Florian-Rodriguez Maria E, Hare Adam, Chin Kathryn, Phelan John N, Ripperda Christopher M, Corton Marlene M
Department of Obstetrics and Gynecology, University of Texas Southwestern Medical Center, Dallas, TX.
Department of Obstetrics and Gynecology, University of Texas Southwestern Medical Center, Dallas, TX.
Am J Obstet Gynecol. 2016 Nov;215(5):646.e1-646.e6. doi: 10.1016/j.ajog.2016.06.025. Epub 2016 Jun 22.
Reported rates of gluteal pain after sacrospinous ligament fixation range from 12-55% in the immediate postoperative period and from 4-15% 4-6 weeks postoperatively. The source of gluteal pain often is attributed to injury to the nerve to levator ani or pudendal nerve. The inferior gluteal nerve and other sacral nerve branches have not been examined thoroughly as potential sources of gluteal pain.
The purpose of this study was to further characterize anatomy of the inferior gluteal nerve and other nerves that are associated with the sacrospinous ligament from a combined gluteal and pelvic approach and to correlate findings to sacrospinous ligament fixation.
Dissections were performed in female cadavers that had not been embalmed with gluteal and pelvic approaches. From a pelvic perspective, the closest structure to the superior border of the sacrospinous ligament midpoint was noted, and the sacral nerves that perforated the ventral surface of coccygeus muscle were examined. From a gluteal perspective, the closest distances from ischial spine to the pudendal, inferior gluteal, posterior femoral cutaneous, and sciatic nerves were measured. In addition, the closest distance from the midpoint of sacrospinous ligament to the inferior gluteal nerve and the origin of this nerve were documented. The thickness and height of the sacrospinous ligament at its midpoint were measured. Sacral nerve branches that coursed between the sacrospinous and sacrotuberous ligaments were assessed from both a pelvic and a gluteal approach. Descriptive statistics were used for data analysis.
Fourteen cadavers were examined. From a pelvic perspective, the closest structure to the superior border of sacrospinous ligament at its midpoint was the S3 nerve (median distance, 3 mm; range, 0-11 mm). Branches from S3 and/or S4 perforated the ventral surface of coccygeus muscles in 94% specimens. From a gluteal perspective, the closest structure to ischial spine was the pudendal nerve (median distance, 0 mm; range, 0-9 mm). Median closest distance from inferior gluteal nerve to ischial spine and to the midpoint of sacrospinous ligament was 28.5 mm (range, 6-53 mm) and 31.5 mm (range, 10-47 mm), respectively. The inferior gluteal nerve arose from dorsal surface of combined lumbosacral trunk and S1 nerves in all specimens; a contribution from S2 was noted in 46% of hemipelvises. At its midpoint, the sacrospinous ligament median thickness was 5 mm (range, 2-7 mm), and its median height was 14 mm (range, 3-22 mm). In 85% of specimens, 1 to 3 branches from S3 and/or S4 nerves pierced or coursed ventral to the sacrotuberous ligament and perforated the inferior portion of the gluteus maximus muscle.
Damage to the inferior gluteal nerve during sacrospinous ligament fixation is an unlikely source for postoperative gluteal pain. Rather, branches from S3 and/or S4 that innervate the coccygeus muscles and those coursing between the sacrospinous and sacrotuberous ligaments to supply gluteus maximus muscles are more likely to be implicated. A thorough understanding of the complex anatomy surrounding the sacrospinous ligament, limiting depth of needle penetration into the ligament, and avoiding extension of needle exit or entry point above the upper extent of sacrospinous ligament may reduce nerve entrapment and postoperative gluteal pain.
据报道,骶棘韧带固定术后臀痛发生率在术后即刻为12%-55%,术后4-6周为4%-15%。臀痛的原因通常归因于肛提肌神经或阴部神经损伤。臀下神经和其他骶神经分支作为臀痛的潜在来源尚未得到充分研究。
本研究的目的是通过联合臀侧和盆腔入路进一步描述臀下神经和其他与骶棘韧带相关神经的解剖结构,并将研究结果与骶棘韧带固定术相关联。
在未经防腐处理的女性尸体上采用臀侧和盆腔入路进行解剖。从盆腔角度观察,记录距骶棘韧带中点上缘最近的结构,并检查穿过尾骨肌腹侧面的骶神经。从臀侧角度测量坐骨棘到阴部神经、臀下神经、股后皮神经和坐骨神经的最近距离。此外,记录从骶棘韧带中点到臀下神经的最近距离及其神经起源。测量骶棘韧带中点处的厚度和高度。从盆腔和臀侧入路评估走行于骶棘韧带和骶结节韧带之间的骶神经分支。采用描述性统计进行数据分析。
共检查了14具尸体。从盆腔角度看,距骶棘韧带中点上缘最近的结构是S3神经(中位距离3mm;范围0-11mm)。94%的标本中,S3和/或S4分支穿过尾骨肌腹侧面。从臀侧角度看,距坐骨棘最近的结构是阴部神经(中位距离0mm;范围0-9mm)。臀下神经到坐骨棘和骶棘韧带中点的中位最近距离分别为28.5mm(范围6-53mm)和31.5mm(范围10-47mm)。所有标本中,臀下神经均起自腰骶干和S1神经的背侧面;46%的半骨盆中有S2神经的分支。骶棘韧带中点处的中位厚度为5mm(范围2-7mm),中位高度为14mm(范围3-22mm)。85%的标本中,1-3支S3和/或S4神经分支穿过或走行于骶结节韧带腹侧并穿过臀大肌下部。
骶棘韧带固定术中臀下神经损伤不太可能是术后臀痛的原因。相反,支配尾骨肌的S3和/或S4分支以及走行于骶棘韧带和骶结节韧带之间以供应臀大肌的分支更有可能与术后臀痛有关。深入了解骶棘韧带周围的复杂解剖结构、限制进针进入韧带的深度以及避免针的进出点延伸至骶棘韧带上端以上,可能会减少神经卡压和术后臀痛。
