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)

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.
...
PMID:Isoflurane, halothane, and regional cerebral blood flow at various levels of PaCO2 in rabbits. 308 28

Blood pH, PCO2 and PO2 of Dipsosaurus dorsalis were measured during the day and at night. Lizards at constant body temperature (25, 37 degrees C) and lizards experiencing diurnal changes in body temperature similar to those in nature were studied. In lizards at constant body temperatures, blood pH was about 0.1 unit less and blood PCO2 was 4-7 Torr higher at night compared to day. Similar patterns were seen in lizards on natural thermal cycles. Intracellular pH (pHi) of skeletal muscle, esophagus and liver was about 0.2 units lower at night than day but myocardial pHi was unchanged. Reduction in breathing frequency, and thus a relative hypercapnia from hypoventilation was consistent with the nocturnal acidification of the blood and intracellular compartments. Nocturnal acidification (CO2 retention) corresponds to periods of minimum metabolism. The possible impacts of diurnal shifts in hydrogen ion concentration on energy metabolism and metabolic regulation are discussed.
...
PMID:Day-night variations in blood and intracellular pH in a lizard, Dipsosaurus dorsalis. 309 9

The purpose of the present study was to evaluate the environmental changes in synovial fluid and subchondral bone during synovitis in rabbits in which the knee joint on one side was subjected to a procedure causing instability; a traumatic synovitis rapidly developed. Three weeks following the procedure, partial pressure of oxygen (PO2), partial pressure of carbon dioxide (PCO2) and hydrogen ion concentration (pH) were measured in vivo in the juxta-articular bone and in the synovial fluid of both the normal and the affected sides. Mass spectrometry was used for simultaneous registration of PO2 and PCO2, while a monocrystalline antimony pH electrode was used for simultaneous measurement of pH in vivo. Hypoxia, hypercapnia and relative acidity were found in synovial fluid and subchondral bone of knees with synovitis. The metabolic environment of synovial fluid and subchondral bone was considerably changed at the 3-week stage of experimental osteoarthritis and this was probably secondary to regional venous congestion.
...
PMID:Synovitis causes hypoxia and acidity in synovial fluid and subchondral bone. 310 76

The physiological role of carbonic anhydrase III in slow-twitch skeletal muscle was investigated using isolated mouse soleus (N = 30) contracting once every 1.7 min for 75 min in Krebs-Henseleit solution gassed with either 95% oxygen - 5% carbon dioxide (normocapnia) or 90% oxygen - 10% carbon dioxide (hypercapnia). Each contraction was 500 ms in duration at 50 Hz. When muscles contracted in normocapnic solution (pH 7.42), the developed tension decreased an average of 6.1 +/- 0.8% over 25 min. For the next 50 min, 15 muscles remained normocapnic, while the remainder contracted in hypercapnic solution (pH 7.20). Tension decreased significantly more with hypercapnia. For the last 25 min, both normocapnic and hypercapnic muscles were divided into three treatment groups (N = 5). One group continued in the same environment, while acetazolamide (final concentration of 10(-5) M) was added to the bath of the second and sodium cyanate (final concentration of 10(-5) M) was added to the bath of the third group. Acetazolamide had no effect on tension in either carbon dioxide environment. Sodium cyanate significantly decreased tension from the hypercapnic control but had no effect in normocapnia. Thus carbonic anhydrase III inhibition with sodium cyanate increased the effect of hypercapnia implying that carbonic anhydrase III assists in the regulation of free hydrogen ion concentration in slow-twitch skeletal muscle.
...
PMID:Carbonic anhydrase III inhibition in normocapnic and hypercapnic contracting mouse soleus. 310 51

1. The dynamics of changes of medullary extracellular fluid (ECF) hydrogen ion concentration ([H+]) and respiration, measured as integrated phrenic nerve activity, were determined in anaesthetized, paralysed, vagotomized and glomectomized cats. ECF [H+] was measured directly by means of a small (2 mm diameter) glass pH electrode placed on the ventral surface of the medulla. The variables were measured continuously after a step change of arterial PCO2 produced by abruptly starting or stopping an infusion of hypercapnic fluid into the aortic arch. 2. Alteration of pH in the descending thoracic aorta at the onset or offset of infusion was complete within 1.5 s after the change began, indicating that it was nearly square wave in form. 3. In sixteen experiments, ECF [H+] began to fall within 2 s of offset of infusion, reflecting aortic-medullary circulation time. Thereafter, ECF [H+] decreased to a stable level over the next 5 min; the curve describing the decrease consisted of two exponential functions, one with a time constant (tau) of 9.5 +/- 0.6 s and a second with a tau of 53 +/- 3 s. 4. We interpret the findings at the offset of CO2 infusion in terms of CO2 wash-out from the medullary ECF. The slow function is associated with wash-out during stable medullary blood flow that develops after 1 min. The early fast function is associated with the decreasing medullary blood flow that occurs during the first minute after change from arterial hypercapnia to normocapnia. 5. We have estimated medullary blood flow using a mathematical model incorporating the two functions. The values obtained are consistent with those in the literature where other methods have been used. Changes of blood flow following the step change of CO2 are fairly rapid, half of the response occurring in 13 s. 6. The change of respiratory activity lags the change of stimulus expressed by [H+], throughout the recovery period and respiration requires up to 8 min to reach a stable level. We attribute this slow response to slow central neural respiratory dynamics, the respiratory after-discharge.
...
PMID:Dynamics of medullary hydrogen ion and respiratory responses to square-wave change of arterial carbon dioxide in cats. 311 11

The presence and distribution of a cerebrovascular cholinergic system were studied in goats. Regional cerebral blood flow was measured in the parietal cerebral cortex, caudate nucleus, and white matter by the hydrogen clearance technique in unanesthetized goats. Intravenous low doses of physostigmine, but not of neostigmine, significantly increased regional blood flow without changing mean arterial blood pressure or behavior. Increases of blood flow were greater in cerebral cortex and caudate nucleus than in white matter although the vasodilation induced by hypercapnia was similar in the three regions. Intracerebral microvessels were isolated from cerebral cortex, caudate nucleus, and white matter to evaluate choline acetyltransferase activity as a marker for perivascular cholinergic nerves. The enzyme level was higher in vessels from cerebral cortex and caudate nucleus than in vessels from white matter, which is in accordance with the functional data. These results suggest the presence of a cholinergic perivascular innervation system in intracerebral microvessels. Such innervation has a nonhomogeneous distribution throughout the brain and might be implicated in the local regulation of cerebral blood flow.
...
PMID:Regional differences in cerebrovascular cholinergic innervation in goats. 337 65

Determinations of pH, buffer systems, electrolyte levels and erythrocyte indices were carried out in the blood taken from the external cervical vein, arterial and venous vessels of the cow uterus and the umbilical cord of 9 healthy cows and their progeny, in the pre- and postnatal period. In this period the levels of the determined biochemical indices did not undergo any significant variations in the cows. The animals showed a normal acid-basic equilibrium. In contrast to the peripheral blood that of the uterus veins and arteries possessed higher levels of hydrogen carbonates, a higher partial CO2 pressure, but lower levels of electrolytes, hemoglobin and different oxygen exchange indices. The blood of calves in fetal life and at least till the 8th day after delivery showed the features of respiratory acidemia with relative hypercapnia. On feeding with colostrum, blood pH and buffer systems were normalized about the 10th day life of the new-born calf. A decrease in the number of erythrocytes, hemoglobin content and hematocrit value was observed in cows and calves after delivery. A simultaneous increase in the red blood cell volume and the level of bilirubin intensified hemolysis and aqueous shifts.
...
PMID:[Buffer systems, electrolytes, pH and erythrocyte indices in the blood of cows and calves in the perinatal period]. 345 95

To examine the effects of subarachnoid tetracaine and epinephrine on spinal cord blood flow (SCBF), lumbar SCBF and cerebral blood flow (CBF) were measured simultaneously by the hydrogen clearance technique in dogs (n = 45) anesthetized with halothane. The lumbar subarachnoid administration of tetracaine, 5 mg dissolved in 1 ml of a 7.5% dextrose solution had no significant effect on either SCBF or CBF for 4 hr even though arterial blood pressure and heart rate decreased significantly. After subarachnoid epinephrine alone (100, 300, and 500 micrograms), SCBF varied widely but did not change significantly with any of the injections, nor did CBF. Responses of SCBF to hypercapnia and to acute blood loss during spinal anesthesia with tetracaine were also examined. Increased PaCO2 (from 35 to 57 mm Hg) increased both SCBF and CBF similarly before and after subarachnoid tetracaine; SCBF increased from 26.8 +/- 9.0 ml X 100 g-1 X min-1 (mean +/- SD) before to 34.2 +/- 13.6 ml X 100 g-1 X min-1 during hypercapnia during spinal anesthesia, which was almost identical to the increase (from 31.5 +/- 8.1 ml X 100 g-1 X min-1 to 39.9 +/- 6.0 ml X 100 g-1 X min-1) before spinal anesthesia. Whereas acute blood loss (approximately 20% of estimated blood volume) during spinal anesthesia with tetracaine caused a 23% reduction of SCBF (P less than 0.05), in the absence of tetracaine SCBF remained unchanged during hemorrhagic hypovolemia.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Spinal cord blood flow during spinal anesthesia in dogs: the effects of tetracaine, epinephrine, acute blood loss, and hypercapnia. 360 69

Enhanced renal acidification during chronic hypercapnia (CH) results in transient augmentation in net acid excretion (NAE) (adaptation phase) and persistent acceleration in renal bicarbonate reclamation (adaptation and steady-state phases). The mechanisms responsible for the return of NAE to control values despite persistent acidemia during the steady state phase of CH remain undefined. In addition, it remains unsettled whether the enhancement of renal ammoniagenesis known to occur during the adaptation phase of CH persists during the steady-state phase. Furthermore it is uncertain if the alteration in whole-kidney acidification observed in CH originates from augmentation in the acidification of both proximal and distal nephronal segments. To shed further light on these issues, observations on the profile of the urine acid-base moieties during the adaptive and steady-state phases of CH were carried out in dogs chronically exposed to hypercapnia (10% FiCO2) in an environmental chamber (13 days). Additionally, collecting duct hydrogen ion secretion (CDH+S) was evaluated by employing the U-B PCO2 in alkaline urine in intact unanesthetized dogs with either CH (10% FiCO2) or eucapnia. The balance studies demonstrated that NAE increased in early hypercapnia (4.84 meq/kg body weight, control 3.27 meq/kg body weight, p less than 0.05) and returned to baseline thereafter; by contrast, urine NH+4 which was augmented during the adaptation phase (3.71 meq/kg body weight, control 1.97 meq/kg body weight, p less than 0.05) remained elevated throughout (3.25 meq/kg body weight).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Renal acidification during chronic hypercapnia in the conscious dog. 371 50

Prolonged normoxic hypercapnia initially caused an increase in canine cerebral blood flow, as measured by the radioactive microsphere technique, accompanied by a decrease in cerebrovascular resistance. These effects persisted for 3 hours. An adaptive decrease in cerebral blood flow and increase in cerebrovascular resistance were seen when hypercapnia was maintained for an additional 3 hours. Regional variations occurred; those areas with the greatest initial hypercapnic blood flow (cortex, caudate nucleus) showed a greater rate of decay of flow over time. Cerebrospinal fluid pH, initially acidotic during hypercapnia, increased over the subsequent 5 hours from 6.99 +/- 0.02 to 7.13 +/- 0.02. This was accompanied by an increase in the cerebrospinal fluid bicarbonate ion concentration from a normocapnic baseline of 19.6 +/- 0.6 to 26.2 +/- 4 mEq/l. Total and regional cerebral blood flow were linearly related to cerebrospinal fluid pH (R2 = 0.97). Extrapolation of a full adaptive return of flow to baseline indicated a shift in the cerebrovascular sensitivity to extracellular hydrogen ion concentration during prolonged hypercapnia.
...
PMID:Time-dependent effects of prolonged hypercapnia on cerebrovascular parameters in dogs: acid-base chemistry. 381 Jul 47

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>