Carbone A, Palleschi G, Parascani R, Morello P, Conte A, Inghilleri M
Department of Urology, University of Rome "La Sapienza", Policlinico Umberto I, Viale del Policlinico, Rome, Italy.
Eur Urol. 2002 Sep;42(3):281-8. doi: 10.1016/s0302-2838(02)00309-3.
Despite evidence that the activation of visceral afferents modulates spinal motoneurone activity in humans, the circuits responsible for this modulation remain unclear. The aim of the present study was to assess the effect of urinary bladder filling on the excitability of somatic spinal motoneurones in patients affected by overactive bladder secondary to neurogenic and non-neurogenic causes in both patients with bladder underactivity and normal subjects by means of a urodynamic evaluation.
In order to evaluate the influence of bladder filling on somatic reflexes, we studied the H-reflex evoked by electrical stimuli applied to the tibial nerve at the popliteal fossa and recorded from the soleus muscle. The H-reflex was tested in the following conditions: (1). empty bladder; (2). medium bladder filling; (3). maximum bladder filling; (4). five minutes after bladder emptying. The H-reflex amplitude at empty bladder was considered as the control value.
In healthy subjects, we observed a progressive reduction in the H-reflex amplitude during bladder filling. In spinal cord-injured patients affected by a neurogenic overactive bladder, bladder filling failed to inhibit the H-reflex amplitude; a decrease in the H-reflex amplitude similar to that displayed by normal subjects was observed in patients with a non-neurogenic overactive bladder. By contrast, H-reflex behavior was unmodified in neurogenic underactive bladder patients and was similar to normal subjects in psychogenic underactive patients.
As behavior of the H-reflex varies during bladder filling in neurogenic and non-neurogenic overactive bladder patients as well as in neurogenic and non-neurogenic underactive bladder patients, H-reflex modulation may be considered a useful tool in the differential diagnosis of voiding dysfunctions.
尽管有证据表明内脏传入神经的激活可调节人类脊髓运动神经元的活动,但负责这种调节的神经回路仍不清楚。本研究的目的是通过尿动力学评估,评估膀胱充盈对神经源性和非神经源性原因导致膀胱过度活动症患者、膀胱活动不足患者及正常受试者的躯体脊髓运动神经元兴奋性的影响。
为了评估膀胱充盈对躯体反射的影响,我们研究了在腘窝处对胫神经施加电刺激并从比目鱼肌记录的H反射。在以下条件下测试H反射:(1). 膀胱空虚;(2). 膀胱中度充盈;(3). 膀胱最大充盈;(4). 膀胱排空后五分钟。将膀胱空虚时的H反射幅度视为对照值。
在健康受试者中,我们观察到膀胱充盈期间H反射幅度逐渐降低。在患有神经源性膀胱过度活动症的脊髓损伤患者中,膀胱充盈未能抑制H反射幅度;在患有非神经源性膀胱过度活动症的患者中,观察到H反射幅度的降低与正常受试者相似。相比之下,神经源性膀胱活动不足患者的H反射行为未改变,在精神性膀胱活动不足患者中与正常受试者相似。
由于神经源性和非神经源性膀胱过度活动症患者以及神经源性和非神经源性膀胱活动不足患者在膀胱充盈期间H反射的行为有所不同,H反射调节可被视为排尿功能障碍鉴别诊断的有用工具。