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犬在喘气时的舌血流量及其下丘脑控制。

Lingual blood flow and its hypothalamic control in the dog during panting.

作者信息

Krönert H, Pleschka K

出版信息

Pflugers Arch. 1976 Nov 30;367(1):25-31. doi: 10.1007/BF00583652.

DOI:10.1007/BF00583652
PMID:1034283
Abstract
  1. The effects of increased ambient temperature (Ta) on blood-flow and -temperatures of the tongue were studied in the unanaesthetized dog. At Ta of 20 degrees C and a relative humidity (rh) of 30% the mean lingual blood flow was 11 ml-min-1 (0.15 ml-g-1-min-1) and the temperature difference between the lingual artery and vein (deltaTLAV) was 1.0 degrees C. Accordingly, a heat loss of 48.6 J-min-1 was calculated even for the dog breathing with the mouth closed. When Ta was elevated to 38 degrees C at constant rh, panting ensued. In parallel fashion lingual blood flow increased to 60.4 ml-min-1 (0.81 ml-g-1-min-1) in mean and to 74.7 ml-min-1 (0.99 ml-g-1-min-1) at peak rate of thermal tachypnoea (272 breaths-min-1). This flow increase resulted from a decrease in the local vascular resistance since the driving systemic pressure remained constant. It was accompanied by an increase in TLAV to 1.5 degrees C equivalent to a heat loss of 400.7J-min-1 in mean and 496.2J-min-1 at maximum respiratory rate. 2. The preoptic/anterior hypothalamic (PO/AH) region was heated with a water perfused thermode in urethane anaesthetized dogs at constant body temperature in order to study the relationship in time between the increase in lingual blood flow and the onset of thermal panting. Lingual blood flow was found to be 20 ml-min-1 at a respiratory rate of 60 breaths/min. During hypothalamic heating both respiratory rate and lingual blood flow increased markedly. At maximum respiratory rates (244 breaths-min-1) lingual blood flow reached a level of 60 ml-min-1. When perfusion of the thermode was stopped, both respiratory rate and lingual blood flow synchronously returned to control values within 5 min. Similar changes did not occur in dogs in which a ventilatory response failed to be elicited during hypothalamic heating. 3. The results suggest that the tongue contributes to the evaporative heat loss mechanism and they confirm the concept that panting, associated with increased lingual blood flow, is induced by a common autonomic outflow pattern which is mediated by the central mechanism controlling thermal homeostasis.
摘要
  1. 在未麻醉的犬身上研究了环境温度(Ta)升高对舌血流量和温度的影响。在Ta为20摄氏度、相对湿度(rh)为30%时,平均舌血流量为11毫升/分钟(0.15毫升/克/分钟),舌动脉与静脉之间的温差(deltaTLAV)为1.0摄氏度。因此,即使犬闭嘴呼吸,计算得出的热散失为48.6焦耳/分钟。当在恒定rh条件下将Ta升高到38摄氏度时,犬开始喘气。与此同时,舌血流量平均增加到60.4毫升/分钟(0.81毫升/克/分钟),在热喘促的峰值速率(272次呼吸/分钟)时增加到74.7毫升/分钟(0.99毫升/克/分钟)。这种血流量增加是由于局部血管阻力降低,因为驱动的体循环压力保持恒定。它伴随着TLAV增加到1.5摄氏度,相当于平均热散失400.7焦耳/分钟,在最大呼吸速率时为496.2焦耳/分钟。2. 在体温恒定的情况下,用灌注水的热电极加热乌拉坦麻醉犬的视前区/下丘脑前部(PO/AH)区域,以研究舌血流量增加与热喘促发作之间的时间关系。发现在呼吸频率为60次/分钟时舌血流量为20毫升/分钟。在下丘脑加热期间,呼吸频率和舌血流量均显著增加。在最大呼吸速率(244次呼吸/分钟)时,舌血流量达到60毫升/分钟的水平。当停止热电极灌注时,呼吸频率和舌血流量在5分钟内同步恢复到对照值。在下丘脑加热期间未能引发通气反应的犬身上未出现类似变化。3. 结果表明,舌头有助于蒸发散热机制,并且证实了这样的概念,即与舌血流量增加相关的喘气是由控制热稳态的中枢机制介导的共同自主神经流出模式所诱发的。

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本文引用的文献

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[Temperature and air humidity in the respiratory tracts].[呼吸道中的温度与空气湿度]
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Antagonistic changes of blood flow and sympathetic activity in different vascular beds following central thermal stimulation. I. Blood flow in skin, muscle and intestine during spinal cord heating and cooling in anesthetized dogs.中枢热刺激后不同血管床血流与交感神经活动的拮抗变化。I. 麻醉犬脊髓加热和冷却过程中皮肤、肌肉和肠道的血流情况
Pflugers Arch. 1970;319(2):146-61. doi: 10.1007/BF00592493.