Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0085383 (
hypocapnia
)
1,697
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We investigated the adverse effect of
hypocapnia
on the neonatal rabbit brain. Two-week-old Japanese white rabbits were assigned to three groups, hyperventilation (H group), ischemia (I group), or
hypocapnia
with ischemia (HI group) and then subjected for 1.5 h with simultaneous measurement of the mean arterial blood pressure (MABP) and intracranial Hb concentration changes. Marked reductions of PaCO2 and MABP were induced in the hyperventilation-loaded groups and the ischemia-loaded groups, respectively. The intracranial oxyhemoglobin and total Hb concentrations decreased slightly in the H group and markedly in the I and HI groups after the start of experimental protocols, although there were no statistical differences between the I and HI groups. Animals were killed at 24 h after experiments and then subjected to pathologic examination. Damaged neurons with shrunken cell bodies and nuclear changes were found on light microscopic examination, mainly in the pyramidal cell layer of the subiculum and cornu ammonis 1. The numerical density of damaged neurons was significantly higher in the HI group than those in the H or I groups (p < 0.05). These damaged neurons were positive on
DNA
nick end labeling. A
DNA
ladder was detected on electrophoresis with a
DNA
sample extracted from hippocampal tissue in the HI group, but not in the other two groups. On electron microscopic examination, not only condensation of the nucleus but also disruption of mitochondria and the cell membrane were detected. These results suggested that
hypocapnia
under hypotension might cause neuronal cell death in the hippocampus of neonatal rabbit. Not only ischemia but also a metabolic change induced by
hypocapnia
might contribute to this apoptotic neuronal cell damage.
...
PMID:Hypocapnia under hypotension induces apoptotic neuronal cell death in the hippocampus of newborn rabbits. 1087 96
Previous studies have shown that severe hypocapnic ventilation [arterial carbon dioxide partial pressure (PaCO(2)) 7-10 mm Hg] in newborn animals results in decreased cerebral blood flow and decreased tissue oxidative metabolism. The present study tests the hypothesis that moderate hypocapnic ventilation (PaCO(2) 20 mm Hg) will result in decreased cerebral oxidative metabolism and nuclear
DNA
fragmentation in the cerebral cortex of normoxemic newborn piglets. Studies were performed in 10 anesthetized newborn piglets. The animals were ventilated for 1 h to achieve a PaCO(2) of 20 mm Hg in the hypocapnic (H) group (n = 5) and a PaCO(2) of 40 mm Hg in the normocapnic, control (C) group (n = 5). Tissue oxidative metabolism, reflecting tissue oxygenation, was documented biochemically by measuring tissue ATP and phosphocreatine (PCr) levels. Cerebral cortical nuclei were purified, nuclear
DNA
was isolated, and
DNA
content was determined.
DNA
samples were separated, stained, and compared with a standard
DNA
ladder. Tissue PCr levels were significantly lower in the H group than the C group (2.32 +/- 0.66 versus 3.73 +/- 0.32 micromol/g brain, p < 0.05), but ATP levels were preserved. Unlike C samples, H samples displayed a smear pattern of small molecular weight fragments between 100 and 12,000 bp. The density of
DNA
fragments was eight times higher in the H group than the C group, and
DNA
fragmentation varied inversely with levels of PCr (r = 0.93). These data demonstrate that moderate
hypocapnia
of 1 h duration results in decreased oxidative metabolism that is associated with
DNA
fragmentation in the cerebral cortex of newborn piglets. We speculate that
hypocapnia
-induced hypoxia results in increased intranuclear Ca(2+) flux, which causes protease and endonuclease activation,
DNA
fragmentation, and periventricular leukomalacia in newborn infants.
...
PMID:Effect of moderate hypocapnic ventilation on nuclear DNA fragmentation and energy metabolism in the cerebral cortex of newborn piglets. 1164 52
23% of all septic patients develop septic encephalopathy which is associated with an increased mortality rate. Symptoms such as agitation, confusion and disorientation ranging from stupor to coma often develop in early sepsis. Severe hypotension is significantly associated with the development of septic encephalopathy. Several other factors which may play a role are also discussed: effects of inflammatory mediators on the brain, inadequate cerebral perfusion pressure, blood-brain barrier derangements, disturbances of the cerebral microcirculation, cerebral ischemia e.g. due to
hypocapnia
,metabolic changes, altered amino acid levels, transmitter imbalances, liver insufficiency, multiple organ failure and infections of the CNS, respectively. Compared to patients with an isolated infection,patients in septic shock have increased levels of aromatic amino acids such as phenylalanine and tryptophan in the plasma and brain as well as decreased levels of branched chain amino acids. Patients who died had higher levels of aromatic amino acids than the survivors. The correlation between aromatic amino acids and the APACHE II score was significant. The tryptophan metabolite quinolinic acid which can be synthesized in activated macrophages could act as an excitatory transmitter on the N-methyl-D-aspartate (NMDA) -receptor. Observations from experimental models indicate that activated NMDA receptors activate the neuronal isoform of the NO-synthase and other calcium dependent enzymes. This releases free radicals which may damage the
DNA
and activate the nuclear enzyme Poly-ADP-ribose-synthetase (PARS), resulting in energy depletion and cell death. Sepsis is the main cause of metabolic encephalopathies in critically ill patients. The differential diagnoses include hepatic, renal,hypoxic-ischemic or cardiovascular encephalopathies as well as encephalopathies,metabolic disorders and organ dysfunctions of other origin. Therapeutic interventions are numerous,however, so far only investigated in few controlled studies. The primary therapeutic goal is to maintain an adequate perfusion pressure and to prevent hypoxia and
hypocapnia
. Although the infusion of branched chain amino acids is controversial, experimental investigations demonstrated improvements improvements in an animal model with septic encephalopathy. Further investigations with respect to glutamate receptor antagonists, new radical scavengers, NO- and PARS-inhibitors may show whether these substances are suitable for the prophylaxis or early therapy of septic encephalopathy.
...
PMID:[Septic encephalopathy. Diagnosis und therapy]. 1275 14
The present study tests the hypothesis that a PaCO(2) of 27 mmHg for 1 hr results in increased neuronal nuclear Ca(++)/calmodulin-dependent protein kinase IV (CaM kinase IV) activity, pro-apoptotic protein expression and
DNA
fragmentation in the cerebral cortex of newborn piglets.
Hypocapnic
(HC) and normocapnic newborn piglets were studied. Tissue levels of ATP and phosphocreatine (PCr) were lower in the HC group. CaM kinase IV activity and Bax protein density were higher in the HC group. Bcl-2 protein density was the same in both groups, resulting in an increased ratio of Bax/Bcl-2 in the HC group. Density of nuclear
DNA
fragments was greater in the HC group and varied inversely with ATP and PCr levels. We conclude that
hypocapnia
(PaCO(2) 27 mmHg) results in increased expression of pro-apoptotic proteins and fragmentation of nuclear
DNA
in newborn piglets.
...
PMID:The effect of hypocapnia (PaCO2 27 mmHg) on CaM kinase IV activity, Bax/Bcl-2 protein expression and DNA fragmentation in the cerebral cortex of newborn piglets. 1462 22
Previous studies have shown that
hypocapnia
results in fragmentation of nuclear
DNA
in the cerebral cortex of newborn piglets. We tested the hypothesis that
hypocapnia
results in decreased ATP and phosphocreatine (PCr) levels and increased nuclear high-affinity Ca++-ATPase activity, intranuclear Ca++ flux, and CaM kinase IV activity in neuronal nuclei of piglets. Three groups of piglets were ventilated as either hypocapnic (a PaCO2 of 20 mm Hg), normocapnic (a PaCO2 of 40 mm Hg), or corrected hypocapnic (ventilated as hypocapnic but with CO2 added to maintain normocapnia) for 1 h. Tissue ATP levels were lower in the hypocapnic than in the normocapnic group. PCr levels were lower and 45Ca++-influx, Ca++-ATPase activity and CaM kinase IV activity were higher in hypocapnic than in normocapnic or corrected hypocapnic piglets. We conclude that
hypocapnia
alters nuclear membrane Ca++ flux mechanisms and may alter neuronal phosphorylation mechanisms in the cerebral cortex of piglets.
...
PMID:The effect of moderate hypocapnic ventilation on nuclear Ca2+-ATPase activity, nuclear Ca2+ flux, and Ca2+/calmodulin kinase IV activity in the cerebral cortex of newborn piglets. 1509 43
