Effects of swelling and anatomical location on the viscoelastic behavior of the porcine urinary bladder wall.

Tyler G. Tuttle, D. McClintock, S. Roccabianca
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Abstract

The ability of the urinary bladder to perform its physiological function depends largely on its mechanical characteristics. Understanding the mechanics of this tissue is crucial to the development of accurate models of not just this specific organ, but of the pelvic floor overall. In this study, we tested porcine bladder to identify variations in the tissue's viscoelastic characteristics associated with anatomical locations and swelling. We investigated this relationship using a series of stress-relaxation experiments as well as a modified Maxwell-Wiechert model to aid in the interpretation of the experimental data. Our results highlight that tissue located near the neck of the bladder presents significantly different viscoelastic characteristics than the body of the organ. This supports what was previously observed and is a valuable contribution to the understanding of the location-specific properties of the bladder. We also tested the effect of swelling, revealing that the bladder's viscoelastic behavior is mostly independent of solution osmolarity in hypoosmotic solutions, but the use of a hyperosmotic solution can significantly affect its behavior. This is significant, since several urinary tract pathologies can lead to chronic inflammation and disrupt the urothelial barrier causing increased urothelial permeability, thus subjecting the bladder wall to non-physiologic osmotic challenge.
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肿胀和解剖位置对猪膀胱壁粘弹性行为的影响。
膀胱执行其生理功能的能力在很大程度上取决于它的机械特性。了解这一组织的机制不仅对这一特定器官,而且对整个骨盆底的精确模型的发展至关重要。在这项研究中,我们测试了猪膀胱,以确定与解剖位置和肿胀相关的组织粘弹性特征的变化。我们使用一系列的应力松弛实验以及修正的Maxwell-Wiechert模型来研究这种关系,以帮助解释实验数据。我们的结果强调,位于膀胱颈部附近的组织呈现出明显不同于器官体的粘弹性特征。这支持了之前的观察结果,并对理解膀胱的位置特异性特性做出了有价值的贡献。我们还测试了肿胀的影响,揭示了膀胱的粘弹性行为在很大程度上与低渗溶液中的溶液渗透压无关,但使用高渗溶液可以显著影响其行为。这是很重要的,因为一些尿路病变可导致慢性炎症和破坏尿路上皮屏障,导致尿路上皮渗透性增加,从而使膀胱壁受到非生理性渗透的挑战。
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