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

Hypercapnia produces an uncomfortable urge to breathe ('air hunger'), which is alleviated by increasing breathing. It has been postulated that awake humans control breathing partly to minimize these sensations; such behavioral control presumably involves the forebrain. To test this postulate, we compared the ventilatory response to hypercapnia when the subject breathed spontaneously to the response when the subject used forebrain commands to control ventilation--on the basis of minimizing air hunger (achieved with subject-controlled positive pressure ventilation). In six healthy adults during hypercapnia (46 mmHg), spontaneous ventilation significantly exceeded, by 17%, the level of (mechanical) ventilation needed to alleviate air hunger. This suggests that spontaneous breathing is not behaviorally controlled to minimize discomfort. Alternatively, mechanical ventilation confers an additional relief of air hunger beyond that provided by spontaneous breathing. Since mechanical ventilation (with reduced respiratory muscle contraction) was more effective than spontaneous breathing in relieving air hunger, our results also suggest afferents that signal the degree of respiratory muscle contraction do not contribute to air hunger relief.
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PMID:Self-control of level of mechanical ventilation to minimize CO2 induced air hunger. 883 43

The conscious entrainment of respiratory rhythm to exercise rhythm (ENT) has been hypothesized to alleviate breathing discomfort and reduce the oxygen (O2) cost of ventilation with a resulting decrease in total O2 uptake (VO2) during rhythmic exercise. This hypothesis has been tested in the study reported here. Eight female subjects performed cycle exercise at 50 rpm under two work load conditions of 40% and 60% of maximal VO2. During a 30-min exercise period at each work load, each subject was asked to breathe under two conditions for 15 min each: (1) spontaneously (non-ENT run), and (2) deliberately entraining the breathing rhythm to the cycling rhythm at preferred coupling ratios of the two rhythms (ENT run). In the ENT run, most subjects chose a ratio of 1:2. In each run, pulmonary ventilation (VE), total VO2 and the breathlessness sensation (BS) were measured at 4-5 min. BS was assessed according to a Borg category scale. The remaining 10 min of each 15-min run were allotted for measurement of the O2 cost of ventilation (delta VO2/delta VE), assessed by a hypercapnia-induced hyperventilation method in which the VO2 of the respiratory muscles (VO2RM) was calculated by multiplying delta VO2/delta VE by the prevailing VE. On average, there were no significant differences in any of the variables, VO2, delta VO2/delta VE, VO2RM and BS, between the non-ENT and ENT runs performed at any work load. However, there were wide variations among the subjects in the differences (delta) between the two runs, and significant correlations were found between delta VO2 vs delta VE, delta VO2 vs delta VO2RM, and delta BS vs delta VO2RM of individual subjects. These results indicate that reductions of the total VO2 and BS with ENT could occur in subjects in whom the VO2RM decreased during ENT.
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PMID:Sensation of breathlessness and respiratory oxygen cost during cycle exercise with and without conscious entrainment of the breathing rhythm. 928 99

1. Given the importance of the ventilatory 'pump' muscles, it would not be surprising if they were endowed with both sensory and motor specializations. The present review focuses on some unexpected properties of the respiratory muscle system in human subjects. 2. Although changes in blood gas tension were long held not to influence sensation directly, studies in subjects who are completely paralysed show that increases in arterial CO2 levels elicit strong sensations of respiratory discomfort. 3. Stretch reflexes in human limb muscles contain a monosynaptic spinal excitation and a long-latency excitation. However, inspiratory muscles show an initial inhibition when tested with brief airway occlusions during inspiration. This inhibition does not depend critically on input from pulmonary or upper airway receptors. 4. Human inspiratory muscles (including the diaphragm) have been considered to fatigue during inspiratory resistive loading. However, recent studies using phrenic nerve stimulation to test the force produced by the diaphragm show that carbon dioxide retention (hypoventilation) and voluntary cessation of loading occur before the muscles become overtly fatigued.
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PMID:Human respiratory muscles: sensations, reflexes and fatiguability. 978 13

Competition between airflow requirements for speaking and gas exchange occurs in ventilator-dependent tracheotomized subjects who can 'steal' air from alveolar ventilation during the ventilator's inflation phase to produce sound. We wondered whether these subjects adopted strategies to minimize hypoventilation when speaking, particularly when ventilatory drive and respiratory discomfort are increased by hypercapnia. We recorded speech and ventilatory and speaking volumes in five ventilated subjects during reading and extemporaneous speech. All subjects spoke during the ventilator's inflation (and expiratory) phase, losing approximately 15% of their inspired tidal volume. During induced hypercapnia (15 mmHg increase in PetCO2) which caused shortness of breath, all subjects could still speak adequately. Two subjects 'adapted' to hypercapnia by reducing the air used for speaking during inflation. In contrast, one subject reacted, as normal subjects do, by increasing the airflow per syllable (a mal-adaptive strategy in ventilated subjects). These changes were modest despite the strong hypercapnic stimulus.
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PMID:Competition between gas exchange and speech production in ventilated subjects. 979 82

Although negative pressure assisted ventilation with an assist-control mode may have a potential therapeutic role in the treatment of severe dyspnoea, the effects of negative pressure assisted ventilation with the assist-control mode on dyspnoea and breathing patterns have not been examined. We examined the effects of negative pressure assisted ventilation with the assist-control mode on dyspnoea and breathing patterns produced by a combination of resistive loading and hypercapnia in nine healthy subjects breathing spontaneously. Subjects were asked to rate their sensation of respiratory discomfort using a visual analogue scale. Negative pressure assisted ventilation caused a significant reduction in sensation of respiratory discomfort from a visual analogue scale score of 74 (55-91) (median (range)) before negative pressure assisted ventilation to 34 (15-53) during negative pressure assisted ventilation (p<0.01). During negative pressure assisted ventilation, there were significant changes in breathing patterns characterized by an increase in tidal volume and a decrease in respiratory frequency, while neither minute ventilation nor end-tidal carbon dioxide tension changed. Our results indicate that negative pressure assisted ventilation with the assist-control mode is effective in relief of dyspnoea and that negative pressure assisted ventilation influences the control of breathing to minimize respiratory discomfort.
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PMID:Effects of negative pressure assisted ventilation on dyspnoeic sensation and breathing pattern. 987 77

We have measured how a low concentration of nitrous oxide affected respiratory sensation and ventilation. Severe dyspnoea was induced in nine normal subjects by a combination of hypercapnia and inspiratory elastic load (50 cm H2O litre-1). Subjects were asked to rate their sensation of respiratory discomfort using a visual analogue scale (VAS) while breathing either 20% nitrous oxide or 20% nitrogen gas mixture. We compared the effects of each gas mixture on respiratory sensation and ventilation using steady-state values of ventilatory variables and VAS scores obtained before, during and after inhalation of each gas mixture. Inhalation of 20% nitrous oxide reduced the sensation of respiratory discomfort from a median VAS score of 6.5 (range 5.0-8.1) before inhalation to 3.6 (2.4-5.9) during inhalation (P < 0.05). There was no significant change in minute ventilation but tidal volume increased during inhalation of 20% nitrogen did not alter VAS scores or ventilatory variables. We found that a low concentration of nitrous oxide greatly alleviated the intensity of dyspnoea without changing respiratory load compensation.
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PMID:A low concentration of nitrous oxide reduces dyspnoea produced by a combination of hypercapnia and severe elastic load. 1061 66

Furosemide is known to influence the activity of vagally mediated mechanoreceptors in the airways. Because vagal afferent fibers may play an important role in modulation of the sensation of dyspnea, it is possible that inhaled furosemide may modify the sensation of dyspnea. In a double-blind, randomized, crossover study, we compared the effect of inhaled furosemide on dyspneic sensation with that of placebo. Severe dyspneic sensation was induced in 12 healthy subjects in two ways: (1) breathholding and (2) loaded breathing with a combination of inspiratory resistive load (240 cm H(2)O/L/s) and hypercapnia induced by extra mechanical dead space (0.26 L). Subjects were asked to rate their sensation of respiratory discomfort using a visual analogue scale (dyspneic VAS). Breathholding times and changes in dyspneic VAS score during a 5-min period of loaded breathing were measured after inhalation of placebo and furosemide (40 mg). Total breathholding time after inhalation of furosemide (median, 93 [interquartile range, 78 to 112]s) was prolonged compared with the total breathholding time after placebo inhalation (67 [47-74]s). We also found that respiratory discomfort during loaded breathing after inhalation of furosemide develops more slowly and is less than that observed after inhalation of placebo. Our findings indicate that inhaled furosemide greatly alleviates the sensation of dyspnea induced experimentally by breathholding and by a combination of resistive loading and hypercapnia.
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PMID:Inhaled furosemide greatly alleviates the sensation of experimentally induced dyspnea. 1085 74

Progression of chronic obstructive pulmonary disease (COPD) is frequently associated with increasing dyspnea; indeed, patients with severe COPD constitute the largest group of patients with chronic respiratory insufficiency. The sensation of dyspnea in these patients is mostly related to increased work of breathing, a consequence of an increased resistive load, of hyperinflation, and of the deleterious effect of intrinsic positive end-expiratory pressure (PEEP(i)). Once optimal medical treatment has been provided, pharmacological treatments of dyspnea exist (beta2-agonists, methylxanthines, opiates) but seldom suffice. Nonpharmacological complementary treatments must be envisioned. Patients with severe hyperinflation should be screened as possible candidates for lung reduction surgery. Pulmonary rehabilitation-including chest therapy, patient education, exercise training-has been established as effective on quality of life (QoL) and dyspnea. Noninvasive positive pressure devices may be effective for symptomatic treatment of severe dyspnea: continuous positive airway pressure (CPAP) counteracts the deleterious effect of PEEP(i) in patients with severe hyperinflation; intermittent positive pressure breathing (IPPB) may decrease dyspnea and discomfort during nebulized therapy; finally noninvasive positive pressure ventilation (NIPPV) has been shown to be effective on the sensation of dyspnea and QoL in COPD with severe hypercapnia.
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PMID:Management of dyspnea in severe chronic obstructive pulmonary disease. 1086 78

The hypercapnia induced by carbogen (95% O(2)/5% CO(2)) breathing, which is being re-evaluated as a clinical radiosensitiser, causes patient discomfort and hence poor compliance. Recent preclinical and clinical studies have indicated that the CO(2) content might be lowered without compromising increased tumour oxygenation and radiosensitisation. This preclinical study was designed to see if lower levels of hypercapnia could evoke similar decreases in the transverse relaxation rate R(2)* of rodent tumours to those seen with carbogen breathing. The response of rat GH3 prolactinomas to 1%, 212% and 5% CO(2) in oxygen, and 100% O(2) breathing, was monitored by non-invasive multi-gradient echo MRI to quantify R(2)*. As the oxygenation of haemoglobin is proportional to the blood p(a)O(2) and therefore in equilibrium with tissue pO(2), R(2)* is a sensitive indicator of tissue oxygenation. Hyperoxia alone decreased R(2)* by 13%, whilst all three hypercapnic hyperoxic gases decreased R(2)* by 29%. Breathing 1% CO(2) in oxygen evoked the same decrease in R(2)* as carbogen. The DeltaR(2)* response is primarily consistent with an increase in blood oxygenation, though localised increases in tumour blood flow were also identified in response to hypercapnia. The data support the concept that levels of hypercapnia can be reduced without loss of enhanced oxygenation and hence potential radiotherapeutic benefit.
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PMID:Effects of different levels of hypercapnic hyperoxia on tumour R(2)* and arterial blood gases. 1135 53

This issue of the Bulletin deals with the principles of anesthesia for outpatient female sterilization with emphasis on techniques for laparoscopy and minilaparotomy. General anesthesia techniques provide analgesia, amnesia, and muscle relaxation and are particularly useful for managing the anxious patient. Disadvantages include increased expense, need for specialized equipment, and highly trained personnel, and delayed recovery. Complications, though relatively rare, can be life-threatening and include aspiration of stomach contents, hypoxia, hypercarbia, hypotension, hypertension, cardiac arrhythmias, cardiorespiratory arrest, and death. There is no single preferred technique of general anesthesia, athough most anesthetists employ methods that allow rapid recovery of faculties, enabling the patient to be discharged soon after surgery. To accomplish this end, light anesthesia with sodium thiopental induction and nitrous oxide maintenance is often used. Short duration muscle relaxation with an agent such as succinylcholine supplements this technique. Other techniques include light anesthesia with inhalational anesthetic agents and the use of intravenous ketamine. Local anesthesia augmented by systemic and/or inhalational analgesia is supplanting general anesthesia techniques for laparoscopy in many locales. This approach is also particularly well-suited for minilaparotomy in developing countries, where it has achieved its greatest popularity. The local technique carries with it reduced morbidity and mortality but may not entirely relieve discomfort. The primary danger of local anesthesia is respiratory depression due to excessive narcosis and sedation. The operator must be alert to the action of the drugs and should always use the minimal effective dose. Although toxicity due to overdosage with local anesthetic drugs is occasionally experienced, allergic reactions to the amide-linkage drugs such as lidocaine or bupivacaine are exceedingly rare. For outpatient laparoscopy or minilaparotomy, local anesthesia with proper preoperative counselling and premedication should provide adequate relief of pain and is the method of choice, unless the patient cannot be examined awake or is totally uncooperative. The decision to utilize either general or local anesthesia should be made by the patient after thorough counselling by the surgical team. In many cases, the circumstances of the surgical environment will dictate the choice, but patient comfort and safety should always be the goal.
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PMID:Anesthesia for outpatient female sterilization. 1231 53


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