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Effects of hypothalamic microinjection of PGE2 on body temperature and sympathetic nervous activities in the rabbit (1993)

Huang, Xiao-Chen

Springer

International journal of biometeorology 37 (1993), S. 222-228

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ISSN: 1432-1254

Keywords: Prostaglandin E2 (PGE2) ; Hypothalamus ; Fever ; Thermoregulation ; Sympathetic nervous system

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Abstract The febrile response and sympathetic nervous response to hypothalamic microinjections of prostaglandin E2 (PGE2) were investigated in anesthetized rabbits. Microninjection of PGE2 (500–1000 ng) caused an increase in rectal temperature of more than 0.3°C in 13 of 50 loci in the preoptic and anterior hypothalamic area (PO/AH). At 8 of these 13 loci, PGE2 elicited response patterns in the sympathetic nervous system, such as an increase in cutaneous sympathetic nervous activity and decrease in renal sympathetic nervous activity. This pattern of sympathetic nervous responses was induced with a simultaneous increase in rectal temperature of more than 0.5°C. The 8 loci were distributed in the preoptic area, especially in the vicinity of the supraoptic nucleus. Electrolytic lesions of this region were made bilaterally, and intracerebroventricular injection of PGE2 (8 µg/kg) was found to inhibit fever and sympathetic activity. The results demonstrate that the action of PGE2 is responsible for the response patterns of sympathetic twigs during fever. The preoptic area, especially in the vicinity of the supraoptic nucleus, is most sensitive to PGE2 for the patternized response of sympathetic neurons and fever.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01387528

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Effect of hypoxic breathing on cutaneous temperature recovery in man (1992)

Fahim, Mohammad

Springer

International journal of biometeorology 36 (1992), S. 5-9

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ISSN: 1432-1254

Keywords: Hypoxia ; Hypocapnea ; Skin temperature ; Thermoregulation

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Abstract Effect of hypoxia (12% O2) on skin temperature recovery was studied on healthy young men. Forty male volunteers free of any respiratory disorder were randomly selected to participate in the study. Skin temperature, peripheral blood flow, heart rate and end expiratoryPO2 andPCO2 were measured. During hyoxic ventilation the peripheral blood flow was reduced and a corresponding drop in skin temperature occurred. This was partly due to hyperventilation associated with hypoxic ventilation. The recovery of skin temperature after cooling the hand for 2 min in cold water (10–12° C) took 5.5±0.1 min during normal air breathing; during hypoxic ventilation even after 9.1±0.3 min when the skin temperature recovery curve plateaued, the skin temperature remained about 2° C below control. The results of the present investigation indicate that hypoxia interferes with the normal functioning of the thermoregulatory mechanism in man. Hyperventilation associated with hypoxic ventilation is also partly responsible for incomplete recovery of skin temperature.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01208727

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The evolution of sweat glands (1991)

Folk, G. Edgar ; Semken, A.

Springer

International journal of biometeorology 35 (1991), S. 180-186

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ISSN: 1432-1254

Keywords: Evolution ; Paleophysiology ; Primates ; Sweating ; Thermoregulation

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Abstract Mammals have two kinds of sweat glands, apocrine and eccrine, which provide for thermal cooling. In this paper we describe the distribution and characteristics of these glands in selected mammals, especially primates, and reject the suggested development of the eccrine gland from the apocrine gland during the Tertiary geological period. The evidence strongly suggests that the two glands, depending on the presence or absence of fur, have equal and similar functions among mammals; apocrine glands are not primitive. However, there is a unique and remarkable thermal eccrine system in humans; we suggest that this system evolved in concert with bipedalism and a smooth hairless skin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01049065

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Seasonal energy requirements and thermoregulation of growing pouched mice,Saccostomus campestris (Cricetidae) (1991)

Ellison, G. T. H. ; Skinner, J. D.

Springer

International journal of biometeorology 35 (1991), S. 98-102

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ISSN: 1432-1254

Keywords: Seasonal acclimation ; Thermoregulation ; Energetics ; Saccostomus

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Abstract Pouched mice (Saccostomus campestris) were born in captivity during January and March and subsequently maintained under long photoperiod (14 h light: 10 h dark) at 25°C. During their first winter (July) and the following summer (January) the pouched mice were exposed to natural photoperiod in an unheated laboratory for 3 weeks prior to measurement. The pouched mice continued to grow during the study, and were significantly heavier after summer exposure than after winter exposure 6 months earlier. Although this increase in body mass would result in a decline in their surface area to volume ratio there was no significant decline in minimal thermal conductance (C m) and winter-exposed pouched mice had a relatively lowerC m than expected. Meanwhile the smaller, winter-exposed animals displayed a significantly higher capacity for non-shivering thermogenesis, together with higher levels of basal metabolism than summer individuals. These differences were not solely attributable to the contrasting body mass of each group and it is therefore clear thatS. campestris can increase thermoregulatory heat production, and modify heat loss following exposure to short photoperiod and cold during their first winter. Despite the significant increase in metabolism, the overall energy requirements of small, winter-exposed animals were significantly lower than those for heavier pouched mice following exposure to summer conditions. These results suggest that growing pouched mice can effectively adapt to lower temperature conditions during their first winter, yet accrue considerable overall savings in total energy requirements as a result of their smaller body mass.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01087484

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The effects of elevated temperature and humidity on rectal temperature and respiration rate in the New Zealand white rabbit (1990)

Kasa, W. ; Thwaites, C. J.

Springer

International journal of biometeorology 34 (1990), S. 157-160

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ISSN: 1432-1254

Keywords: Rabbits ; Temperature ; Humidity ; Heat tolerance ; Thermoregulation

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Abstract In 2 replicated factorial experiments, 7-h climate chamber exposures were used to study the responses of adult NZW rabbits to a range of elevated temperatures and humidities. At 18 mm Hg water vapour pressure, 23.8° C was well tolerated, rectal temperature (RT) and respiration rate (RR) averaging 38.6±0.3° C and 82.9±15.5 breaths/min, respectively. Both parameters were elevated (P〈0.001) at 32.2°, 37.8° and 43.3° C. RT and RR reached plateau levels of 39.5–40.1° C and 410–460/min at 32.2° C, which was tolerated for the full 7-h test period. Test temperatures of 37.8° and 43.3° C, on the other hand, could be tolerated for only 80 and 40 min respectively, before RT reached the safe upper limit of 41.7° C. Final RR values at 37.8° and 43.3° C were 701.6±42.7 and 812±55.1/min, respectively. In a 34.5° C atmosphere a humidity of 21 mm Hg water vapour pressure was classified as “dry”, and was tolerated for 323±123 min. RT and RR increased by 0.6° C and 316/min during the first 20 min of exposure (P〈0.05). Thereafter both parameters increased progressively, but with no significant differences between successive recording periods, until RR reached 550.3±88.8/min at 41.7° C RT. Humidities of 25, 29 and 33 mm Hg water vapour pressure were, on the other hand, classified as “wet” and were tolerated for only 92±22, 81±16 and 119±50 min, respectively. RR at the times that RT reached 41.7° C at these 3 humidities was 732±26, 789±30 and 764±23/min, respectively. The results point to the likelihood that thermal stress will adversely affect the productivity and welfare of NZW rabbits in the tropics unless adequate housing environments are provided. Significant between-individual phenotypic differences in heat tolerance suggest the need for genetic studies of the possibility of selecting for improved heat tolerance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01048713

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