A biomechanical model of the human defecatory system to investigate mechanisms of continence

Stokes, William E.; Jayne, David; Alazmani, Ali

doi:10.1177/0954411918756453

Cited by 5 publications

(1 citation statement)

References 43 publications

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“…There is a general consensus that there is a need for greater understanding of the mechanisms that govern defecation by modeling the relative contributions of colo-recto-anal forces, motility, and motricity and the effects of structural and physiological abnormalities. This could enable identification of disease phenotypes and optimize the management of patients with disorders of defaecation [4,6,[8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Rheology of human faeces and pathophysiology of defaecation

Loubens

Lentle

et al. 2020

Tech Coloproctol

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Background: Rectal evacuation involves multiple mechanisms that are not completely understood. The aim of this study was to quantify the rheologic property, i.e. yield stress, that governs the ease of deformation of a range of faeces of differing consistency and understand its influence on the pathophysiology of defaecation. Methods: Yield stresses of faeces of differing consistencies and Bristol scores were determined by the Vane test. We then explored the effects of this property on ease of defecation using a simple static model of the recto-anal junction based on the laws of flow for yield stress pastes and checked the conclusions by X-ray defaecography experience. Results: The yield stress of faeces increased exponentially with their solid content, from 20 to 8000 Pa. The static model of the recto-anal junction showed that evacuation of faeces of normal consistency and yield stress is possible with moderate dilatation of the anal canal, whilst the evacuation of faeces with higher yield stress requires greater dilatation of the anal canal. X-ray defaecography showed that such increases occurred in vivo. Conclusions: The diameter of the recto-anal junction is increased to enable the passage of feces with high yield stress. The finite limits to such dilation likely contribute to fecal impaction. Hence difficulties in defaecation may result either from unduly high yield stress or pathologies of reflex recto-anal dilatation or a combination of the two.

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