UMLS:C0020440 - FACTA Search

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

Intracellular pH and ammonium ion concentration are potent modulators of cerebral amino acid metabolism. Furthermore, intracellular acidosis and hyperammonemia accompany conditions such as ischemic encephalopathy and seizures and may contribute to the pathological sequelae observed. In vivo NMR spectroscopy permits multiple, non-destructive measurements of important cerebral metabolic intermediates in the same animal. We describe here the use of 1H, and 31P NMR spectroscopy to investigate the effects of acute changes in intracellular pH and ammonium ions on cerebral glutamate, glutamine, and lactate levels in vivo. We then show how 1H NMR can be used to indirectly follow the flow of 13C label from [1-13C] glucose into the cerebral glutamate pool, allowing us to measure cerebral TCA activity in normal and chronically hyperammonemic rats. Male Sprague-Dawley rats (160-210 gm), fasted 24-hours, were tracheotomized, paralyzed and ventilated on 30% O2/70% N2O. NMR spectroscopy was performed at a field strength of 8.4 Tesla using a Bruker AM-360 wide bore spectrometer. An elliptical surface-coil (8 x 12 mm) was double-tuned to either the 1H and 31P or 1H and 13C frequencies. After retraction of extracranial tissues, the coil was positioned over the skull 2 mm posterior to the bregma. Tail arteries and veins were cannulated allowing periodic measurements of PO2, pCO2, pH and glucose in arterial blood and intravenous infusions. Respiratory acidosis was induced in rats by the addition of CO2 to the ventilation gas mixture. Arterial pCO2 increased within 5 min from a pre-hypercarbic value of 36.4 +/- 6.1 mm Hg to 200-220 mm Hg and was maintained at this level for over 1 hour. Hypercarbia led to rapid cerebral acidification. Intracellular pH decreased from 7.18 +/- 0.08 (pre-hypercarbic period) to 6.68 +/- 0.06 (n = 4) at 10 min and remained stable throughout the NMR observation period. Glutamate decreased to 53 +/- 4% of control after 60 min of hypercarbia, while glutamine increased to 126 +/- 7% of control. Acute hyperammonemia was produced by a programmed intravenous infusion of 250 mM ammonium acetate, which rapidly raised and maintained the concentration of ammonium ions in the blood at approximately 500 microM. Shortly after the start of the infusion (10-20 min), the levels of glutamine and lactate rose continuously throughout the experiment, reaching levels of 170 +/- 25% and 260 +/- 60% of control, respectively (n = 12) after 50 min. Glutamate decreased during the same time interval to 80 +/- 4% of control (n = 12).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cerebral metabolic studies in vivo by combined 1H/31P and 1H/13C NMR spectroscopic methods. 842 59

A 17-month-old boy developed grand mal seizures secondary to lidocaine toxicity during balloon dilatation of a congenital pulmonary valve stenosis. Lidocaine at 38 mg/kg (nine times the recommended maximum dose of 4.5 mg/kg) was administered during a 90-min period in order to optimize local anesthesia. This resulted in toxic serum lidocaine levels (8.7 mg/L; therapeutic range, 1.5-5 mg/L) at the time of seizures. Caution should be exercised with local anesthetics during invasive cardiac catheterizations. Hypercarbia (which lowers the seizure threshold to local anesthetics) should be avoided and the temptation to exceed the maximum recommended dose resisted.
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PMID:Seizures due to lidocaine toxicity in a child during cardiac catheterization. 846 28

The purpose of the first study was to identify the relationship between reflex sympathetic nerve activity and plasma concentration of lidocaine. Lidocaine was infused in 4 different doses: 2 mg.kg-1 bolus + 100 micrograms.kg-1 x min-1, 3 mg.kg-1 bolus + 200 micrograms.kg-1 x min-1, 6 mg.kg-1 bolus + 400 micrograms.kg-1 x min-1 and 12 mg.kg-1 bolus + 800 micrograms.kg-1 x min-1. Baroreflex depressor and pressor tests using sodium nitroprusside (5-10 micrograms.kg-1) and phenylephrine (2-4 micrograms.kg-1) were performed before and at 10 min after the start of lidocaine infusion. Plasma lidocaine concentrations determined by HPLC revealed that its steady-state levels were maintained during the baroreflex tests. Baroreflex sensitivity was preserved at clinical concentrations of lidocaine (< 5 micrograms.ml-1). However, baroreflex was significantly attenuated when plasma lidocaine concentrations were above seizure levels (> 10 micrograms.ml-1). This result indicates that hemodynamic derangement observed in the lidocaine-induced CNS toxicity is, at least in part, due to the attenuated arterial baroreflex. In the second study, the author evaluated the effect of respiratory acidosis and alkalosis on the baroreflex with or without lidocaine infusion (2 mg.kg-1 + 100 micrograms.kg-1 x min-1). Respiratory acidosis (PaCO2: 65.6 +/- 3.4) enhanced the baroreflex significantly, but lidocaine infusion abolished this acidosis-induced enhancement. The author concludes that hypercarbia should be avoided in patients receiving intravenous lidocaine infusion.
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PMID:[Effect of intravenous lidocaine infusion on arterial baroreflex]. 851 40

1. The possible contribution of endogenous endothelin (ET) to the pathogenesis of seizure-associated pulmonary oedema was examined in mechanically ventilated rats after intravenous bolus injection of the gamma-aminobutyric acid (GABA) antagonist, bicuculline (1.2 mg kg-1). 2. Recurrent seizure activity elicited by bicuculline injection led to rapidly developing pulmonary oedema. Within 4 min after bicuculline application (1.2 mg kg-1), arterial O2 partial pressure (PaO2) significantly dropped from 17.49 +/- 1.20 kPa to 7.51 +/- 2.21 kPa (P < 0.01) and arterial CO2 partial pressure (PaCO2) significantly increased from 4.64 +/- 0.56 kPa to 8.15 +/- 0.99 kPa (P < 0.01). Gradually a progressive acidosis developed. Moreover, mean arterial blood pressure (MABP) and end-inspiratory airway pressure (Paw) rapidly increased. 3. Concomitantly there was a time-dependent increase of big ET-1 and ET-1 levels in bronchoalveolar lavage (BAL) as determined by combined reverse phase high performance liquid chromatography (h.p.l.c.) and radioimmunoassay. BAL levels of both peptides increased up to 8 min after bicuculline injection and slowly decreased subsequently. In contrast, BAL from animals injected with vehicle did not contain detectable amounts of ET. 4. Pretreatment with the endothelin-converting enzyme inhibitor, phosphoramidon (5.4 mg kg-1, i.v.) for 5 min significantly (P < 0.001) reduced peak ET-1 levels in BAL fluid by 65.4 +/- 9.9% at 8 min after bicuculline injection. Simultaneously it afforded protection from hypoxia. PaCO2 did not increase and PaO2 decreased only slightly from 14.63 +/- 1.00 kPa to 12.97 +/- 0.61 kPa (P > 0.05) after phosphoramidon pretreatment. In contrast, vehicle-treated animals that received bicuculline showed both significant hypercapnia as well as profound hypoxia. Phosphoramidon significantly diminished the maximum increase in Paw by 76.7 +/- 12.4% (P <0.005), but only slightly affected the MABP. Phosphoramidon pretreatment had no effect on the acidosis.5. Pretreatment with the ETA receptor antagonist, BQ-123 (1 mg kg-1, i.v.), for 5 min did not affect the levels of ET-1 in the BAL fluid at 8 min after bicuculline injection but did ameliorate the development of hypoxia. No hypercapnia developed and Pa02 decreased only moderately from 16.65 +/-0.25 kPa to 14.19 +/-2.15 kPa (P>0.05) in BQ-123-treated animals. In contrast, vehicle-treated animals that received bicuculline exhibited significant hypercapnia as well as profound hypoxia. BQ-123 significantly reduced the increase in Paw by 51.3 +/- 12.8% (P < 0.01). It affected MABP only slightly and had no effect on the acidosis.6. These results suggest that ET peptides play a significant role in this model of neurogenic pulmonary oedema and may act as mediators of respiratory distress. The deleterious effects of endogenous ET in this model are primarily mediated via the ETA receptor, for they were inhibited by the ETA receptor antagonist, BQ-123. ETA receptor antagonists may therefore be of potential therapeutic value in respiratory distress.
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PMID:A role for endothelin in bicuculline-induced neurogenic pulmonary oedema in rats. 854 73

1. Mechanisms that regulate the cerebral circulation have been intensively investigated in recent years. The role of several vasodilator mechanisms has been examined in the cerebral circulation, including nitric oxide (NO), trigeminal peptides and potassium channels, as well as the potent vasoconstrictor endothelin. These mediators appear to play a role in physiological and pathophysiological responses of the cerebral circulation. In the present review, we will focus on some recent developments in each of these areas. 2. Nitric oxide is an important regulator of cerebral vascular tone. Tonic production of NO maintains the cerebral vasculature in a dilated state. NO appears to be an important vasodilator during activation of neurons by excitatory amino acids, somatosensory stimulation and cortical spreading depression. Tonic production of NO appears to be critical in vasodilatation during hypercapnia, although NO may not directly mediate vasodilatation. NO produced by immunological NO-synthase appears to be important in dilatation following exposure to bacterial endotoxin. 3. Calcitonin gene-related peptide (CGRP), released from trigeminal perivascular sensory nerves in the brain, is an extremely potent dilator of brain vessels. CGRP may limit noradrenaline-induced constriction of cerebral vessels and contribute to dilatation during hypotension (autoregulation), reactive hyperaemia, seizures and cortical spreading depression. 4. Activation of potassium channels leads to hyperpolarization of cerebral vascular smooth muscle and appears to be a major mechanism for dilatation of cerebral arteries. Agents that increase the intracellular concentration of cyclic 3' 5'-adenosine monophosphate (cAMP) produce vasodilatation in part by activation of large conductance calcium-activated potassium channels (BKCa) and ATP-sensitive potassium channels (KATP). Activation of both KATP and BKCa channels also appears to contribute to vasodilatation during hypoxia. In contrast to KATP channels, BKCa channels appears to be active under basal conditions, contributing to tonic dilatation of cerebral blood vessels. 5. Endothelin is produced in the brain, but its role in the physiological regulation of cerebral blood flow is not known. Endothelin may contribute to the spasm of cerebral arteries following subarachnoid haemorrhage.
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PMID:Recent insights into the regulation of cerebral circulation. 880 May 65

Seizure susceptibility during recovery from hypercapnia was investigated in seven anesthetized neonatal dogs; 13, 20, or 30% CO2 gas was administered for 30 min through a ventilator to result in three levels of hypercapnia in which measured PaCO2 values were approximately 70, 100, and 140 mm Hg. Thereafter, the animals were allowed to recover for 45 min; during this recovery phase, electrocorticography was performed. In five of seven dogs, approximately 1.5 Hz slow irregular spike and wave bursts appeared at 6 min after abrupt withdrawal from hypercapnia and lasted several minutes. This seizure activity was followed by a brief period of electrical suppression. This phenomenon was most often observed during the recovery from moderate hypercapnia and between the PaCO2 values of 100 and 50 mm Hg. When seizure activities appeared in the electrocorticogram, arterial blood pressure increased -40 mm Hg from the preseizure level. These results suggest that neonatal seizures may occur during recovery from hypercapnia.
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PMID:Seizure susceptibility during recovery from hypercapnia in neonatal dogs. 885 99

Although previous results have shown unequivocally that pre-ischaemic hyperglycaemia aggravates brain damage due to transient ischaemia, several questions have remained unanswered. First, is the effect of hyperglycaemia due to a further fall in intra- and extracellular pH? Second, is aggravation of damage a step function of a continuous function of plasma glucose concentration or of pH? Third, which are the mechanisms responsible for aggravation of damage, notably for the transformation of selective neuronal damage to infarction, for oedema development, and for post-ischaemic seizures? Recent results have provided new information on all of these issues. Thus, normoglycaemic animals with superimposed hypercapnia showed a similar, albeit not identical, aggravation of ischaemic damage, suggesting that acidosis is one major mediator. Furthermore, experiments with graded increase in plasma glucose concentration revealed a threshold effect at values of 10-12 mM, while microelectrode measurements showed a narrow extracellular pH range (6.4-6.5) for post-ischaemic seizure development. These results suggest that aggravation of damage due to excessive acidosis is due to mechanisms with a steep pH dependence. Finally, results are now at hand suggesting that the effect of acidosis is not mediated by a further perturbation of cell calcium metabolism. The more likely mediators are free radicals. Thus, acidosis is known to enhance iron-catalysed production of reactive oxygen species, probably by releasing iron from its bindings to transferrin, ferritin and other proteins.
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PMID:Role of hyperglycaemia-related acidosis in ischaemic brain damage. 942 66

Altered postictal cerebral blood flow dilatory responses may contribute to brain injury following neonatal seizures. We developed an initial series of experiments to characterize the effects of seizure activity on cerebral vascular dilatory responses during the immediate postictal period. Significant attenuation of postictal hypoxic cerebral vasodilation was noted. We hypothesize that this diminished cerebral dilator response to hypoxia involves depletion of adenosine (Ado) activity resulting from seizure ictus. Additional experiments were designed to evaluate whether the altered postictal responses were related to a depletion of Ado stores or a decreased response to Ado in the postictal state. Farm-bred piglets were equipped with closed cranial windows. Responses to hypercapnia (10% CO2), hypoxia (fractional inspired O2 = 0.10), and topical sodium nitroprusside (10(-6) M) were compared before and after bicuculline-induced seizures (1 mg/kg). Hypoxia-induced cerebral vasodilation was significantly attenuated in the first 90 min postictal (control: 56.5 +/- 6%, 10 min postictal: 6.3 +/- 2%, 60 min postictal: 21.7 +/- 6%, and 90 min postictal: 21.6 +/- 5%; P < 0.01), whereas the dilator responses to hypercapnia and topical sodium nitroprusside remained intact. In a separate group of piglets, both a dilating (10(-5) M) and a nondilating concentration of Ado (10(-11) M) were topically administered postictally to measure their effects on pial vessel dilatory response to hypoxia. Dilation to topical Ado (10(-5) M) was not altered postictally compared with control. Ado (10(-11) M) restored hypoxia-induced vasodilation to preseizure control values in the immediate postictal period (control: 51.0 +/- 8%, postictal: 46.7 +/- 8%, P > 0.05). Postictal administration of Ado will restore hypoxia-induced cerebral vasodilation in piglets even when a nondilating concentration is employed. This suggests that depletion of Ado with seizure activity is a mechanism for the loss of postictal cerebral vasodilation to hypoxia, and the role of Ado in hypoxic cerebral vasodilation is permissive.
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PMID:Adenosine depletion alters postictal hypoxic cerebral vasodilation in the newborn pig. 961 55

Carbon monoxide (CO) is an endogenously produced gas sharing many properties with nitric oxide (NO), notably activating soluble guanylate cyclase and relaxing blood vessels. The brain can generate high quantities of CO from a constitutive enzyme, haem oxygenase (HO-2). To determine whether CO is involved in the regulatory mechanisms of cerebral blood flow (CBF), two conditions associated with a reproducible CBF increase were studied in rats: epileptic seizures induced by kainate, and hypercapnia. The HO inhibitor tin protoporphyrin (Sn-PP) did not modify the basal level of CBF, significantly reduced the increase in CBF during status epilepticus, and did not affect the cerebrovascular response to hypercapnia. It is concluded that CO participates in the regulation of CBF in specific conditions, notably those associated with glutamate release.
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PMID:Carbon monoxide regulates cerebral blood flow in epileptic seizures but not in hypercapnia. 969 25

Seizures and convulsive status in patients with subarachnoid haemorrhage are an emergency. They are not only known to increase cerebral metabolic rate but also cerebral blood flow and intracranial pressure and rebleeding can occur in patients with an unclipped aneurysm. The goal of therapy is to stop the seizures minimizing the risk of secondary brain damage (hypoxia, hypotension, hypercarbia, hyperthermia). Several active drugs are available for treating seizures, it is important to identify the cause, prompt administration, monitoring the patients and choosing the one with less side effects.
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PMID:[Seizures associated with acute subarachnoid hemorrhage. Emergency diagnosis and treatment]. 977 39

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