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Query: UMLS:C0085383 (hypocapnia)
1,697 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have measured force-frequency curves of the sternocleidomastoid muscle in six patients at three different levels of isoflurane anaesthesia (1.0, 1.4 and 1.8 MAC). Spontaneous ventilation was suppressed by mild hypocapnia induced by mechanical ventilation. An anterior force vector of the sternocleidomastoid muscle was measured during isometric contraction induced by supramaximal electrical stimulation at 20, 50 and 100 Hz to the i.m. accessory nerves of the muscle. The force response at 20 Hz and 50 Hz did not change with an increase in isoflurane concentration, but it decreased at 100 Hz as isoflurane concentration increased. The reduction in the force at 100 Hz may be caused mainly by impaired neuromuscular transmission.
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PMID:Sternocleidomastoid muscle contractility at different levels of isoflurane anaesthesia in humans. 138 39

Desflurane causes dose-dependent decreases in cerebrovascular resistance and cerebral metabolic rate of oxygen consumption (CMRO2), suggesting that desflurane is a cerebral arteriolar dilator with global flow-metabolism coupling similar to halothane and isoflurane. Desflurane is also similar to isoflurane in that cerebrovascular responsivity to carbon dioxide appears to be maintained. In the dog, arterial hypotension to 40 mm Hg induced with 2.4 MAC desflurane resulted in global decreases in cerebral blood flow of 60% and CMRO2 of 20%. Concentrations of cerebral metabolites of high-energy phosphates were not significantly deranged. The intracranial pressure data from humans are controversial. Desflurane and oxygen at 1 MAC caused sustained increases in cerebrospinal fluid pressure (maximum of 19 +/- 6 mm Hg) in patients undergoing craniotomy for mass lesion, despite prior establishment of hypocapnia. In a more recent study, the same investigators reported similar cerebrospinal fluid pressures before and after 0.5 MAC of either isoflurane or desflurane in 50% N2O. The electroencephalographic effects of desflurane are similar to those of isoflurane in humans, and burst suppression is easily achieved. There are no data available concerning possible interactions between desflurane and the outcome of a cerebral ischemic event. Similar to other potent volatile agents, desflurane can cause cerebral vasodilation and may result in intracranial pressure changes in vulnerable patients, but if adequate hyperventilation and depth of anesthesia are maintained, it is probably safe to use desflurane in a manner similar to isoflurane in patients with decreased intracranial compliance.
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PMID:Effects of desflurane on the central nervous system. 152 38

Energy metabolism of the cat brain was studied using phosphorous-31 nuclear magnetic resonance (31P-NMR) during sevoflurane/halothane anesthesia with normo- and hyperventilation. Under normocapnia, the findings associated with abnormal energy metabolism were not observed at concentration of sevoflurane/halothane up to 2 MAC. Meanwhile under hypocapnia by hyperventilation, the value of phosphocreatine began to decrease at and below 20 mmHg of PaCO2 (2 MAC sevoflurane) and 30 mmHg of PaCO2 (2 MAC halothane) respectively. These abnormal findings of brain metabolism were limited to the cases with cerebral blood flow (CBF) of less than a half of control state (nonanesthetized and normoventilated), and they were normalized with increased CBF by the vasoconstrictor, metaraminol. From the above data, it was concluded that the deteriorated energy metabolism by hyperventilation was due to decrease in CBF with hypotension and there was no direct effect on cerebral metabolism with less than 2MAC of both sevoflurane and halothane.
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PMID:[The effects of sevoflurane/halothane anesthesia during normo- and hyperventilation on the energy metabolism of the cat brain]. 154 5

Rings of canine bronchi were studied in vitro to determine the effects of halothane on the responses of airway smooth muscle to hypercapnia and hypocapnia. Bronchi were first contracted to 50% of maximal active force with acetylcholine (ACh), 5-hydroxytryptamine (5HT), potassium chloride (KCl), or the muscarinic agonist McN-A-343 (McN). The CO2 concentration of the bathing solution was then changed from 6% to either 1% (hypocapnia) or 10% (hypercapnia). In the absence of halothane, changes in CO2 concentration had no significant effect on muscles contracted with ACh. With all other contractile agonists, increasing the CO2 concentration caused bronchial relaxation, while decreasing the CO2 concentration caused contraction. In the presence of 2 MAC halothane, hypocapnia relaxed bronchi contracted with the muscarinic agonists ACh or McN; the responses to hypocapnia of bronchi contracted with KCl and 5HT were not significantly changed by halothane. Halothane had no effect on the responses of the bronchi to hypercapnia. We conclude that airway smooth muscle contracted with cholinergic agonist relaxes in response to hypocapnia when exposed to 2 MAC halothane; this mechanism may contribute to the depression of hypocapnic bronchoconstriction caused by halothane in vivo.
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PMID:Halothane alters the response of isolated airway smooth muscle to carbon dioxide. 156 97

Arterial CO2 tension (PaCO2) is an important factor controlling cerebral blood flow (CBF) and cerebral vascular resistance (CVR) in animals and humans. The normal responsiveness of the cerebral vasculature to PaCO2 is approximately 2 ml.min-1.100 g-1.mmHg-1. This study examined the effect of desflurane, a new volatile anesthetic, on the responsiveness of the cerebral vasculature to changes in PaCO2. Mean arterial pressure (MAP), CBF, CVR, intracranial pressure (ICP), and cerebral metabolic rate for O2 (CMRO2) were measured in five dogs anesthetized with desflurane (0.5-1.5 MAC) at normocapnia (PaCO2 = 40 mmHg) and at two levels of hypocapnia (PaCO2 = approximately 30 and approximately 20 mmHg). Under desflurane anesthesia, similar changes in CBF and CVR occurred with hyperventilation at all MAC levels of desflurane. At 0.5 MAC, CBF decreased significantly, from 81 +/- 6 to 40 +/- 3 ml.min-1.100 g-1 (P less than 0.05, mean +/- SE) when PaCO2 was decreased from 40 to 24 mmHg; i.e., the CBF decreased approximately 2.6 ml.min-1.100 g-1.mmHg-1. At 1.0 MAC desflurane, CBF decreased significantly, from 79 +/- 10 to 43 +/- 5 ml.min-1.100 g-1 with hyperventilation (2.0 ml.min-1.100 g-1.mmHg-1); at 1.5 MAC desflurane, CBF decreased from 65 +/- 6 to 38 +/- 2 ml.min-1.100 g-1 with hyperventilation (1.6 ml.min-1.100 g-1.mmHg-1). Despite the significant decreases in CBF with hyperventilation, there was no significant change in ICP. Dose-dependent decreases in MAP were observed with increasing concentrations of desflurane but were not significantly affected by ventilation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The response of the canine cerebral circulation to hyperventilation during anesthesia with desflurane. 190 Mar 97

The effects of halothane and isoflurane on regional cerebral blood flow (CBF) were studied in 18 New Zealand White rabbits anesthetized with nitrous oxide (N2O) and morphine sulfate (MS) at three different levels of PaCO2. CBF was measured using the hydrogen clearance technique. Monitored variables were intracranial pressure (ICP), central venous pressure, heart rate, mean arterial pressure, electroencephalogram, arterial blood gases, end-tidal (ET) volatile anesthetic, and ET CO2. Addition of 1 MAC halothane to the N2O/MS background anesthetic caused flow to increase significantly in all three regions studied (cortex, dorsal hippocampus, white matter) at all three levels of PaCO2 (low: 20-25 mmHg; normal: 35-40 mmHg; high: 50-55 mmHg). Addition of 1 MAC isoflurane to the background anesthetic caused CBF to decrease significantly in all regions during hypocapnia. During normocapnia, CBF was unchanged with the addition of 1 MAC isoflurane in all regions and during hypercapnia, CBF increased significantly only in the dorsal hippocampus following addition of 1 MAC isoflurane to the MS/N2O background anesthetic. Volatile anesthetic administration was associated with significant, although small, increases in ICP at all PaCO2 levels. We conclude that 1 MAC concentrations of halothane and isoflurane have opposite effects on CBF when added to a N2O/MS anesthetic during hypocapnia and that the effects of isoflurane on regional CBF are dependent on PaCO2 in rabbits under the anesthetic conditions of this experiment.
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PMID:Isoflurane, halothane, and regional cerebral blood flow at various levels of PaCO2 in rabbits. 308 28

Several authors have observed that nitrous oxide increases cerebral blood flow (CBF) and/or intracranial pressure (ICP) in experimental situations and in humans. However, the effects of hypocapnia on the cerebrovascular responses to N2O have not been investigated. Therefore, six New Zealand White rabbits were anesthetized with approximately equal to 1.0 MAC halothane (mean end-tidal concentration 1.26%) and surgically prepared for recording of ICP, the EEG, and both cortical and global CBF (by the H2-clearance method). After preparation was complete, measurements were obtained during ventilation with 70% nitrogen (in O2), and after the inspired gas mixture was changed to 70% N2O (still with 1.0 MAC halothane). Two such data pairs (N2-N2O) were obtained, one during hypocarbia (PaCO2 approximately equal to 20 mm Hg) and the other during normocarbic (PaCO2 approximately equal to 40 mm Hg) conditions. Mean arterial pressure (MABP) was held constant within each data pair by infusing angiotensin II as needed. Nitrous oxide resulted in a consistent increase in EEG frequency and decrease in amplitude as compared with N2, and produced small (approximately equal to 1 mm Hg) but statistically significant increases in ICP during both hypo- and normocarbic conditions. Nitrous oxide administration also increased CBF as measured both in frontal cortex and globally, with similar changes seen during hypo- and normocarbic conditions, e.g., cortical CBF increased from 42 +/- 8 to 59 +/- 15 ml.100 gm-1.min-1 during hypocarbia, and from 61 +/- 13 to 75 +/- 15 ml.100 gm-1.min-1 during normocarbia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effects of PaCO2 on the cerebrovascular response to nitrous oxide in the halothane-anesthetized rabbit. 311 86

The intracranial pressure (ICP) responses to administration of either halothane or isoflurane were compared in New Zealand white rabbits following a standardized cryogenic brain injury. Animals were tracheally intubated and paralyzed, and background anesthesia was maintained with morphine sulfate and nitrous oxide. Following injury and attainment of an elevated and stable ICP, animals were divided into four groups. Animals in groups I and III were maintained normocapnic throughout the experiment and administered 1 MAC halothane or isoflurane, respectively. Group II and IV animals were made hypocapnic (PaCO2 = 20 mmHg) prior to the administration of either 1 MAC halothane or isoflurane, respectively. Monitored variables were mean arterial blood pressure, ICP (ventriculostomy), end-tidal (ET) CO2, ET volatile anesthetic, the electroencephalogram, temperature, and arterial blood gases. Prior to producing the lesion, ICP was approximately 5 mmHg in all animals with no differences among groups. Sixty to ninety minutes after injury, ICP increased significantly to approximately 20 mmHg in all animals. Introduction of either halothane or isoflurane was associated with significant increases in ICP in all groups to approximately 30 mmHg. These data suggest that further significant increases in ICP may occur following introduction of either halothane or isoflurane in the presence of acute brain injury and elevated ICP. Furthermore, these ICP increases may not be altered by the prior establishment of hypocapnia.
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PMID:The intracranial pressure effects of isoflurane and halothane administered following cryogenic brain injury in rabbits. 311 88

The effects of isoflurane (1 MAC) and enflurane (1 MAC) on cerebral blood flow and cerebral oxygen consumption were studied in 20 male patients without intracranial disease undergoing coronary artery bypass surgery (mean age 57 and 59 years respectively). The aim of the study was to investigate whether both agents diminish autoregulation of cerebral blood flow and CO2 reactivity of cerebral blood vessels. Patients were randomly assigned to one of two groups (10 patients each) receiving either isoflurane 1.15 vol.% or enflurane 1.68 vol.% endexpiratory. Measurements were performed and blood samples were taken in the awake state (I); 15 min after achievement of steady-state conditions with 1.68 vol.% enflurane or 1.5 vol.% isoflurane without blood pressure support (II); during norepinephrine-induced hypertension at a cerebral perfusion pressure of 110 mmHg (III); and during controlled hyperventilation at a PaCO2 of 27 mmHg and normotension (IV). Cerebral blood flow was measured by the argon wash-in technique. Isoflurane and enflurane produced a significant drop in cardiac index and cerebral perfusion pressure and reduced cerebral blood flow significantly by 35% and 39% respectively. Cerebral oxygen consumption was also significantly decreased by 49% (isoflurane) and 50% (enflurane). Induced hypertension with norepinephrine increased cerebral blood flow significantly by 32% (isoflurane) and 26% (enflurane), while hypocapnia reduced cerebral blood flow significantly by 26% (isoflurane) and 29% (enflurane).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The effects of isoflurane and enflurane on cerebral hemodynamics and cerebral oxygen consumption in humans]. 326 82

The effects of halothane and isoflurane on hypocapnic increases in pulmonary collateral resistance were studied in dogs. A bronchoscope with a double lumen catheter in the suction port obstructed a peripheral airway and allowed gas to flow out of the isolated segment of lung only via collateral channels. The collateral gas flow (Vcoll) was measured with a flowmeter and delivered through one lumen of the catheter, while the other lumen measured distal pressure (Pb). At FRC, the resistance to collateral ventilation (Rcoll) was calculated as Rcoll = Pb/Vcoll. The rest of the lung was ventilated with air, while air (hypocapnia), 10% CO2 in air, or air and halothane or isoflurane were delivered to the isolated segment. A measurement of resistance was made after 4 min of test gas flow. For each segment, when air replaced 10% CO2, the average increase in Rcoll was calculated and called Rmax. When 10% CO2 in air was infused into segments the mean Rcoll (n = 50) was 0.0196 +/- 0.0022 cmH2O X ml-1 X min. This increased to 0.0285 +/- 0.0031 cmH2O X ml-1 X min (mean +/- E) when air was infused, a mean increase in resistance of 52 +/- 3%. When halothane or isoflurane was added to air the hypocapnic increase in Rcoll was attenuated with a 50% decrease at 1.3% (1.4 MAC and 0.8 MAC, respectively). These two inhalational anesthetics reduce active changes in the flow resistance to collateral ventilation. When collateral resistance acts to adjust ventilation perfusion deviations, this action of halothane and isoflurane may make this regulation less effective.
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PMID:The influence of halothane and isoflurane on pulmonary collateral ventilation. 391 81


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