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

The obesity-hypoventilation syndrome (or alveolar hypoventilation in the obese) is a new name for an old syndrome, Pickwickian syndrome. It is defined as chronic alveolar hypoventilation (PaO(2)<70 mmHg, PaCO(2) > 45 mmHg) in obese patient with a body mass index > 30 kg/m(2) who have no other respiratory disease explaining the gas anomalies. The large majority of obese subjects are not hypercapnic, even in case of severe obesity. There are three principal causes explaining alveolar hypoventilation in obese subjects: high cost of the work of respiration, dysfunction of the respiratory centers, repeated episodes of nocturnal obstructive apnea. The obesity-hypoventilation syndrome is generally found in males aged over 50 years. Exercise-induced breathlessness is a constant finding. Diagnosis is often made after an episode of severe respiratory failure. Associated diseases favored by obesity are frequent: diabetes, high blood pressure, heart disease. By definition, there is a hypoxemia-hypercapnia syndrome persisting after an acute episode. Spirography usually demonstrates moderate volume restriction. Pulmonary hypertension is frequent but not constant. Obesity-hypoventilation syndrome must be distinguished from obstructive sleep apnea, although the two conditions are often associated. Obstructive sleep apnea may be absent in certain patients with obesity-hypoventilation syndrome (we have had several cases) and inversely, obesity is not observed in certain patients with obstructive apnea. It should be recalled that the term Pickwickian syndrome designates obesity-hypoventilation syndrome (with or without obstructive apnea) and not obstructive sleep apnea syndrome.
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PMID:[Alveolar hypoventilation in the obese: the obesity-hypoventilation syndrome]. 1208 46

Obstructive sleep apnoea is a disease of increasing importance because of its neurocognitive and cardiovascular sequelae. Abnormalities in the anatomy of the pharynx, the physiology of the upper airway muscle dilator, and the stability of ventilatory control are important causes of repetitive pharyngeal collapse during sleep. Obstructive sleep apnoea can be diagnosed on the basis of characteristic history (snoring, daytime sleepiness) and physical examination (increased neck circumference), but overnight polysomnography is needed to confirm presence of the disorder. Repetitive pharyngeal collapse causes recurrent arousals from sleep, leading to sleepiness and increased risk of motor vehicle and occupational accidents. The surges in hypoxaemia, hypercapnia, and catecholamine associated with this disorder have now been implicated in development of hypertension, but the association between obstructive sleep apnoea and myocardial infarction, stroke, and congestive heart failure is not proven. Continuous positive airway pressure, the treatment of choice for obstructive sleep apnoea, reduces sleepiness and improves hypertension.
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PMID:Obstructive sleep apnoea. 1250 19

Maintenance of eucapnia during sleep in obstructive sleep apnea (OSA) requires a balance between CO(2) loading during apnea and CO(2) elimination. This study examines individual respiratory events and relates magnitude of postevent ventilation to CO(2) load during the preceding respiratory event in 14 patients with OSA (arterial PCO(2) 42-56 Torr). Ventilation and expiratory CO(2) and O(2) fractions were measured on a breath-by-breath basis during daytime sleep. Calculations included CO(2) load during each event (metabolic CO(2) production - exhaled CO(2)) and postevent ventilation in the 10 s after an event. In 12 of 14 patients, a direct relationship existed between postevent ventilation and CO(2) load during the preceding event (P < 0.05); the slope of this relationship varied across subjects. Thus the postevent ventilation is tightly linked to CO(2) loading during each respiratory event and may be an important mechanism that defends against development of acute hypercapnia in OSA. An inverse relationship was noted between this postevent ventilatory response slope and the chronic awake arterial PCO(2) (r = 0.90, P < 0.001), suggesting that this mechanism is impaired in patients with chronic hypercapnia. The link between development of acute hypercapnia during respiratory events asleep and maintenance of chronic awake hypercapnia in OSA remains to be further investigated.
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PMID:Postevent ventilation as a function of CO(2) load during respiratory events in obstructive sleep apnea. 1218 86

Prader-Willi syndrome (PWS) is a genetic disorder, with hypotonia being the predominant feature in infancy, and developmental delay, obesity, and behavioral problems becoming more prominent in childhood and adolescence. Children with this disorder frequently suffer from excessive daytime sleepiness and have a primary abnormality of the circadian rhythm of rapid eye movement sleep. They also have primary abnormal ventilatory responses to hypoxia and hypercapnia, and these abnormalities may be exacerbated by obesity. Children with PWS are at risk of a variety of abnormalities of breathing during sleep, including obstructive sleep apnea and sleep-related alveolar hypoventilation. Clinical evaluation should include a careful history of sleep-related symptoms and assessment of the upper airway and lung function. Polysomnography should be considered for those with symptoms suggestive of sleep-disordered breathing. Treatment options depend on the underlying problem, but may include behavioral interventions, weight control, adenotonsillectomy, and nocturnal ventilation.
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PMID:Sleep and breathing in Prader-Willi syndrome. 1220 50

Sleep-related breathing disorders (SRBDs) represent a spectrum of abnormalities that range from simple snoring to upper airway resistance syndrome to sleep apnea. The clinical presentation may include obesity, snoring, neuropsychological dysfunction, and daytime hypersomnolence and tiredness. The acute hemodynamic alterations of obstructive sleep apnea include systemic and pulmonary hypertension, increased right and left ventricular afterload, and increased cardiac output. Earlier reports attributed the coexistence of SRBDs with cardiovascular diseases to the shared risk factors such as age, sex, and obesity. However, recent epidemiologic data confirm an independent association between SRBDs and the different manifestations of cardiovascular diseases. Possible mechanisms may include a combination of intermittent hypoxia and hypercapnia, repeated arousals, sustained increase in sympathetic tone, reduced baroreflex sensitivity, increased platelet aggregation, and elevated plasma fibrinogen and homocysteine levels. The strength of the association, its pathogenesis, and the impact of treatment of SRBDs on the health outcome of patients with cardiovascular diseases are issues to be addressed in future studies.
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PMID:Cardiovascular consequences of sleep-related breathing disorders. 1235 Feb 42

Prevention of acute hypercapnia during obstructive events in obstructive sleep apnea requires a balance between carbon dioxide (CO(2)) loading during the event and CO(2) unloading in the interevent period. Earlier studies have demonstrated that acute CO(2) retention may occur despite high interevent ventilation when the interevent duration is short relative to the duration of the preceding event. The present study examines the relationship between apnea and interapnea durations and relates this assessment of ventilatory periodicity to the degree of chronic hypercapnia in subjects with severe sleep apnea. A total of 18 subjects with sleep apnea (> 40 apnea/hour; chronic awake Pa(CO2) 36-62 mm Hg) and without underlying lung disease underwent polysomnography. For each event, apnea duration, interapnea duration, and apnea/interapnea duration ratio were determined. No relationship was observed between chronic Pa(CO2) and mean apnea or interapnea duration (p > 0.1). However, Pa(CO2) was directly related to apnea/interapnea duration ratio (r = 0.48; p < 0.05) such that with increasing chronic hypercapnia the interapnea duration shortens relative to the apnea duration. The present study suggests that control of the interapnea ventilatory duration relative to the duration of the preceding apnea, is an important component of the integrated ventilatory response to CO(2) loading during apnea and may contribute toward the development and/or maintenance of chronic hypercapnia in obstructive sleep apnea/hypopnea syndrome.
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PMID:Hypercapnia and ventilatory periodicity in obstructive sleep apnea syndrome. 1237 56

The most common sleep disorder in children is obstructive sleep apnea syndrome (OSAS). The majority of children with OSAS improve following tonsillectomy and adenoidectomy (T&A). T&A as an outpatient procedure in children is very common. Young age in considered risk factors for postoperative respiratory complications. The purpose of this study is to analyze our experience with postoperative T&A complications in patients younger than 2 years of age. A total of 39 T&A were performed in children younger than 2 years of age. OSAS diagnosis was confirmed by overnight polysomnography (PSG). All the patients were hospitalized and monitored by overnight pulse oximetry monitoring. Post-operatively there was marked improvement in respiratory function in all the patients comparing pre- and post-operative nadir oxygen saturation (P<0.05). Complications were documented in seven patients (20%). Five of the complications occurred in children older than 1 year of age. Bleeding occurred in two patients (5.7%). Three patients (8.6%) had dehydration, one patient (2.9%) had hypercarbia and one patient had laryngospasm. In this study there was a low incidence of peri- and post- operative respiratory complications in children younger than 2 years of age who undergo T&A for OSAS. Identification of OSAS severity may be an important factor in determining the risk of T&A in a young child.
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PMID:Complications of adenotonsillectomy in children with OSAS younger than 2 years of age. 1288 Jun 63

The causes of obstruction to airflow in the pediatric upper airway include craniofacial disorders, subglottic stenosis, choanal atresia, syndromes associated with neuromuscular weakness, and the most common, hypertrophy of the tonsils and adenoids. Abnormal breathing can adversely affect craniofacial growth, and abnormal craniofacial development can promote upper airway obstruction. Chronic upper airway obstruction often presents with evidence of obstructive sleep apnea syndrome; in severe cases these children also present with pulmonary hypertension and cor pulmonale. The development of pulmonary hypertension and right heart dysfunction from chronic upper airway obstruction is complex. Hypoxemia and hypercarbia-induced respiratory acidosis are potent mediators of pulmonary vasoconstriction that can lead to reversible and irreversible chronic changes in the pulmonary vasculature. It is likely that production of various neurohumoral factors in response to hypoxemia and respiratory distress may further promote pulmonary hypertension, right ventricular dysfunction, and consequent impairment of systemic cardiac output. The anesthetic considerations for children undergoing adenotonsillectomy for chronic airway obstruction are significant. These children are at high risk for complications such as laryngospasm, desaturation, stimulation of pulmonary hypertension and cardiac dysfunction, pulmonary edema, postoperative upper airway obstruction, and respiratory arrest. Because of underlying condition(s) (facial abnormalities, neuromuscular disease, etc.), successful adenotonsillar surgery may not improve upper airway obstruction significantly, especially in the immediate postoperative period when edema, bleeding and the effects of anesthetics and analgesics are present.
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PMID:Chronic upper airway obstruction and cardiac dysfunction: anatomy, pathophysiology and anesthetic implications. 1471 77

The control of breathing in patients with chronic obstructive pulmonary disease (COPD) follows the same basic principles as in normal subjects, both awake and asleep, with an expected lower feedback response during sleep. This impacts nocturnal gas exchange and sleep quality most profoundly in patients with more severe COPD, as multiple factors come into play. Hypoventilation causes the most important gas-exchange alteration in COPD patients, leading to hypercapnia and hypoxemia, especially during rapid-eye-movement sleep, when marked respiratory muscle atonia occurs. The hypoxia leads to increased arousals, sleep disruption, pulmonary hypertension, and higher mortality. The primary mechanisms for this include decreased ventilatory responsiveness to hypercapnia, reduced respiratory muscle output, and marked increases in upper airway resistance. In the presence of more profound daytime hypercapnia, polysomnography should be considered (over nocturnal pulse oximetry) to rule out other co-existing sleep-related breathing disorders such as obstructive sleep apnea (overlap syndrome) and obesity hypoventilation syndrome. Present consensus guidelines provide insight into the proper use of oxygen, continuous positive airway pressure, and nocturnal noninvasive positive-pressure ventilation for those conditions, but several issues remain contentious. In order to provide optimal therapy to patients, the clinician must take into account certain reimbursement and implementation-process obstacles and the guidelines for treatment and coverage criteria.
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PMID:Chronic obstructive pulmonary disease and sleep. 1473 21

Obstructive sleep apnea has traditionally been viewed as a structural disease. A multitude of systemic endocrine and cardiovascular abnormalities have been previously attributed to the prevalence of obesity in these patients. A growing body of clinical evidence, however, points to a relationship between sleep apnea and its systemic abnormalities independent of obesity. We hypothesize that this association is based on a maladaptive autonomic response of chemoreceptors, reacting to the hypoxia, hypercapnia, and acidosis of sleep apnea. The elevated sympathetic response triggers an inflammatory cascade that results in a myriad of downstream consequences including insulin resistance, hypertension, diabetes, atherosclerosis and metabolic syndrome. The sympathetic bias and endocrine disturbances may further exacerbate sleep disturbance in a potentially pernicious cycle. Our proposal may extend to any chronic respiratory or metabolic conditions that manifest hypoxia, hypercapnia, and acidosis and elicit a maladaptive autonomic and inflammatory response.
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PMID:Autonomic dysregulation as a basis of cardiovascular, endocrine, and inflammatory disturbances associated with obstructive sleep apnea and other conditions of chronic hypoxia, hypercapnia, and acidosis. 1514 35


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