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Query: UMLS:C0020440 (
hypercapnia
)
7,939
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To examine the adaptations to low O2 and high CO2 among fossorial and nonfossorial rodents, hematological parameters were determined for laboratory rats, the valley pocket gopher (Thomomys bottae) from 250 m, and the mountain pocket gopher (T. umbrinus melanotis) from 3150 m. Hematocrit, hemoglobin concentration, and O2 capacity were higher in pocket gophers than in rats. Blood PO2 at 50% saturation and pH 7.4 was 33 mmHg for both gophers and 39 mmHg for rats. Bohr factors for all three rodents were similar (-0.55 to -0.61) but buffer value, delta log PCO2/delta pH, was -2.54 for T. umbrinus, -1.97 for T. bottae, and -0.98 for Rattus. Concentrations of total acid-soluble phosphates were 50-75% higher in gophers than in rats, while bicarbonate values were within the normal mammalian range. All three rodents had similar myoglobin concentrations in
cardiac muscle
. Myoglobin concentrations were significantly higher in skeletal muscles (diaphragm, gastrocnemius) of T. umbrinus when compared to T. bottae, and significantly higher in both gophers when compared to rats. These differences may constitute important adaptations to the hypoxia and
hypercapnia
in burrows; certain of these factors in pocket gophers respond to the additional stress of high altitude hypoxia.
...
PMID:Respiratory adaptations in burrowing pocket gophers from sea level and high altitude. 0 20
Using a 14C-labeled DMO, 36Cl and 3H method, we have determined the in vivo buffering capacity of lung, kidney, heart, skeletal muscle, and extracellular fluid (ECF) of guinea pigs during
hypercapnia
(FICO2 = 0.15). After 1 days' exposureto 15% CO2, both the relative CO2 buffer values (delta HCO3/deltapH) and the "%pH regulation" were lung greater than kidney greater than heart greater than ECF greater than skeletal muscle. For lung tissue the intracellular pH was significantly decreased only during acute (8 h)
hypercapnia
and had completely returned to control values after 7 days with arterial PCO2 congruent to 122 Torr. Kidney and
cardiac muscle
also showed ca. 100% regulation of pH at 7 days, whereas skeletal muscle and ECF showed only 80 and 70% pH regulation, respectively. The results are discussed with respect to the important (and pH-dependent) metabolic functions of the lung and kidney.
...
PMID:Regulation of intracellular pH in lungs and other tissues during hypercapnia. 2 85
The effects of chronic respiratory failure (hypoxia and
hypercapnia
) on the contractile properties of
cardiac muscle
are not established. A study was performed of the isometric contractile properties of isolated papillary muscle removed from rats exposed in a normobaric environmental chamber to 28 days of hypoxia (fractional inspired oxygen (FIO2) 10%, fractional inspired carbon dioxide (FICO2) less than 1%),
hypercapnia
(FIO2 21%, FICO2 5%), and hypoxia with
hypercapnia
(FIO2 10%, FICO2 5%). Rats exposed to both hypoxia and hypoxia with
hypercapnia
developed selective right ventricular hypertrophy. Exposure to
hypercapnia
alone did not alter right ventricular weight. No change in right ventricular papillary muscle contractility per unit muscle mass was observed as measured by maximum active tension, maximum rate of rise or fall of tension, or time to peak tension. Rat
cardiac muscle
adapts successfully to the altered acid-base environment and increased work load associated with prolonged exposure to hypoxia and mild
hypercapnia
.
...
PMID:Contractility of papillary muscle from rats exposed to 28 days of hypoxia, hypercapnia, and hypoxia with hypercapnia. 259 23
Papillary muscle preparations from rats with normal arterial oxygen and carbon dioxide tensions and from rats which had been maintained with normal oxygen tension but with
hypercapnia
for 28 days (FICO2 = 5%) were subjected to acute
hypercapnia
with or without amiloride, a competitive inhibitor of the Na+/H+ pump. Acclimatisation to
hypercapnia
reduced the slope of the line relating log tension against the extracellular pH from 0.96(SEM0.06) to 0.71(0.07) (p less than 0.02). Amiloride increased the slope in unacclimatised muscle to 1.39(0.09), p less than 0.001 and in muscles acclimatised to
hypercapnia
to 1.03(0.13), p less than 0.05. The slope in acclimatised muscles was significantly less steep than in unacclimatised muscle (p less than 0.05). The sarcolemmal Na+H+ exchanger is important in the protection of rat
cardiac muscle
against acute respiratory acidosis.
...
PMID:Effect of amiloride on contractility of rat cardiac muscle exposed to chronic hypercapnia and acute acidosis. 325 18
Intracellular pH (pHi) of triceps, trapezius, quadriceps and gastrocnemius muscle tissue was determined in rats with myocardial hypertrophy due to experimental aortic stenosis (AS) and in sham operated rats (SO). During normocapnia, no significant difference in pHi between AS and So animals was observed in any of the muscle species investigated. In
hypercapnia
(FICO2 0.06, 0.075 or 0.100) pHi of AS was significantly higher than pHi of SO in all muscles, despite no difference in pHe, PaCO2 or [HCO3]a between AS and SO. Therefore, AS appears to be associated with an improvement of pHi regulation in skeletal muscle. In this respect, skeletal muscle behaves as hypertrophic
cardiac muscle
, which also shows an increased ability to regulate pHi in AS. These results suggest that the changes in pHi regulation of hypertrophic myocardium are not due to the hypertrophic process per se, but to a general phenomenon secondary to AS.
...
PMID:Changes in intracellular pH regulation of skeletal muscle of rats with aortic stenosis. 646 Mar 6
The mechanisms of oedema in cor pulmonale remain unexplained. On the basis of a small number of studies, cor pulmonale is not caused by
cardiac muscle
failure, at least in early oedematous phases. Progressive and persistent elevation of pulmonary vascular resistance may exceed the pumping capacity of the right ventricle in later stages. Alternative explanations for the sharp fall in renal blood flow as oedema appears should be sought. The renin-angiotensin-aldosterone system seems causally related to oedema. The curious position of
hypercapnia
remains an enigma. Surprisingly few studies of
hypercapnia
, renal blood flow and renal hormones are reported. Redistribution of body water from intracellular to the extracellular space may be in part due to the need to buffer extracellular respiratory acidosis caused by
hypercapnia
. It provides an explanation for one form of hypercapnic oedema. Cyclical loss and gain of tissue mass seems more evident in cor pulmonale than ischaemic or valvular heart failure.
...
PMID:Oedema in cor pulmonale. 703 67
A brief review about the effects of hypothermia is presented, with regards to the difference between accidental hypothermia and controlled mild hypothermia (Core temperature = 33-35 degrees C). Mild hypothermia does not seem to affect the cardiac performance, while recent experimental reports show potential protective effects on the
cardiac muscle
during acute infarction. Mild hypothermia improve the outcome of brain function after cardiac arrest and head injury, while experimental reports show a potential protective effect of local spinal cord cooling during ischemic injury. Induced hypothermia of single organ is widely applied in liver resection and in other surgical procedures, further the cardiac ones. In the acute respiratory failure, mild hypothermia may induce a decrease in PaCO2, in sedated and muscle relaxed patients, due to the decrease of metabolic demand. In this setting a mild induced hypothermia potentially may decrease the side effects of therapeutic hypoventilation (permissive
hypercapnia
) both on haemodynamics and brain circulation. Preliminary data are presented about five ALI/ARDS patients, enclosed in a randomized trial, who were mechanically ventilated and cooled with an air-sheet: three patients died because of underlying disease and two patients survived with complete recovery. Mild controlled hypothermia seems to provide new interesting clinic uses.
...
PMID:[Therapeutic applications of hypothermia in intensive care]. 1039 3
