猫的膀胱对膀胱冷却反射
A bladder-to-bladder cooling reflex in the cat.
作者信息
Fall M, Lindström S, Mazières L
机构信息
Department of Physiology, University of Göteborg, Sweden.
出版信息
J Physiol. 1990 Aug;427:281-300. doi: 10.1113/jphysiol.1990.sp018172.
Abstract
- Reflex effects of cold stimulation of the lower urinary tract were studied in cats anaesthetized with alpha-chloralose. The bladder and the urethra were catheterized for separate fluid instillations and the bladder pressure was monitored together with the evoked efferent nerve responses in pelvic nerve filaments. 2. A bladder cooling reflex could be evoked from both the bladder and the urethra. The response was an efferent discharge in preganglionic pelvic motor fibres to the bladder. 3. Bladder mechanoreceptors that drive the normal micturition reflex were not directly involved in the cooling reflex. Their tension sensitivity was decreased by cooling and the efferent reflex response typically occurred before any activation of these receptors. The efferent activity of the cooling reflex also survived an intentional unloading of the mechanoreceptors, a manipulation that abolishes the normal micturition reflex. 4. The dynamic threshold temperature of the cooling reflex was about 30-32 degrees C, which was at the thermal neutral point of the bladder in our experimental situation. 5. The bladder-evoked component of the reflex was greatly reduced or abolished by an intravesical infusion of the local anaesthetic Xylocaine. It was also abolished by total bladder denervation. 6. The vesical component of the reflex was unchanged by bilateral transections of the hypogastric nerves but abolished by pelvic nerve transection. The cooling reflex from the distal urethra was abolished by transection of the pudendal nerves. 7. It was proposed that the cooling reflex originates from cold receptors in the bladder and urethral walls and that the responsible afferent fibres are unmyelinated C fibres. The function of the reflex may be to rid the body of a thermal ballast when under cooling stress.
摘要
- 在用α-氯醛糖麻醉的猫身上研究了下尿路冷刺激的反射效应。膀胱和尿道通过导管分别进行液体灌注,并监测膀胱压力以及盆神经细丝中诱发的传出神经反应。2. 膀胱和尿道都能诱发膀胱冷却反射。反应是盆神经节前运动纤维向膀胱的传出放电。3. 驱动正常排尿反射的膀胱机械感受器未直接参与冷却反射。冷却会降低它们的张力敏感性,传出反射反应通常在这些感受器被激活之前就已发生。冷却反射的传出活动在故意解除机械感受器负荷(一种消除正常排尿反射的操作)后仍然存在。4. 冷却反射的动态阈值温度约为30 - 32摄氏度,这在我们的实验条件下是膀胱的热中性点。5. 通过膀胱内注入局部麻醉药利多卡因,反射的膀胱诱发成分大大降低或消失。完全膀胱去神经支配也可消除该成分。6. 双侧切断腹下神经后,反射的膀胱成分未改变,但切断盆神经后则消失。切断阴部神经可消除来自尿道远端的冷却反射。7. 有人提出,冷却反射起源于膀胱和尿道壁中的冷感受器,负责的传入纤维是无髓鞘的C纤维。该反射的功能可能是在受到冷却应激时使身体摆脱热负荷。
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