UMLS:C0020440 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

Endurance muscle performance is highly dependent on ATP production from mitochondrial oxidative phosphorylation. To study the role of the mitochondrial oxidative enzymes in muscle fatigue, we analyzed the relationship between the concentrations of substrates associated with ATP synthesis and the muscle performance of electrically stimulated rabbit muscle under CO2-induced acidosis. Two different conditions of pacing-induced muscle performance were produced in the gastrocnemius and soleus muscle groups in anesthetized rabbits by stimulating the sciatic nerve submaximally at two frequencies. Phosphorus nuclear magnetic resonance was used to measure ATP, phosphocreatine, and Pi and to provide data for a calculation of intracellular pH and free ADP. To induce acidosis, the animal was ventilated with 20% CO2. The administration of CO2 effectively reduced the intracellular pH from 6.9 to 6.7 and reduced the isometric tension-time integral (TTI) to below half the value measured in normocapnia at the low pacing frequency. A twofold increase in the pacing frequency resulted in a doubling of the TTI in normocapnia and a tripling of TTI in hypercapnia. The increases in TTI corresponded with increases in free ADP and Pi concentrations. Under the various conditions, all free ADP values were near the in vitro Michaelis-Menten constant (Km) of ADP. The Michaelis-Menten relationship of the oxidative phosphorylative enzymes was applied to the change in substrate concentrations with respect to TTI. From this relationship we observed that the in vivo Km of free ADP was 26 microM, which is close to the in nitro Km, and that Km and maximal reaction velocity did not change under hypercapnia and increased pacing frequency.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Substrate regulation of mitochondrial oxidative phosphorylation in hypercapnic rabbit muscle. 155 27

NMR in vivo spectroscopy is one of the few methods available for non-invasive investigations of cerebral metabolism in animals and humans. 31P and 1H spectroscopy are particularly suitable for monitoring the cerebral energy metabolism by determining the cerebral levels of ATP, ADP, phosphocreatine (PCr), inorganic phosphate (Pi), lactate and intracellular pH (pHi). These techniques also seem to be suitable for studying the effects of anesthetics by directly comparing the anesthetized and unanesthetized states in the same subject. The effects of halothane and isoflurane on the changes elicited in the cerebral energy metabolism by experimental hypercapnia were investigated by in vivo NMR spectroscopy. Halothane was found to aggravate the decrease in PCr attributed to the shift in creatine kinase equilibrium induced by the cerebral acidosis associated to hypercapnia, while the level of cerebral ADP was decreased to a lesser extent than in unanesthetized animals. In contrast isoflurane did not modify the changes in cerebral energy metabolism elicited by hypercapnia except that the decrease in PCr was significantly slowed, suggesting a lower creatine kinase activity. These data indicate that isoflurane and halothane act by two different mechanisms to produce a decrease in oxygen consumption. Halothane could interfere with oxidative metabolism by disturbing ATP metabolism, while isoflurane could decrease oxygen consumption by a general sedative action, slowing both cerebral functional activity and cerebral energy homeostasis.
...
PMID:[Value of in vivo NMR spectroscopy in the study of cerebral metabolism under inhalation anesthesia]. 184 37

We examined the effects of ADP- and collagen-induced pulmonary platelet embolism in the rat. Homologous 51Chromium-labelled platelets were used to monitor extracorporally the distribution of platelets in the circulation. For that purpose, collimated iodide scintillation detectors were placed above thorax (C1) and abdomen (C2). A dose-dependent increase in thoracic radioactivity, paralleled by a decrease in the abdomen, was observed after intravenous injection of ADP and collagen. This resulted in a shift of C1/C2, so that the effect of collagen was more pronounced (maximal increase of C1/C2 = 134%) than ADP (maximal increase of C1/C2 = 79%). The increase in thoracic radioactivity was caused by the uptake of platelets in the lung as was shown after administration of collagen (6-fold enrichment of labelled platelets). Lung platelet sequestration resulted in a dose-dependent thrombocytopenia. The ADP -and collagen-induced pulmonary platelet embolism reversibly provoked cardiovascular symptoms of shock: hypotension and bradycardia. Impaired gas exchange during platelet accumulation manifested itself in a reversible arterial hypoxaemia and hypercapnia, followed by a weak acidosis. We were able to inhibit ADP-dependent thoracic platelet accumulation by ticlopidine in a dose-related manner as well as collagen-induced thoracic platelet accumulation by acetylsalicylic acid. The results indicate that behaviour of homologous labelled rat platelets in vivo can easily be monitored, thus offering the opportunity to investigate the effects of antiaggregatory drugs on platelets in their natural environment.
...
PMID:Evaluation of pulmonary accumulation of 51chromium-labelled rat platelets following intravenous application of ADP and collagen. 187 21

The influence of changes in pCO2, pH and pO2 on the aggregation of rabbit blood platelets was studied in vitro, with emphasis on hypercapnia, acidosis and hypoxia. Hypercapnia combined with acidosis caused a reduction in rabbit platelet aggregation, as induced by collagen, thrombin and ADP; the effect being most pronounced with collagen and smallest with ADP. Hypoxia reduced thrombin induced platelet aggregation, but had no effect on ADP and collagen induced aggregation. Synergistic activation of rabbit platelets, as induced by the addition of serotonin to platelet rich plasma together with collagen or ADP, seemed to be equally sensitive to changes in pCO2 and pH as activation by the individual agents, and insensitive to changes in pO2.
...
PMID:Influence of hypercapnia and hypoxia on rabbit platelet aggregation. 211 81

We examined mitochondrial oxidative function 5 minutes and 2 hours after a gradual asphyxial insult in newborn lambs. We subjected 16 ventilated newborn lambs to 75-90 minutes of hypoxia and hypercarbia that resulted in bradycardia and systemic hypotension over the final 15 minutes of the insult. At the end of asphyxia, the lambs were resuscitated and returned to control ventilator settings. Samples of brain were removed 5 minutes (n = 8) and 2 hours (n = 8) after asphyxia. Each group of eight lambs was subdivided into those less than 3 or greater than 3 days old to evaluate the effect of age on postasphyxia mitochondrial function. After classification into nonsynaptic and synaptic mitochondria, mitochondrial respiration (oxygen consumption) was measured using five different substrates. Data from asphyxiated lambs were compared with that from a control group of ventilated nonasphyxiated lambs (n = 8). In the lambs less than 3 days old, there was significant depression of mean +/- SEM nonsynaptic mitochondrial state 3 (adenosine diphosphate-dependent) respiration to 29.5 +/- 5.2% of control with four of the five substrates and of state 4 respiration to 33.7 +/- 0.9% of control with three of the five substrates 5 minutes after asphyxia. By 2 hours after asphyxia, mean +/- SEM nonsynaptic mitochondria state 3 respiration increased to 70.4 +/- 6.4% of control while state 4 respiration increased to 58.2 +/- 4.5% of control. In contrast, lambs greater than 3 days old exhibited no inhibition of nonsynaptic mitochondrial function after asphyxia.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Mitochondrial function after asphyxia in newborn lambs. 271 9

The relationships between pHi (intracellular pH) and phosphate compounds were evaluated by nuclear magnetic resonance (NMR) in normo-, hypo-, and hypercapnia, obtained by changing fractional inspired concentration of CO2 in dogs anesthetized with 0.75% isoflurane and 66% N2O. Phosphocreatine (PCr) fell by 2.02 mM and Pi (inorganic phosphate) rose by 1.92 mM due to pHi shift from 7.10 to 6.83 during hypercapnia. The stoichiometric coefficient was 1.05 (r2 = 0.78) on log PCr/Cr against pHi, showing minimum change of ADP/ATP and equilibrium of creatine kinase in the pH range of 6.7 to 7.25. [ADP] varied from 21.6 +/- 4.1 microM in control (pHi = 7.10) to 26.8 +/- 6.3 microM in hypercapnia (pHi = 6.83) and 24.0 +/- 6.8 microM in hypocapnia (pHi = 7.17). ATP/ADP X Pi decreased from 66.4 +/- 17.1 mM-1 during normocapnia to 25.8 +/- 6.3 mM-1 in hypercapnia. The ADP values are near the in vitro Km; thus ADP is the main controller. The velocity of oxidative metabolism (V) in relation to its maximum (Vmax) as calculated by a steady-state Michaelis-Menten formulation is approximately 50% in normocapnia. In acidosis (pH 6.7) and alkalosis (pH 7.25), V/Vmax is 10% higher than the normocapnic brain. This increase of V/Vmax is required to maintain cellular homeostasis of energy metabolism in the face of either inhibition at extremes of pH or higher ATPase activity.
...
PMID:Relationship between intracellular pH and energy metabolism in dog brain as measured by 31P-NMR. 359 78

Qualitatively different responses of ADP levels have previously been observed in the brain during hypercarbia. One investigation has found that cerebral ADP stayed constant during hypercarbia in rats that were anesthetized with halothane, while another observed that ADP decreased during supercarbia in rats that received no supplemental anesthesia. This article reports an in vivo 31P nuclear magnetic resonance study to test the hypothesis that halothane anesthesia accounts for the discrepant observations. Isoflurane anesthesia was also studied in a second group of rats to see if a different general anesthetic agent would cause the same effects that halothane causes. The two groups of five rats underwent dual episodes of hypercarbia that were separated by a 45-min recovery period. General anesthesia, either 0.5% halothane or 1.0% isoflurane, was administered during the first episode but not during the second. Hypercarbia during halothane anesthesia caused the measured phosphocreatine (PCr) to decrease by 40%, while the calculated change in ADP was 10%, in agreement with the former investigation. In contrast, hypercarbia during either isoflurane anesthesia or no anesthesia caused a decrease of only 10% in PCr, which meant that the calculated decrease in ADP was 60%, in agreement with the results of the second investigation. We conclude that during hypercarbia, clinical concentrations of halothane, unlike clinical concentrations of isoflurane, interfere with the regulation of ATP metabolism.
...
PMID:Cerebral intracellular ADP concentrations during hypercarbia: an in vivo 31P nuclear magnetic resonance study in rats. 371 Nov 64

The antiaggregation ability of CO2 during ADP- and collagen-induced platelet aggregation has been discovered in cats under hypercapnia. The effect persisted after Pco2 normalization. The inhibition of cyclooxygenase by indomethacin suppressed the antiaggregation activity of CO2 in vivo but not in vitro. While estimating the regulatory role of CO2 in the metabolic control of cerebral circulation, it is also of importance to take into account the antiaggregation ability of CO2.
...
PMID:[Effect of CO2 on thrombocyte aggregation in the cat]. 642 43

Intramuscular (m. quadriceps) contents of electrolytes, free amino acids and energy-rich phosphagens were determined in 12 patients (51--81 years of age) with moderate chronic obstructive lung disease. At the time of the study the patients were in their habitual condition. After an overnight rest, 8 patients showed hypoxia and five of these also hypercapnia. Compared to apparently healthy controls of similar age and studied under identical conditions, the patients had increased intramuscular concentrations of sodium, chloride and extracellular water, whereas magnesium was slightly reduced. ATP and phosphocreatine, as well as the ATP/ADP and phosphocreatine/total creatine ratios, were reduced. The ATP/ADP ratio correlated significantly to intracellular magnesium. Plasma amino acids were essentially similar in controls and patients but the intramuscular contents of essential amino acids and of the three branched-chain amino acids were slightly enhanced in the patients.
...
PMID:Energy-rich phosphagens, electrolytes and free amino acids in leg skeletal muscle of patients with chronic obstructive lung disease. 708 Aug 63

The effects of intravenously administered lidocaine on the cerebral cortical energy state and glycolytic metabolism were studied in rats. In one series, rats were divided into five groups according to EEG patterns, i.e., control, desynchronized, synchronized, seizure (1-min duration) and recovery groups. With lidocaine infusion (0.75 mg/min), there were no significant changes from the control group in the cerebral energy state except for a modest increase in phosphocreatine (PCr) in the seizure group and a small decrease in ADP in the non-seizure groups. The cerebral energy charge remained unchanged. Lactate and pyruvate significantly decreased in the non-seizure groups. In a second series, rats were divided into five groups, i.e., control, lidocaine seizure groups (5-min duration, 1.5 mg/min) at hypocapnia, normocapnia and hypercapnia, and a bicuculline (1.2 mg/kg) seizure group. The metabolic changes during lidocaine seizure were essentially the same as those observed in the seizure group in the first series. However, the increase in PCr during lidocaine seizure was significant only in the hypocapnic and the normocapnic groups. Bicuculline-induced seizures were accompanied by a significant decrease in high energy phosphates. In summary, neither a non-seizure nor-seizure dose of lidocaine caused any reduction in the cerebral energy charge nor was there any evidence of increased anaerobic metabolism in the cerebral cortex during lidocaine-induced seizures.
...
PMID:Cerebral energy state and glycolytic metabolism during lidocaine infusion in the rat. 721 27

1 2 3 Next >>