Role of fibulin-5 insufficiency and prolapse progression on murine vaginal biomechanical function

PDF) Role of fibulin-5 insufficiency and prolapse progression on murine vaginal biomechanical function

Elastic fiber morphology in the subepithelial and muscular layer.

Role of fibulin-5 insufficiency and prolapse progression on murine vaginal biomechanical function

Role of fibulin-5 insufficiency and prolapse progression on murine vaginal biomechanical function

Structural, functional and molecular pathogenesis of pelvic organ prolapse in patient and Loxl1 deficient mice

Articles in 2021 Scientific Reports

Molecular mechanisms of pelvic organ prolapse influenced by FBLN5 via FOSL1/miR-222/MEIS1/COL3A1 axis - ScienceDirect

Analysis of obstetric complications and uterine connective tissue in tenascin-X-deficient humans and mice

Pelvic Organ Support in Animals with Partial Loss of Fibulin-5 in the Vaginal Wall

The mechanism of adipose mesenchymal stem cells to stabilize the immune microenvironment of pelvic floor injury by regulating pyroptosis and promoting tissue repair - ScienceDirect

Molecular mechanisms of pelvic organ prolapse influenced by FBLN5 via FOSL1/miR-222/MEIS1/COL3A1 axis - ScienceDirect

Dysfunction in elastic fiber formation in fibulin-5 null mice abrogates the evolution in mechanical response of carotid arteries during maturation

Differential cell-matrix mechanoadaptations and inflammation drive regional propensities to aortic fibrosis, aneurysm or dissection in hypertension

Molecular mechanisms of pelvic organ prolapse influenced by FBLN5 via FOSL1/miR-222/MEIS1/COL3A1 axis - ScienceDirect