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The vascular and neuronal composition of the lateral ligament of the rectum and the rectosacral fascia (1991)

Sato, K ; Sato, T

Springer

Surgical and radiologic anatomy 13 (1991), S. 17-22

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ISSN: 1279-8517

Keywords: Lateral and posterior ligaments of the rectum ; Middle rectal vessels ; Pelvic splanchnic nerves ; Rectosacral fascia ; Macroscopic anatomy

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Résumé La dissection de 83 hémibassins provenant de 45 cadavres a été réalisée pour préciser la structure du ligament latéral du rectum et du fascia recto sacré. L'artère rectale moyenne (ARM) a été observée seulement sur 18 specimens (22,2 %). Le ligament latéral du rectum a été divisé en portion latérale et médiale, en fonction des rapports topographiques avec le plexus pelvien. La partie latérale présente une portion antérosupérieure contenant l'ARM et une portion postéro-inférieure contenant les nerfs splanchniques pelviens (NSP). Ces deux composants (ARM et NSP) contribuent à la formation de la partie médiale bien que les vaisseaux rectaux moyens ne soient pas toujours présents. La partie médiale répond aux branches rectales du plexus pelvien et à leurs tissus conjonctifs environnants. Le fascia sacro-rectal est formé de tissu conjonctif dense, tendu de la paroi postérieure du rectum aux 3e et 4e vertèbres sacrées. Les principaux composants de ce fascia sont les branches latérales et médiales des vaisseaux sacrés et les nerfs splanchniques sacrés arrivant directement des ganglions sympathiques sacrés.

Notes: Summary Detailed dissections were performed on 83 pelvic halves from 45 cadavers in order to obtain more accurate data on the composition of the lateral ligament of the rectum and the rectosacral fascia. The middle rectal artery was observed in only 18 out of 81 spcimens (22.2%). The lateral ligament of the rectum was divided into lateral and medial portions, according to the positional relationship to the pelvic plexus. The lateral part consisted of a superoanterior and an inferoposterior subdivision. The main component of the former was the middle rectal artery, while the pelvic splanchnic nerves were contained in the latter. Both components can be considered to contribute to the formation of the medial part, although the middle rectal vessels were not always present. The medial part consisted of the rectal branches from the pelvic plexus and their connective tissue. The rectosacral fascia was formed by dense connective tissue between the posterior wall of the rectum and the third and fourth sacral vertebrae. The main components of the fascia were branches of the lateral and median sacral vessels and the sacral splanchnic nerves which arose directly from the sacral sympathetic ganglia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01623135

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Ionic basis of methacholine-induced shrinkage of dissociated eccrine clear cells (1991)

Suzuki, Y. ; Ohtsuyama, M. ; Samman, G. ; [et al.]

Springer

The journal of membrane biology 123 (1991), S. 33-41

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ISSN: 1432-1424

Keywords: eccrine ; sweat gland ; cell volume ; cholinergic ; Ca ; potassium ; chloride ; channels ; quinidine

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The goal of the present study was to elucidate the ionic mechanisms by which cholinergic stimulation induces cell shrinkage in eccrine clear cells. Dissociated Rhesus monkey eccrine sweat clear cells were prepared by collagenase digestion of freshly isolated secretory coils and immobilized on a glass slide in a perfusion chamber at 30°C. The cell was visualized by light microscopy with differential interference contract (DIC) and was recorded with a video system (15,000× total magnification). The cell volume was calculated from the maximal cross section of the cell. Methacholine (MCh)-induced cell shrinkage, which was as much as 30% of resting cell volume, was dose dependent and pharmacologically specific. MCh-induced cell shrinkage was persistent in some cells but tended to partially wane with time in others. MCh-induced cell shrinkage was dependent on the chemical potential gradient for KCl, i.e., increasing [K] in the bath ([K] o ) from 5 to 120mm caused MCh to induce cell swelling, whereas removing [Cl] o at 120mm K partially restored the MCh-induced cell shrinkage. The interpolated null [K] o (medium [K] where the cell volume did not change by MCh) of 71mm agreed with the predicted [K] o,null. MCh-induced cell shrinkage was inhibited completely by 1mm quinidine (K-channel blocker) and partially by 1mm diphenylamine-2-carboxylic acid (DPC, a Cl-channel blocker), but not by 0.1mm ouabain or 0.1mm bumetanide, suggesting that MCh-induced cell shrinkage may be due to activation of both K and Cl channels with the resultant net KCl efflux down the chemical potential gradient. That Ca/calmodulin may be involved in cholinergic regulation of Cl and K channels is suggested because 10 μm ionomycin also induced cell shrinkage, MCh failed to induce cell shrinkage in a Ca-free medium after the endogenous Ca store was depleted, and (6-aminohexyl)-5-chlorol-naphthalenesulfonamide (W-7, a putative inhibitor of calmodulin) also inhibited MCh-induced cell shrinkage in a reversible manner.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01993960

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