The Chula Soft Cadaver Surgical Training Center and Department of Anatomy, Faculty of Medicine, Chulalongkorn University and King Chulalongkorn Memorial Hospital, 1873 Rama 4 Road, Pathumwan, Bangkok 10330, Thailand.
Eur J Obstet Gynecol Reprod Biol. 2013 Feb;166(2):221-5. doi: 10.1016/j.ejogrb.2012.10.038. Epub 2012 Dec 4.
It is important to understand the underlying mechanisms of the physiological framework of the pelvic organ support system to develop more effective interventions. Developing more successful interventions for restoration of defects of the pelvic floor will lead to symptomatic improvement of pelvic floor prolapse and stress incontinence disorders. The purpose of the current study was to investigate the physiological framework related to the pelvic organ support system and propose the underlying mechanisms of pelvic organ support based on the anatomical findings.
Ten female soft embalmed cadavers were dissected after a colorectal hands-on workshop to visualize components of the pelvic organ support system.
The puborectalis attached at the superior pubic ramus above the arcus tendineus fasciae pelvis. The anterior half of the iliococcygeus originated at the level of the arcus tendineus fasciae pelvis but descended from the arcus tendineus fasciae pelvis before it reached the ischial spine. The fibrous visceral sheath of the endopelvic fascia covered both the bladder and the upper vagina and bound these structures together. The levator ani muscle was separated into a horizontal and a vertical part at the medial attachment of the fibrous visceral sheath. A well-circumscribed adipose cushion pillow, in the ischioanal fossa and its anterior recess, supported the horizontal part of the levator ani muscle and pressed the vertical part against the pelvic viscera. Perivascular sheaths and pelvic nerve plexuses were reinforced by condensed endopelvic fascia, they suspended the pelvic organs posterolaterally.
The pelvic organ support framework consists of two mechanical structures: (1) the supporting system of the levator ani muscle, the arcus tendineus fasciae pelvis and the adipose cushion pillow, and (2) the suspension system of the neurovascular structures and the associated endopelvic fascia condensation.
了解盆腔器官支撑系统的生理框架的潜在机制对于开发更有效的干预措施非常重要。开发更成功的盆底缺陷修复干预措施将导致盆底脱垂和压力性尿失禁症状的改善。本研究的目的是探讨与盆腔器官支撑系统相关的生理框架,并根据解剖学发现提出盆腔器官支撑的潜在机制。
10 名女性软组织防腐尸体在参加肛肠实践工作坊后进行解剖,以可视化盆腔器官支撑系统的组成部分。
肛提肌附着于耻骨弓上方的耻骨支。髂尾肌的前半部分起源于骨盆腱弓水平,但在到达坐骨棘之前,从骨盆腱弓下降。内盆腔筋膜的纤维内脏鞘覆盖膀胱和阴道上段,并将这些结构固定在一起。肛提肌在纤维内脏鞘的内侧附着处分为水平部和垂直部。坐骨直肠窝及其前隐窝内有一个界限清楚的脂肪垫,支撑肛提肌的水平部,并将垂直部压向盆腔内脏。血管周围鞘和盆腔神经丛被浓缩的内盆腔筋膜加固,它们将盆腔器官向侧后悬吊。
盆腔器官支撑框架由两个机械结构组成:(1)肛提肌的支撑系统,包括骨盆腱弓和脂肪垫;(2)神经血管结构及其相关内盆腔筋膜浓缩的悬吊系统。
