Phase relation changes between the firings of alpha and gamma-motoneurons and muscle spindle afferents in the sacral micturition centre during continence functions in brain-dead human and patients with spinal cord injury.

G Schalow
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Abstract

1. Single-nerve fibre action potentials (APs) were recorded with 2 pairs of wire electrodes from lower sacral nerve roots during surgery in patients with spinal cord injury and in a brain-dead human. Conduction velocity distribution histograms were constructed for afferent and efferent fibres, nerve fibre groups were identified and simultaneous impulse patterns of alpha and gamma-motoneurons and secondary muscle spindle afferents (SP2) were constructed. Temporal relations between afferent and efferent APs were analyzed by interspike interval (II) and phase relation changes to explore the coordinated self-organization of somatic and parasympathetic neuronal networks in the sacral micturition centre during continence functions under physiologic (brain-dead) and pathophysiologic conditions (spinal cord injury). 2. In a paraplegic with hyperreflexia of the bladder, urinary bladder stretch (S1) and tension receptor afferents (ST) fired already when the bladder was empty, and showed a several times higher bladder afferent activity increase upon retrograde bladder filling than observed in the brain-dead individual. Two alpha2-motoneurons (FR) innervating the external bladder sphincter were already oscillatory firing to generate high activity levels when the bladder was empty. They showed activity levels with no bladder filling, comparable to those measured at a bladder filling of 600 ml in the brain-dead individual. A bladder storage volume of 600 ml was thus lost in the paraplegic, due to a too high bladder afferent input to the sacral micturition center, secondary to inflammation and hypertrophy of the detrusor. 3. In a brain-dead human, 2 phase relations existed per oscillation period of 160 ms between the APs of a sphincteric oscillatory firing alpha2-motoneuron, a dynamic fusimotor and a secondary muscle spindle afferent fibre. Following stimulation of mainly somatic afferent fibres, the phase relations changed only little. 4. In a paraplegic with dyssynergia of the urinary bladder also 2 phase relations (less stable) existed per oscillation period of 110 ms in a functional unit between the APs of a sphincteric alpha-motoneuron, a fusimotor and a secondary spindle afferent fibre. The phase relations changed with time following stimulation of mainly somatic afferents. A second functional unit organized by phase related interactions was phase related to the first functional unit. 5. Following painful bladder catheter pulling, the parasympathetic division was transiently activated several times in the paraplegic. At times of activation of the parasympathetic division, 3 broad phase relations occurred within and between the two functional units, indicating that the parasympathetic division in the sacral micturition and defecation center channeled an additional input to the somatic oscillatory firing neuronal networks driving motoneurons which innervate the external bladder and/or anal sphincters. 6. It is conceivable that the mutual inhibitory action of detrusor and external bladder sphincter has the capacity to recover, if the functional neuronal organization of the sacral micturition center is improved in the direction of more stable phase relations between the firings of neurons and neuronal ensembles by natural coordinated afferent inputs from continence organs, supraspinal neurons, and functionally connected neuronal networks. For supraspinal control and improvement of neuronal organization some kinds of bulbo-spinal-bulbo pathways have to exist or to be reconstructed by regeneration. 7. It will be shown in a following article that the sacral micturition centre can be repaired after spinal cord injury by a functional reorganization and limited regeneration of the human spinal cord by administering coordination dynamics therapy.

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脑死亡患者与脊髓损伤患者失禁时骶排尿中枢α、γ运动神经元与肌纺锤体传入神经放电的相位变化
1. 在脊髓损伤患者和脑死亡患者手术过程中,用2对骶下神经根丝电极记录单神经纤维动作电位(APs)。构建传入和传出纤维的传导速度分布直方图,识别神经纤维群,构建α、γ -运动神经元和次级肌纺锤体传入神经(SP2)的同步脉冲模式。通过峰间间隔(II)和相位关系变化分析传入和传出ap的时间关系,探讨生理(脑死亡)和病理生理(脊髓损伤)条件下失禁时骶部排尿中枢体细胞和副交感神经网络的协调自组织。2. 在膀胱反射亢进的截瘫患者中,膀胱伸展(S1)和张力受体传入神经(ST)在膀胱空时就已经激活,膀胱逆行充盈时膀胱传入神经活动的增加比脑死亡患者高几倍。当膀胱空时,支配膀胱外括约肌的两个α 2运动神经元(FR)已经振荡放电,产生高水平的活动。在没有膀胱充盈的情况下,他们的活动水平与脑死亡个体膀胱充盈600毫升时的活动水平相当。由于继发于炎症和逼尿肌肥大的骶骨排尿中枢的膀胱传入输入过高,截瘫患者的膀胱存储容量因此损失了600毫升。3.在脑死亡的人体中,在160 ms的振荡周期内,括约肌振荡放电α - 2运动神经元、动态梭状运动神经元和次级肌纺锤体传入纤维的ap存在2相关系。在主要刺激体细胞传入纤维后,相位关系变化不大。4. 在膀胱协同功能障碍的截瘫患者中,在功能单元中,每110 ms振荡周期内,括约肌α运动神经元、纺锤运动神经元和次级纺锤传入纤维的ap之间也存在2相关系(不太稳定)。以躯体传入刺激为主后,相位关系随时间变化。由阶段相关的相互作用组织的第二个功能单元与第一个功能单元相关联。5. 截瘫患者在拔膀胱导管疼痛后,副交感神经分裂短暂激活数次。当副交感神经分裂被激活时,两个功能单元内部和之间发生3个宽相关系,表明骶部排便中心的副交感神经分裂向躯体振荡放电神经元网络输送额外的输入,这些神经元驱动支配外膀胱和/或肛门括约肌的运动神经元。6. 可以想象,如果通过自制器官、棘上神经元和功能连接的神经元网络的自然协调传入输入,使骶骨排尿中枢的功能神经元组织朝着神经元放电和神经元集合之间更稳定的相位关系的方向改善,逼尿肌和膀胱外括约肌的相互抑制作用是有能力恢复的。为了控制和改善椎管上神经元的组织,必须存在一些球-脊髓-球通路或通过再生重建。7. 在接下来的文章中,我们将会看到骶排尿中心可以在脊髓损伤后通过功能重组和有限的脊髓再生来修复。
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