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

Local anaesthetics are responsible for 5 to 10% of all reported adverse reactions to anaesthetic drugs. Adverse effects may be classified as: (a) those associated directly with blocking ion channels in cell membranes, such as cardiovascular and CNS toxicity; (b) those due to other effects of drug or vehicle (mainly peripheral nerve complications); (c) allergic reactions (often a mistaken diagnosis); and (d) mechanical or other effects of technique, such as needle trauma or introduction of infection. Signs and symptoms of CNS toxicity include convulsions, followed by coma and respiratory depression. Convulsions are due to disinhibition of nervous conduction, probably by an action at the gamma-aminobutyric acid (GABA) receptor complex, while depressant effects, which predominate at higher doses, are due to blockade of sodium channels. CNS toxicity is potentiated by hypoxia and hypercapnia, so acute management must minimise these. Cardiovascular toxicity also involves sodium channel blockade, reducing contractility and interfering with conduction. Bupivacaine differs from lidocaine (lignocaine) in the sudden occurrence of dangerous ventricular arrhythmias including fibrillation at subconvulsant doses. Ropivacaine is a newer amide local anaesthetic with toxicity intermediate between these but potency similar to bupivacaine. Neurotoxic complications leading to prolonged deficit after intraspinal administration are uncommon. Causes are multifactorial, and include pH of and additives to preparations. Allergic reactions account for only 1% of untoward reactions, but anaphylactoid collapse can be lifeth-reatening and requires rapid and effective management.
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PMID:Adverse effects of local anaesthetics. 150 66

A healthy young woman suffered cardiac arrest during diagnostic laparoscopy; emergent laparotomy was required to release the pneumoperitoneum and reinitiate cardiac rhythm. Several cases of cardiovascular collapse have been described in the literature. Possible causes for such complications include hypercapnia or anoxia from hypoventilation during anesthesia, decreased venous return and cardiac output secondary to elevated intra-abdominal pressure, gas embolism, and a profound vagal response to peritoneal distention. Treatment includes cardiovascular support and rapid release of the pneumoperitoneum.
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PMID:Asystolic cardiac arrest: a rare complication of laparoscopy. 153 24

Between October 6, 1986 and September 17, 1987, 11 patients underwent insertion of mandibular dental prostheses by the same oral surgeon. Three patients suffered cardiac arrest during surgery and subsequently died. Two of the patients who died had received general anaesthetics and the other had intravenous sedation given by three different anaesthetists. All three patients arrested suddenly, developing profound cyanosis and electrical mechanical dissociation, underwent prolonged resuscitative efforts, and had marked hypoxaemia and hypercapnia, despite cardiopulmonary resuscitation. Two other patients had signs of injection of air but survived, one suffering cardiac collapse and the other sustaining massive subcutaneous emphysema. Air embolism was produced by inadvertent injection of a mixture of air and water, passing through the hollow dental drill, directly into the mandible to the facial and pterygoid plexus veins and thence to the superior vena cava and right atrium.
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PMID:Fatal air embolism during dental implant surgery: a report of three cases. 227 34

The upper airway (UAW) is intrinsically unstable and susceptible to collapse when the negative inspiratory intraluminal pressure exceeds the stabilizing forces which prevent obstruction. In the present study we evaluated mechanisms by which UAW patency is maintained in the presence of increased inspiratory flows when respiration is stimulated. In seven anesthetized dogs breathing spontaneously through a low tracheostomy, the UAW was isolated by a second tracheostomy directed rostrally. UAW pressure-flow relationship and stability against collapse were evaluated during steady flow in the inspiratory direction while the animals were breathing 100% O2 or a hypercapnic gas mixture. The pressure-flow curves of the isolated UAW demonstrated the characteristic pattern of collapsible tubes. Steady state hypercapnia resulted in lower UAW resistance during both inspiration and expiration. UAW resistance decreased linearly as PCO2 and ventilation increased over the course of CO2 rebreathing. In addition, during hypercapnia the critical negative intraluminal pressure required to induce UAW collapse and obstruction increased from -4.3 +/- 0.9 to -8.5 +/- 1.5 SE cm H2O (p less than 0.01), indicating increased stability of the UAW. Since hypercapnia is known to stimulate UAW muscles, our findings suggest that increased UAW muscle activity improves UAW patency both by decreasing their resistance to airflow, and by increasing UAW walls rigidity and stability against collapse.
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PMID:Effect of hypercapnia on upper airway resistance and collapsibility in anesthetized dogs. 249 2

Administration of sodium bicarbonate during cardiopulmonary resuscitation (CPR) is controversial, and our aim was to elucidate whether or not its administration is beneficial by analyzing the acid-base status and the level of carbon dioxide in central venous blood during CPR, and their changes following administration of sodium bicarbonate. Six patients were studied. They had all been admitted to the intensive care unit (ICU), had already had pulmonary arterial or central venous catheters inserted, and had acute episodes of circulatory collapse during their stay in the ICU. The following phenomena were observed: 1) hypercapnia and acidosis of central venous blood were prominent during both cardiogenic shock and CPR, although arterial hypocapnia was maintained by hyperventilation; 2) administration of sodium bicarbonate during cardiogenic shock and CPR induced exacerbation of hypercapnia and acidosis of central venous blood; 3) when arterial hypercapnia was present due to disturbed ventilation, administration of sodium bicarbonate exacerbated hypercapnia and acidosis of both arterial and central venous blood; 4) administration of sodium bicarbonate did not induce hypercapnia of central venous blood in a septic shock patient in whom the septic hyperdynamic state was prevalent in spite of low systemic perfusion pressure. It was concluded that hypercapnia and acidosis of the central venous blood and tissues were exacerbated by administration of sodium bicarbonate during CPR, and that such an effect might be dependent on the severity of the decrease in tissue perfusion.
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PMID:Exacerbation of hypercapnia and acidosis of central venous blood and tissue following administration of sodium bicarbonate during cardiopulmonary resuscitation. 254 21

The syndrome of obstructive sleep apnoea is associated with an increased morbidity (the consequence of diurnal hypersomnolence and cardiovascular complications). The contraction of the dilator muscles of the upper airways (nose and pharynx) allows their patency at the time of inspiration. The obstruction of the airways resulted in a disequilibrium between the forces which tend to their collapse (negative inspiratory transpharyngeal pressure gradient) and those which contribute to their opening (muscle contraction). The mechanisms which underlie the triggering of obstructive apnoea are multiple including a reduction in the calibre of the superior airways, an increase in their compliance, and a reduction in the activity of the muscle dilators. This latter is intimately linked to the respiratory muscles and these muscles respond in a similar manner to a stimulation or a depression of the respiratory centre. The ventilatory fluctuations observed during sleep (alternately hyper and hypo ventilation of periodic respiration) thus favours an instability of the superior airways and the occurrence of oropharyngeal obstruction. The depth of post-apnoeic desaturation depends on the value of the arterial oxygen saturation at the beginning of apnoea, the duration of the period of apnoea and the pulmonary volume as the period of apnoea passes off. The cardiovascular consequences of apnoea include disorders of rhythm (bradycardia, auriculoventricular block, ventricular extrasystoles) and haemodynamic (pulmonary and systemic hypertension). This results in a stimulatory metabolic and mechanical effect on the autonomic nervous system. The electroencephalographic awakening which precedes the easing of obstruction of the upper airways is responsible for the fragmentation of sleep. The factors implicated in the cessation of the apnoea include hypoxia and hypercapnia but one also invokes a role for the negative pressure generated during the course of the apnoea.
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PMID:[Physiopathology of obstructive sleep apneas]. 269 Feb 8

This study sought to assess the effect of variations in upper airway muscle activity on upper airway pressure-volume properties. Upper airway elastance, closing pressure, and reserve volume were measured in the isolated upper airways of anesthetized rabbits under control conditions and after administration of gallamine (2 mg/kg iv) or after 10 min of spontaneous respiration of 7% CO2 in O2. Administration of gallamine to seven animals was associated with a fall in reserve volume from 0.94 +/- 0.24 to 0.69 +/- 0.17 (95% confidence interval) ml (P less than 0.01) and of closing pressure from -7.53 +/- 0.23 to -5.75 +/- 1.05 cmH2O (P less than 0.01), but airway elastance did not change significantly. Hypercapnia in seven animals was associated with a rise in elastance from 7.06 +/- 0.91 to 7.67 +/- 0.86 cmH2O/ml (P less than 0.001) and in reserve volume from 0.68 +/- 0.06 to 0.86 +/- 0.13 ml (P less than 0.05). Closing pressure also changed from -5.88 +/- 0.94 to -7.92 +/- 1.85 cmH2O. This change was correlated with the change in reserve volume but not with the change in elastance. In three animals exposed to hypercapnia, return to room air breathing was associated with return of elastance, reserve volume, and closing pressure to control levels. It is concluded that muscle activity in the upper airway affects both the size and elastance of the airway, but the dominant mechanism by which upper airway muscles increase the resistance of the upper airway to collapse is by increasing airway volume.
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PMID:Influence of muscle activity on the elastance of the upper airway of rabbits. 270 5

In pentobarbitalized rats, hypoxia induced by inhalation of O2 8%-N2 92%, produces a transient hyperventilation which is followed by a respiratory depression and an apnea. A cardiovascular collapse is then observed. Correction of the hypocapnia depending on the initial hyperventilation, by inhalation of a gas mixture containing 4% CO2 maintains the hyperventilation and suppresses the cardiovascular collapse. Carbon dioxide activity is both a direct one by stimulation of respiratory centers and an indirect one by increasing the sensitivity of the peripheral arterial chemoreceptors to hypoxia. Four percent carbon dioxide just compensating hypocapnia are sufficient to prevent apnea and vascular collapse. The increase of this concentration up to hypercapnia complicates the interpretation of the results by addition of hypoxic and hypercapnic effects.
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PMID:[Effects of the addition of carbon dioxide on manifestations of acute hypoxia in rats]. 297 Feb 83

In patients with obstructive apnea, it was hypothesized that stimulation of the ventilatory system by hypercapnia during sleep would increase pharyngeal inspiratory muscle activity and thereby increase upper airway caliber. We predicted that this increase in caliber would decrease the number of apneas and sleep time spent apneic. In contrast, suppression of the ventilatory system activity with hyperoxia was predicted to decrease both inspiratory muscle activity and pharyngeal caliber and thereby increase the number of apneas and apnea time. In all 7 patients with symptomatic obstructive sleep apnea studied, 3 with upper airway narrowing obvious during wakefulness, inhalation of 3 to 6% CO2 preferentially stimulated upper airway inspiratory muscle tonic electrical activity relative to the activity of chest wall inspiratory muscles and diminished periodic breathing. Apnea time decreased from 60 +/- 2% (mean +/- SEM) of sleep time during ambient air inhalation to 12 +/- 3% during CO2 inhalation; 50% O2 had the reverse effect on inspiratory muscle tonic electrical activity and increased apnea time to 75 +/- 5% of sleep time. We conclude that manipulation of inspiratory muscle tonic activity and alteration of the pattern of breathing by CO2 and O2 inhalation lead to significant changes in the pattern of upper airway inspiratory collapse during sleep. We speculate that physiologic variables related to the control of upper airway inspiratory muscle function are instrumental in the pathophysiology of obstructive sleep apnea.
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PMID:Alteration in obstructive apnea pattern induced by changes in oxygen- and carbon-dioxide-inspired concentrations. 314 3

Snoring usually is trivial and unimportant, but it can turn into a social or medical problem. Obesity, hypertension and heart disease are more frequent among snorers than among nonsnorers, and especially snorers with hypersomnia during the day are at risk. Hypersomnia in association with snoring usually signifies obstructive sleep apnea. Increased resistance in the upper airways, together with negative inspiratory pharyngeal pressure and muscular hypotonia during deep non-REM and REM sleep, lead to collapse of the pharynx, hypoxia and hypercapnia. Only after arousal from sleep does muscle tone return, pharyngeal obstruction reopen and airflow resume. Since this process can occur 300 or 400 times a night, repetitive alveolar hypoventilation leads to pulmonary-arterial hypertension and cor pulmonale, and the repetitive sympathetic activations can cause systemic hypertension or serious cardiac arrhythmias. The countless arousals deprive the sufferer of deep non-REM and REM sleep and their consequence is sleep fragmentation. The symptoms are excessive daytime sleepiness, intellectual deterioration and personality and behavioral changes. Oronasomaxillofacial, endocrine and neuromuscular anomalies and diseases predispose to sleep apnea, and alcohol or CNS-depressant drugs can favour its occurrence. Diagnosis is made by nighttime oxymetry, and if this is abnormal, by polysomnography. After polysomnography it is possible to distinguish between obstructive and nonobstructive sleep apnea, and the decisions for an adequate treatment can be made.
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PMID:[Dangerous snoring. Sleep-apnea syndrome]. 331 92


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