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Query: UMLS:C0020672 (
hypothermia
)
17,327
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chlorpyrifos
(
CHL
) is a commonly used organophosphate (OP) pesticide which irreversibly inhibits acetylcholinesterase activity in the CNS. Little is known regarding the thermoregulatory effects of
CHL
when administered orally and whether the sensitivity to
CHL
is affected by sex. To address these issues, male and female rats of the Long-Evans strain were administered 0, 10, 50, or 80 mg/kg
CHL
by gavage while core temperature (T(c)) and motor activity (MA) were monitored continuously by telemetry. Females were generally more sensitive than males to
CHL
. Significant hypothermic responses to
CHL
were observed in males administered 80 mg/kg and in females administered 10-80 mg/kg. Following recovery from
hypothermia
T(c) of both males and females underwent a significant elevation during the light phase 1-2 days after
CHL
exposure.
CHL
-induced hyperthermia was blocked in male and female rats by administration of 200 mg/kg sodium salicylate (SS), an antipyretic agent. Male castrated rats were markedly more sensitive to the hypothermic and hyperthermic effects of
CHL
compared to sham operated controls. On the other hand, ovariectomized female rats responded to
CHL
in a similar fashion as the sham operated controls. Thus, testicular function may be important in determining greater resistance to
CHL
in male rats. It appears that exposure to
CHL
leads to a delayed fever which involves activation of CNS pathways normally involved in fever. This mechanism could be responsible for the febrile response to OP pesticides commonly observed in humans exposed to OPs.
...
PMID:Hypothermia and delayed fever in the male and female rat exposed to chlorpyrifos. 912 69
Chlorpyrifos
(
CHP
) is a heavily used organophosphorous-based insecticide that elicits thermoregulatory dysfunction in the rat characterized by an initial period of
hypothermia
followed by a delayed hyperthermia lasting 24-72 h after exposure. The purpose of the present study was to determine (1) if the delayed hyperthermia is linked to
CHP
-induced
hypothermia
and (2) if the
hypothermia
and delayed hyperthermia are regulated by the CNS thermoregulatory centers. Core temperature (Tc) and motor activity (MA) of female Long-Evans rats were monitored via radiotelemetry. Rats housed in a temperature gradient were administered the control vehicle or
CHP
(25 mg/kg (p.o.)) while Tc, MA and ambient temperature (Ta) preferred by rats in the gradient (i.e. selected Ta) were recorded. There was an initial reduction in Tc concomitant with a decrease in selected Taa A gradual recovery in Tc occurred during the first night along with a preference for warmer Ta's and depressed MA. The day after
CHP
there was an elevation in Tc but no change in selected Ta, suggesting that the delayed rise in Tc was regulated. In another experiment, the hypothermic effects of
CHP
(25 mg/kg (p.o.)) were blocked by raising Ta from 22 to 31 degrees C immediately after
CHP
administration. Non-heated rats administered
CHP
underwent a marked period of
hypothermia
followed by an elevation in diurnal Tc for 2 days. Heated rats showed no hypothermic response but did undergo a hyperthermic response 48 h after
CHP
. MA was reduced during the first night after
CHP
in both non-heated and heated groups. Overall, the
CHP
-induced hyperthermia is not dependent on the development of
hypothermia
. Behavioral thermoregulatory observations suggest that both
hypothermia
and hyperthermia are regulated by CNS thermoregulatory centers.
...
PMID:Behavioral thermoregulatory response to chlorpyrifos in the rat. 948 18
Chlorpyrifos
(
CHP
), an OP-based pesticide, induces
hypothermia
in the rat followed by a fever that persists for several days. The cytokine, tumor necrosis factor-alpha (TNF), is induced by lipopolysaccharide (LPS) and released during fever and has both pyrogenic and cryogenic (i.e. antipyretic) properties. Administering antibodies to TNF (anti-TNF) is known to disrupt fever from infection. Thus, the purpose of this study was to examine whether anti-TNF also disrupts
CHP
-induced changes in body temperature of the female Long-Evans rat. A positive effect would suggest a role of TNF in the etiology of OP toxicity. In study one, rats were given either saline or anti-TNF (50,000 units, i.p.). Three hours later, animals were given corn oil (CO) or 25 mg/kg
CHP
by oral gavage in the morning. In study two, rats were given anti-TNF followed by CO or 10 mg/kg
CHP
in the afternoon. Core temperature and motor activity were monitored continuously by telemetry. In study one, anti-TNF (50,000 units) had no effect on the hypothermic response to 25 mg/kg
CHP
. However, anti-TNF treated animals maintained higher fevers 3 days (48-96 h post-injection) after
CHP
treatment. In study two, anti-TNF attenuated the hypothermic response induced by 10 mg/kg
CHP
but had no effect on the magnitude of the delayed fever. Overall, 25 mg/kg
CHP
elicited a longer period of
hypothermia
and delayed fever compared to 10 mg/kg
CHP
. Anti-TNF pretreatment attenuated the hypothermic response at the lower
CHP
dose and exacerbated the fever at the higher
CHP
dose. Anti-TNF also attenuated the hypothermic effect of high doses of LPS and exacerbated LPS-induced fever. These data indicate that endogenously produced TNF is involved in the etiology of
CHP
mediated
hypothermia
and fever.
...
PMID:Tumor necrosis factor is involved in chlorpyrifos--induced changes in core temperature in the female rat. 1051 30
Chlorpyrifos
(
CPF
) is an organophosphate (OP) insecticide and is among the most common and widely used commercial insecticides. Human intoxication is reported to result in a typical set of responses, which include an immediate and long lasting hyperthermic response (fever). Rodents exposed to similar doses exhibit a biphasic body temperature response: short-term
hypothermia
followed by subtle hyperthermia several days after administration. Time of day of administration has been suggested to alter the body temperature effect of
CPF
. In the present study, it is shown that adult male Sprague-Dawley rats exposed to
CPF
via (oral) gavage at four different times of the day demonstrate a hypothermic response, the timing and magnitude of which is independent of time of exposure and that is blocked by atropine pretreatment. However, a delayed (hyperthermic) response seems to be exhibited only when dosing occurs during the light phase. Our findings support existing theories that the hypothermic and hyperthermic effects of
CPF
work through independent mechanisms. It is also suggested that humans may indeed exhibit a biphasic temperature response to
CPF
intoxication, but that it is not typically detected.
...
PMID:Effects of time of day on chlorpyrifos-induced alterations in body temperature. 1107 76
Chronic exercise conditioning has been shown to alter basal thermoregulatory processes (change in thermoregulatory set point) as well as the response to infectious fever
Chlorpyrifos
(
CHP
), an organophosphate insecticide, also affects thermoregulation, causing an acute period of
hypothermia
followed by a delayed fever. This study examined whether chronic exercise training in the rat alters the thermoregulatory response to
CHP
. Core temperature and motor activity were monitored by radiotelemetry in female Sprague-Dawley rats housed individually at an ambient temperature of 22 degrees C. The rats were either given continuous access to running wheels or housed in standard cages without wheels. The exercise group ran predominately at night. After 8 weeks, the rats were gavaged with corn oil or 15 mg/kg
CHP
.
CHP
induced a transient hypothermic response followed by a delayed fever, beginning 1 day after exposure. Relative to controls, T7 decreases were not significantly different between the exercise (1.6 degrees C) group and the sedentary (0.5 degrees C) group given
CHP
. The sedentary and exercise group administered
CHP
developed a fever the day after
CHP
treatment. The fever response was greater in the sedentary group and persisted for approximately 3 days post-injection. Fever of the exercise group persisted for just one-half of 1 day after
CHP
. It is well known that chronic exercise training improves aerobic capacity; however, trained rats were not protected from the hypothermic effects of
CHP
. Training did ameliorate the febrile effects of
CHP
. Thus, exercise training may afford protection to the toxic effects of organophosphate insecticides.
...
PMID:Effects of exercise conditioning on thermoregulatory response to anticholinesterase insecticide toxicity. 1187 66
Little is known about the effects of physical activity (i.e., exercise training) on susceptibility to environmental toxicants.
Chlorpyrifos
(
CHP
), an organophosphate (OP) insecticide, affects thermoregulation, causing an acute period of
hypothermia
followed by a delayed fever. Since exercise conditioning alters the thermoregulatory responses of rodents, this study examined whether exercise training would alter the thermoregulatory response to repeated
CHP
administration in the female Sprague-Dawley rat. Core temperature (T(c)) and motor activity (MA) were monitored by radiotelemetry in rats housed at an ambient temperature (T(a)) of 22 degrees C. The rats either were provided with continuous access to running wheels (exercise group) or were housed in standard cages without wheels (sedentary group). The exercise group rats ran predominantly at night with an average of 7.6 km/24h. After 8 weeks the rats in both groups were gavaged daily with corn oil or 10mg/kg
CHP
(dissolved in corn oil) for 4 days.
CHP
induced an immediate hypothermic response followed by a delayed fever throughout the next day in the sedentary group rats after the first three doses of
CHP
. The exercise group rats showed no
hypothermia
after the first dose of
CHP
. However, they became hypothermic after the second and third doses of
CHP
. The exercise group rats developed a smaller daytime fever after each dose of
CHP
compared to the sedentary group rats. Overall, exercise training attenuated the hypothermic and febrile effects of repeated
CHP
. Thus, the data suggest that a sedentary lifestyle may increase the sensitivity to OP insecticides. Exercise training was also associated with a more rapid recovery of plasma cholinesterase activity.
...
PMID:Effects of exercise conditioning on thermoregulatory responses to repeated administration of chlorpyrifos. 1270 52
Chlorpyrifos
is a commonly used insecticide that can be metabolically activated by CYP2B to the acetylcholinesterase inhibitor chlorpyrifos-oxon causing cholinergic overstimulation and neurotoxicity. Rat brain extracts can also activate chlorpyrifos in vitro, and the lack of circulating oxon in serum suggests that metabolic activation within the brain may be responsible for chlorpyrifos neurotoxicity. Rats received intracerebroventricular (ICV) injections of CYP2B mechanism-based inhibitors (MBI), once or repeatedly, followed by chlorpyrifos (62.5-250 mg/kg sc). Rats were assessed for neurochemical (acetylcholinesterase activity), physiological (temperature), and behavioral measures (e.g., gait, righting reflex, arousal, incline angles) at 4 hours 3 days after chlorpyrifos treatment. ICV CYP2B MBIs increased brain chlorpyrifos levels, decreased brain chlorpyrifos-oxon levels, and attenuated the reduction in brain acetylcholinesterase; there was no effect on serum chlorpyrifos levels or acetylcholinesterase activity reduction. Inhibition of brain chlorpyrifos metabolism by CYP2B MBIs blocked centrally mediated
hypothermia
but not peripherally mediated hyperthermia. A single ICV MBI treatment significantly attenuated chlorpyrifos neurotoxicity mediated behavioral outcomes at 1 day after chlorpyrifos treatment with a gradual worsening of behavioral scores through day 3, suggesting a recovery of brain CYP2B activity and an increase in local chlorpyrifos activation. Daily ICV MBI injections attenuated neurotoxicity across all test days consistent with prolonged inhibition of brain chlorpyrifos activation. Thus, rat brain CYP2B contributes significantly to chlorpyrifos's neurotoxic effects. Variable human brain CYP2B levels, influenced by genetics and environmental exposures, may contribute to interindividual differences in neurotoxicity. Therapeutic inhibition of brain CYP2B could also be explored as a treatment for exposure to CYP2B-activated neurotoxins.
...
PMID:Rat brain CYP2B-enzymatic activation of chlorpyrifos to the oxon mediates cholinergic neurotoxicity. 2228 24
