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Query: UMLS:C0020672 (
hypothermia
)
17,327
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
mu-Opiate receptor binding and function were examined in mice selectively bred for sensitivity (COLD) and resistance (
HOT
) to ethanol-induced
hypothermia
. These mice also have differential hypothermic sensitivity to mu-opiates. mu-Opiate receptor density was higher in the frontal cortex of
HOT
mice compared with COLD mice, but was the same in other brain areas. In addition, there were no line differences in Kd values. Basal adenylate cyclase (AC) activity was similar in both lines, as was the response to forskolin (FS) stimulation. Morphine was more effective at inhibiting FS-AC activity in the hypothalamus of
HOT
mice compared with COLD mice but was equally effective in the frontal and parietal cortex. There were no differences between lines in basal Ca2+, Mg2+, or Ca2+/Mg(2+)-ATPase activity. Further, 30 min after treatment ATPase activities were not altered in ethanol- or levorphanol-treated mice. These results suggests that mu-opiate biochemical pathways, but not ATPase enzyme systems, may be involved in mediating differential hypothermic sensitivity observed in
HOT
and COLD mice.
...
PMID:Mu-opiate receptor binding and function in HOT and COLD selected lines of mice. 827 28
Studies with inbred strains of mice have suggested that there may be a genetic correlation between strain sensitivities to the ataxic and hypothermic responses to ethanol (EtOH), which would suggest that some genes influence both responses. To test this hypothesis, EtOH sensitivity was determined in replicate lines of mice selectively bred for sensitivity (COLD) or resistance (
HOT
) to acute ethanol
hypothermia
. Several tests were used to index ataxia, related traits such as muscle strength, and locomotor activity. The screen test yielded a dose-dependent EtOH-induced decrease in performance that did not differ between the selected lines. Based on the dose-response characteristics of this task, 2.5 g/kg of EtOH was used as the test dose for the remaining experiments. Results from the fixed-speed rotarod and the grid test of motor incoordination also indicated no significant differences between
HOT
and COLD mice in sensitivity to EtOH impairment. When the selected lines were tested on an accelerating rotarod, COLD mice were impaired by the acute EtOH injection, but
HOT
mice were unaffected. COLD mice were more sensitive to EtOH-induced decrements in grip strength and locomotor activity. Overall, the results indicated that
HOT
and COLD mice were only differentially sensitive to EtOH in some tasks related to ataxia, suggesting that some genes must be associated uniquely with EtOH-induced
hypothermia
or ataxia. The mixed results from the various tests indicate that ataxia can best be conceived as a group of related complex behaviors that cannot be assessed adequately by the use of a single task and that ataxia-related behaviors are influenced by different groups of genes.
...
PMID:Sensitivity to ethanol-induced ataxia in HOT and COLD selected lines of mice. 898 11
The changes in body temperature induced by rapid intravenous infusion of lactated Ringer solution and the effect of a fluid warmer system (
HOT
LINE, Level 1 Technologies, Inc., Rockland, MD) were investigated in 35 patients undergoing cardiovascular surgery. The patients were divided into 5 groups by categories of the fluid temperature (-19 or -38 degrees C), infusion route (radial or right subclavian vein), and infusion rate of lactated Ringer solution (1000 or 250 ml for 30 min). Pulmonary arterial, esophageal, bladder, and forehead deep temperatures, which reflect core temperature, were significantly decreased by the rapid infusion of unwarmed solution (0.8-1.0 degree C, P < 0.05). In contrast, these temperatures were maintained in the warmed solution groups as well as in the group of slow infusion rate. With regard to the infusion route, there was no significant difference in the temperature between the radial vein and subclavian vein groups. Plantar deep temperature showed no significant change during this study. In conclusion, infusion of warmed solution using
HOT
LINE could prevent
hypothermia
induced by rapid intravenous infusion, and this effect is not greatly influenced by route of venous infusion.
...
PMID:[Preventive effect of fluid warmer system on hypothermia induced by rapid intravenous infusion]. 962 74
Within-family selective breeding techniques have been used to create two lines of mice to be insensitive (
HOT
) and two lines to be sensitive (COLD) to the hypothermic effects of an acute 3.0-g/kg ethanol (EtOH) injection. Previous studies have found
HOT
mice to be relatively resistant to the development of tolerance to this effect, whereas COLD mice readily develop tolerance. The breeding program is currently in selected Generation 52, and the
HOT
and COLD mice differ by about 10 degrees C (average of both replicates) in their selected hypothermic response. Starting with selection Generation 20, separate lines of mice were inbred from the
HOT
-2 and COLD-2 selected lines, while selection continued for the original two replicate lines of
HOT
and COLD mice. To assess whether different dose treatments would produce differential tolerance development in the
HOT
and COLD selected lines, we administered different dose regimens across 5 days to
HOT
and COLD mice. The COLD mice developed tolerance while the
HOT
mice did not, regardless of total EtOH administered. In a separate study, we administered EtOH (3.0 g/kg) to mice for 3 days to assess a shorter tolerance paradigm. We also present here responses to the selection dose of 3.0-g/kg EtOH in the inbred
HOT
(IHOT-2) and COLD (ICOLD-2) mice tested after 41 generations of brother-sister mating. In addition, we report recent attempts to find doses of EtOH that would produce an equivalent initial hypothermic response in each of the six lines (
HOT
-1, COLD-1,
HOT
-2, COLD-2, ICOLD-2, and IHOT-2). When doses were selected to produce similar initial hypothermic sensitivity, tolerance was tested by giving three daily doses and examining the attenuation of the hypothermic response on the third day. All three COLD lines developed significant tolerance, while the
HOT
lines did not. The
HOT
and COLD mice provide a genetic model to study mechanisms mediating acute EtOH-induced
hypothermia
as well as tolerance development.
...
PMID:Sensitivity and tolerance to ethanol in mouse lines selected for ethanol-induced hypothermia. 1116 73
The Edinger-Westphal nucleus is the primary source of urocortin in rodent brain. Mapping of inducible transcription factors has shown that the Edinger-Westphal nucleus is preferentially sensitive to ethanol self-administration. In the present study we have immunohistochemically compared expression of urocortin and c-Fos in naive and ethanol-treated C57BL/6J and DBA/2J mouse inbred strains. We found that C57BL/6J mice possess significantly higher numbers of urocortin-expressing cells in the Edinger-Westphal compared to DBA/2J mice. Subsequent histological analysis confirmed a lower number of large neurons in the DBA/2J Edinger-Westphal nucleus. Surprisingly, despite the differences in structure, no strain differences were observed in the number of c-Fos-containing cells after acute (0.6-4.8 g/kg, i.p.) and repeated (2.4 g/kg, 14 days, one injection/day) administration of ethanol. Double-label immunohistochemistry showed that ethanol-induced c-Fos expression is present in different sets of Edinger-Westphal cells between the strains. Specifically, expression of c-Fos in C57BL/6J mice is preferentially induced in urocortin cells, while c-Fos in DBA/2J mice occurs in a mixed population of cells. Behavioral analysis of the B6D2 F2 intercross, a heterogeneous mouse strain, showed that the number of urocortin cells is positively correlated with basal temperatures and ethanol-induced
hypothermia
. Involvement of the Edinger-Westphal in alcohol-induced
hypothermia
is further confirmed by analysis of urocortin cells in the
HOT
/COLD selected lines. These results provide evidence that C57BL/6J and DBA/2J mice have structural differences in the Edinger-Westphal that can result in activation of different populations of neurons upon alcohol intoxication contributing to differential thermoregulation between these inbred strains.
...
PMID:Strain differences in urocortin expression in the Edinger-Westphal nucleus and its relation to alcohol-induced hypothermia. 1212 99
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