Astellas Pharma Incorporated, Tsukuba, Japan.
Am J Physiol Regul Integr Comp Physiol. 2012 Oct 1;303(7):R737-47. doi: 10.1152/ajpregu.00004.2012. Epub 2012 Aug 8.
The urethrogenital reflex (UGR) is used as a surrogate model of the autonomic and somatic nerve and muscle activity that accompanies ejaculation. The UGR is evoked by distension of the urethra and activation of penile afferents. The current study compares two methods of elevating urethral intraluminal pressure in spinalized, anesthetized male Sprague-Dawley rats (n = 60). The first method, penile extension UGR, involves extracting the penis from the foreskin, so that urethral pressure rises due to a natural anatomical flexure in the penis. The second method, penile clamping UGR, involves penile extension UGR with the addition of clamping of the glans penis. Groups of animals were prepared that either received no additional treatment, surgical shams, or received bilateral nerve cuts (4 nerve cut groups): either the pudendal sensory nerve branch (SbPN), the pelvic nerves, the hypogastric nerves, or all three nerves. Penile clamping UGR was characterized by multiple bursts, monitored by electromyography (EMG) of the bulbospongiosus muscle (BSM) accompanied by elevations in urethral pressure. The penile clamping UGR activity declined across multiple trials and eventually resulted in only a single BSM burst, indicating desensitization. In contrast, the penile extension UGR, without penile clamping, evoked only a single BSM EMG burst that showed no desensitization. Thus, the UGR is composed of two BSM patterns: an initial single burst, termed urethrobulbospongiosus (UBS) reflex and a subsequent multiple bursting pattern (termed ejaculation-like response, ELR) that was only induced with penile clamping urethral occlusion. Transection of the SbPN eliminated the ELR in the penile clamping model, but the single UBS reflex remained in both the clamping and extension models. Pelvic nerve (PelN) transection increased the threshold for inducing BSM activation with both methods of occlusion but actually unmasked an ELR in the penile extension method. Hypogastric nerve (HgN) cuts did not significantly alter any parameter. Transection of all three nerves eliminated BSM activation completely. In conclusion, penile clamping occlusion recruits penile and urethral primary afferent fibers that are necessary for an ELR. Urethral distension without significant penile afferent activation recruits urethral primary afferent fibers carried in either the pelvic or pudendal nerve that are necessary for the single-burst UBS reflex.
尿道生殖反射 (UGR) 被用作伴随射精的自主和躯体神经和肌肉活动的替代模型。UGR 通过尿道扩张和阴茎传入纤维的激活来诱发。本研究比较了两种在脊髓麻醉雄性 Sprague-Dawley 大鼠(n = 60)中升高尿道内压的方法。第一种方法是阴茎伸展 UGR,涉及从包皮中提取阴茎,因此由于阴茎的自然解剖弯曲,尿道压力升高。第二种方法是阴茎夹 UGR,涉及阴茎伸展 UGR 加上龟头的夹闭。准备了接受以下处理的动物组:未接受任何额外处理、手术假手术或接受双侧神经切断(4 神经切断组):阴部感觉神经分支(SbPN)、骨盆神经、下腹神经或所有 3 条神经。阴茎夹 UGR 的特征是多个爆发,通过球海绵体肌(BSM)的肌电图(EMG)监测,伴随着尿道压力升高。随着多次试验的进行,阴茎夹 UGR 活动逐渐减少,最终仅导致单个 BSM 爆发,表明脱敏。相比之下,没有阴茎夹闭的阴茎伸展 UGR 仅引起单个 BSM EMG 爆发,没有脱敏。因此,UGR 由两种 BSM 模式组成:初始的单个爆发,称为尿道球海绵体肌(UBS)反射,以及随后的多个爆发模式(称为射精样反应,ELR),仅在阴茎夹闭尿道闭塞时诱发。切断 SbPN 消除了阴茎夹闭模型中的 ELR,但单 UBS 反射在夹闭和伸展模型中仍然存在。切断骨盆神经(PelN)增加了两种闭塞方法引起 BSM 激活的阈值,但实际上在阴茎伸展方法中揭示了 ELR。下腹神经(HgN)切断并没有显著改变任何参数。切断所有 3 条神经完全消除了 BSM 激活。总之,阴茎夹闭闭塞募集阴茎和尿道初级传入纤维,这些纤维对于 ELR 是必要的。没有明显的阴茎传入激活的尿道扩张募集了在骨盆或阴部神经中携带的尿道初级传入纤维,这些纤维对于单个爆发的 UBS 反射是必要的。
