Although the underlying mechanisms of pelvic organ prolapse (POP) remain unknown, disruption of elastic fiber metabolism within the vaginal wall extracellular matrix (ECM) has been highly implicated. It has been hypothesized that elastic fiber fragmentation correlates to decreased structural integrity and increased risk of prolapse; however, the mechanisms by which elastic fiber damage may contribute to prolapse are poorly understood. Furthermore, the role of elastic fibers in normal vaginal wall mechanics has not been fully ascertained. Therefore, the objective of this study is to investigate the contribution of elastic fibers to murine vaginal wall mechanics. Vaginal tissue from C57BL/6 female mice was mechanically tested using biaxial extension–inflation protocols before and after intraluminal exposure to elastase. Elastase digestion induced marked changes in the vaginal geometry, and biaxial mechanical properties, suggesting that elastic fibers may play an important role in vaginal wall mechanical function. Additionally, a constitutive model that considered two diagonal families of collagen fibers with a slight preference toward the circumferential direction described the data reasonably well before and after digestion. The present findings may be important to determine the underlying structural and mechanical mechanisms of POP, and aid in the development of growth and remodeling models for improved assessment and prediction of changes in structure–function relationships with prolapse development.
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February 2019
Research-Article
Effects of Elastase Digestion on the Murine Vaginal Wall Biaxial Mechanical Response
Akinjide R. Akintunde,
Akinjide R. Akintunde
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: aakintun@tulane.edu
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: aakintun@tulane.edu
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Kathryn M. Robison,
Kathryn M. Robison
Mem. ASME
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: krobison@tulane.edu
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: krobison@tulane.edu
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Daniel J. Capone,
Daniel J. Capone
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: dcapone@tulane.edu
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: dcapone@tulane.edu
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Laurephile Desrosiers,
Laurephile Desrosiers
Department of Female Pelvic Medicine
and Reconstructive Surgery,
UQ Ochsner Clinical School,
New Orleans, LA 70121
e-mail: laurephile.desrosiers@ochsner.org
and Reconstructive Surgery,
UQ Ochsner Clinical School,
1514 Jefferson Highway
,New Orleans, LA 70121
e-mail: laurephile.desrosiers@ochsner.org
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Leise R. Knoepp,
Leise R. Knoepp
Department of Female Pelvic Medicine
and Reconstructive Surgery,
UQ Ochsner Clinical School,
New Orleans, LA 70121
e-mail: lknoepp@ochsner.org
and Reconstructive Surgery,
UQ Ochsner Clinical School,
1514 Jefferson Highway
,New Orleans, LA 70121
e-mail: lknoepp@ochsner.org
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Kristin S. Miller
Kristin S. Miller
Mem. ASME
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: kmille11@tulane.edu
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: kmille11@tulane.edu
Search for other works by this author on:
Akinjide R. Akintunde
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: aakintun@tulane.edu
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: aakintun@tulane.edu
Kathryn M. Robison
Mem. ASME
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: krobison@tulane.edu
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: krobison@tulane.edu
Daniel J. Capone
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: dcapone@tulane.edu
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: dcapone@tulane.edu
Laurephile Desrosiers
Department of Female Pelvic Medicine
and Reconstructive Surgery,
UQ Ochsner Clinical School,
New Orleans, LA 70121
e-mail: laurephile.desrosiers@ochsner.org
and Reconstructive Surgery,
UQ Ochsner Clinical School,
1514 Jefferson Highway
,New Orleans, LA 70121
e-mail: laurephile.desrosiers@ochsner.org
Leise R. Knoepp
Department of Female Pelvic Medicine
and Reconstructive Surgery,
UQ Ochsner Clinical School,
New Orleans, LA 70121
e-mail: lknoepp@ochsner.org
and Reconstructive Surgery,
UQ Ochsner Clinical School,
1514 Jefferson Highway
,New Orleans, LA 70121
e-mail: lknoepp@ochsner.org
Kristin S. Miller
Mem. ASME
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: kmille11@tulane.edu
Department of Biomedical Engineering,
Lindy Boggs Center Suite 500,
Tulane University,
New Orleans, LA 70118
e-mail: kmille11@tulane.edu
1Corresponding author.
Manuscript received April 10, 2018; final manuscript received October 31, 2018; published online December 12, 2018. Assoc. Editor: Thao (Vicky) Nguyen.
J Biomech Eng. Feb 2019, 141(2): 021011 (11 pages)
Published Online: December 12, 2018
Article history
Received:
April 10, 2018
Revised:
October 31, 2018
Citation
Akintunde, A. R., Robison, K. M., Capone, D. J., Desrosiers, L., Knoepp, L. R., and Miller, K. S. (December 12, 2018). "Effects of Elastase Digestion on the Murine Vaginal Wall Biaxial Mechanical Response." ASME. J Biomech Eng. February 2019; 141(2): 021011. https://doi.org/10.1115/1.4042014
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