de Groat W C
Department of Pharmacology, University of Pittsburgh School of Medicine, Pennsylvania 15261, USA.
Urology. 1997 Dec;50(6A Suppl):36-52; discussion 53-6. doi: 10.1016/s0090-4295(97)00587-6.
The functions of the lower urinary tract (LUT) to store and periodically release urine are dependent on neural circuits in the brain and spinal cord. This paper reviews the central neural control of micturition and how disruption of this control can lead to bladder overactivity and incontinence.
Neuroanatomic, electrophysiologic, and pharmacologic techniques have provided information about the neural circuitry and the neurotransmitters involved in the central nervous control of voiding. Experimental models of neural injury, including spinal cord transection, cerebral infarction, and localized brain lesions, have been studied to identify the mechanisms contributing to the neurogenic overactive bladder.
Normal storage of urine is dependent on 1) spinal reflex mechanisms that activate sympathetic and somatic pathways to the urethral outlet and 2) tonic inhibitory systems in the brain that suppress the parasympathetic excitatory outflow to the urinary bladder. Voiding is mediated by inhibition of sympathetic-somatic pathways and activation of a spinobulbospinal parasympathetic reflex pathway passing through a micturition center in the rostral pons. Damage to the brain can induce bladder overactivity by reducing suprapontine inhibition. Damage to axonal pathways in the spinal cord leads to the emergence of primitive spinal bladder reflexes triggered by C-fiber bladder afferent neurons. The C-fiber afferent neurotoxin capsaicin, administered intravesically, has been useful in treating certain types of neurogenic bladder overactivity.
The central nervous mechanisms controlling the LUT are organized in the brain and spinal cord as simple on-off switching circuits that are under voluntary control. Damage to central inhibitory pathways or sensitization of peripheral afferent terminals in the bladder can unmask primitive voiding reflexes that trigger bladder overactivity.
下尿路(LUT)储存和定期排尿的功能依赖于大脑和脊髓中的神经回路。本文综述了排尿的中枢神经控制以及这种控制的破坏如何导致膀胱过度活动和尿失禁。
神经解剖学、电生理学和药理学技术提供了有关排尿中枢神经控制中涉及的神经回路和神经递质的信息。已经研究了神经损伤的实验模型,包括脊髓横断、脑梗死和局部脑损伤,以确定导致神经源性膀胱过度活动的机制。
尿液的正常储存依赖于1)激活通向尿道外口的交感神经和躯体神经通路的脊髓反射机制,以及2)大脑中抑制膀胱副交感神经兴奋性传出的紧张性抑制系统。排尿是通过抑制交感-躯体神经通路和激活一条经过脑桥前部排尿中枢的脊髓-延髓-脊髓副交感神经反射通路来介导的。大脑损伤可通过减少脑桥以上的抑制作用而诱发膀胱过度活动。脊髓中轴突通路的损伤导致由C纤维膀胱传入神经元触发的原始脊髓膀胱反射的出现。膀胱内给予C纤维传入神经毒素辣椒素已被用于治疗某些类型的神经源性膀胱过度活动。
控制下尿路的中枢神经机制在大脑和脊髓中组织成简单的开-关切换回路,受自主控制。中枢抑制通路的损伤或膀胱外周传入终末的敏化可揭示触发膀胱过度活动的原始排尿反射。
