Abstract
Pelvic pain due to chronic pudendal nerve (PN) compression, when treated surgically, is approached with a transgluteal division of the sacrotuberous ligament (STL). Controversy exists as to whether the STL heals spontaneously or requires grafting. Therefore, the aim of this study was to determine how surgically divided and unrepaired STL heal. A retrospective evaluation of 10 patients who had high spatial resolution 3-Tesla magnetic resonance imaging (3T MRI) exams of the pelvis was done using an IRB-approved protocol. Each patient was referred for residual pelvic pain after a transgluteal STL division for chronic pudendal nerve pain. Of the 10 patients, 8 had the STL divided and not repaired, while 2 had the STL divided and reconstructed with an allograft tendon. Of the 8 that were left unrepaired, 6 had bilateral surgery. Outcome variables included STL integrity and thickness. Normative data for the STL were obtained through a control group of 20 subjects. STL integrity and thickness were measured directly on 3 T MR Neurography images, by two independent Radiologists. The integrity and thickness of the post-surgical STL was evaluated 39 months (range, 9–55) after surgery. Comparison was made with the native contra-lateral STL in those who had unilateral STL division, and with normal, non-divided STL of subjects of the control group. The normal STL measured 3 mm (minimum and maximum of absolute STL thickness, 2–3 mm). All post-operative STL were found to be continuous regardless of the surgical technique used. Measured at level of Alcock’s canal in the same plane as the obturator internus tendon posterior to the ischium, the mean anteroposterior STL diameter was 5 mm (range, 4–5 mm) in the group of prior STL division without repair and 8 mm (range, 8–9 mm) in the group with the STL reconstructed with grafts (p<0.05). The group of healed STLs were significantly thicker than the normal STL (p<0.05). We conclude that a surgically divided STL will heal spontaneously and will be significantly thicker after healing.
Highlights
For the most well-described peripheral nerve entrapment, the median nerve in the carpal tunnel, it has been demonstrated, with CT imaging that the transverse carpal ligament reforms after carpal tunnel release, but that the overall volume of the carpal tunnel is increased [1]
In order to improve the outcome for neurolysis of the pudendal nerve (PN) in the region of the sacrotuberous ligament (STL), it is important to understand the pathophysiology and anatomic relationships of the STL to the PN and the effects of dividing the STL upon the PN morphology
These relationships have not been described utilizing 3-Tesla MR Neurography correlated with intra-operative views of the STL
Summary
For the most well-described peripheral nerve entrapment, the median nerve in the carpal tunnel, it has been demonstrated, with CT imaging that the transverse carpal ligament reforms after carpal tunnel release, but that the overall volume of the carpal tunnel is increased [1]. In order to improve the outcome for neurolysis of the PN in the region of the STL, it is important to understand the pathophysiology and anatomic relationships of the STL to the PN and the effects of dividing the STL upon the PN morphology These relationships have not been described utilizing 3-Tesla MR Neurography correlated with intra-operative views of the STL. Attempts to reconstruct the transverse carpal ligament have been included in the neurolysis of the median nerve to prevent pillar pain [12, 13], and attempts have been reported to reconstruct the STL following pudendal neurolysis [14, 15]. The aim of this study was to determine how surgically divided and unrepaired STL heal
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