Matthew D. Ruff scite author profile

Objectives-To identify pregnancy-induced changes in biomechanical properties of the vaginal wall and compare these with Fibulin-5 knockout mice (Fbln5 -/-) with and without prolapse.Study Design-Mid-vaginal segments of nonpregnant and late-pregnant wild type (WT), Fbln5 -/-with prolapse, and Fbln5 -/-mice without prolapse were studied. Tissue length at failure, maximal strain, maximal stress, and tissue stiffness were determined.Results-Compared with nonpregnant mice, vaginas of pregnant and Fbln5 -/-(with prolapse) mice exhibited decreased maximal stress, increased distensibility and strain, and decreased stiffness. Tissues from Fbln5 -/-mice without prolapse were similar to nonpregnant WT animals.Conclusions-Pregnancy confers remarkable changes in the vaginal wall including increased distensibility and decreased stiffness and maximal stress. Elastinopathy alone is insufficient to cause significant changes in these properties, but prolapse confers additional alterations in distensibility and stiffness similar to those observed in pregnancy. These changes may contribute to the poor durability of many restorative surgical procedures for prolapse.

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Biomechanical Comparison of Lasso, Pulvertaft Weave, and Side-by-Side Tendon Repairs

Bidic

Varshney

Ruff

et al. 2009

Plastic and Reconstructive Surgery

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In-plane tip deflection and force achieved with asymmetrical polysilicon electrothermal microactuators

Kolesar

Howard

et al. 2000

Thin Solid Films

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Single- and double-hot arm asymmetrical polysilicon surface micromachined electrothermal microactuators applied to realize a microengine

et al. 2002

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Design and performance of an electrothermal MEMS microengine capable of bi-directional motion

et al. 2004

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Matthew D. Ruff

Biomechanical properties of the vaginal wall: effect of pregnancy, elastic fiber deficiency, and pelvic organ prolapse

Biomechanical Comparison of Lasso, Pulvertaft Weave, and Side-by-Side Tendon Repairs

In-plane tip deflection and force achieved with asymmetrical polysilicon electrothermal microactuators

Single- and double-hot arm asymmetrical polysilicon surface micromachined electrothermal microactuators applied to realize a microengine

Design and performance of an electrothermal MEMS microengine capable of bi-directional motion

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