreases of SaO2 and TcPO2 were more marked during REM sleep than during NREM sleep. It is suggested that the frequent marked episodic elevations of CSF pressure are caused by an increase in the intracranial vascular volume occurring mainly in response to transient hypercapnia and hypoxia, which are induced by pulmonary hypoventilation during the episodes of sleep apnea.
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PMID:Marked episodic elevation of cerebrospinal fluid pressure during nocturnal sleep in patients with sleep apnea hypersomnia syndrome. 257 29

To define the parameters of respiratory insufficiency in OSA, 114 consecutive patients (108 men, six women) were prospectively studied. In addition to standard polysomnography, they underwent pulmonary function tests, right heart catheterization, and ventilatory response tests to hypercapnia. Nineteen patients (19 percent) had a resting PAP greater than or equal to 20 mm Hg. Multiple regression analysis showed that FEV1 and PaO2 (both with a negative coefficient) and PaCO2 (with a positive coefficient) significantly contributed to PAP. Thirteen patients (12 percent) had a PaCO2 greater than or equal to 45 mm Hg. A multiple regression analysis showed that FEV1 and the minute ventilation at PETCO2 = 60 mm Hg (both with a negative coefficient) and the cumulative apnea duration (with a positive coefficient) significantly contributed to PaCO2. Thirty-seven patients (33 percent) had a PaO2 less than or equal to 65 mm Hg. A multiple regression analysis showed that FEV1 (with a positive coefficient) and the hypopnea + apnea index (with a negative coefficient) significantly contributed to PaO2. These data confirm that impaired daytime pulmonary function (diffuse airway obstruction) contributes to the development of daytime pulmonary hypertension, hypoxemia, and hypercapnia in OSA patients. They show that the amount of sleep-related breathing disorders also plays a significant role.
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PMID:Pulmonary hypertension, hypoxemia, and hypercapnia in obstructive sleep apnea patients. 279 65

The mechanism of sustained awake hypercapnia in the obstructive sleep apnea syndrome (OSA) is unknown. Recent work has implicated coexisting chronic airflow limitation (CAL) as an important contributing factor. We approached this question by studying consecutive patients with both OSA syndrome and severe CAL in detail and comparing those with and without retention of CO2 while awake. Of 28 patients with both severe OSA (mean NREM apnea index = 48 +/- 9, SEM) and severe CAL (mean FEV1 = 1.07 +/- 0.07 L), 14 had persistent awake hypercapnia (mean PaCO2 = 50 +/- 1 mm Hg), and 14 were normocapnic (mean PaCO2 = 40 +/- 1 mm Hg). When separated according to their PaCO2 level, there was no difference in the apnea indices in both non-rapid-eye-movement (NREM) sleep, or rapid-eye-movement (REM) sleep, although the hypercapnic group had lower average levels of oxyhemoglobin saturation in both NREM (SaO2 = 77 +/- 2% versus 85 +/- 3%, p less than 0.05) and REM (SaO2 = 60 +/- 4% versus 82 +/- 3%, p less than 0.001) sleep. The mean values for FEV1, VC, lung volumes, and diffusing capacity for CO measured while awake did not differ. The hypercapnic group had lower awake PaO2 levels (p less than 0.001), were heavier (p less than 0.05), had narrower upper airway size on CT scan measurements (p less than 0.01), and gave a history of much heavier alcohol intake (p less than 0.05). Our results demonstrate that some patients with severe OSA and severe CAL can maintain normal awake arterial CO2 levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Obstructive sleep apnea with severe chronic airflow limitation. Comparison of hypercapnic and eucapnic patients. 281 88


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