Zeliha Güler scite author profile

Women with pelvic organ prolapse (POP) have bothersome complaints that significantly affect their quality of life. While native tissue repair is associated with high recurrence rates, polypropylene knitted implants have caused specific implant-related adverse events that have detrimental, often irreversible, effects. We hypothesize that surgical outcome can be improved with a tissue-engineered solution using an absorbable implant that mimics the natural extracellular matrix (ECM) structure, releases estrogen, and activates collagen metabolism by fibroblasts as the main regulators of wound healing. To this aim, we produced electrospun poly-4-hydroxybutyrate (P4HB) scaffolds and biofunctionalized them with estradiol (E2). The cell–implant interactions relevant for POP repair were assessed by seeding primary POP vaginal fibroblasts isolated from patients on electrospun P4HB scaffolds with 1%, 2%, or 5% E2 and without E2. To test our hypothesis on whether ECM mimicking structures should improve regeneration, electrospun P4HB was compared to knitted P4HB implants. We evaluated vaginal fibroblast proliferation, ECM deposition, and metabolism by quantification of collagen, elastin, and matrix metalloproteinases and by gene expression analysis for 28 days. We established effective E2 drug loading with a steady release over time. Significantly higher cell proliferation, collagen-, and elastin deposition were observed on electrospun P4HB scaffolds as compared to knitted P4HB. For this study, physical properties of the scaffolds were more determinant on the cell response than the release of E2. These results indicate that making these electrospun P4HB scaffolds E2-releasing appears to be technically feasible. In addition, electrospun P4HB scaffolds promote the cellular response of vaginal fibroblasts and further studies are merited to assess if their use results in improved surgical outcomes in case of POP repair.

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The effects of oestrogen on vaginal wound healing: A systematic review and meta‐analysis

Vodegel

Kastelein

Jansen

et al. 2021

Neurourology and Urodynamics

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Aims: To determine the effects of oestrogen or oestrogen deprivation on vaginal wound healing. Impaired wound healing following prolapse surgery may increase the risk of recurrent prolapse in the future. Vaginal oestrogen therapy may improve wound healing, hereby possibly improving surgical outcomes.Methods: A systematic search of OVID MEDLINE, OVID Embase, and Web of Science was conducted up to January 28, 2020. We included original studies comparing wound healing-related outcomes of oestrogen exposed subjects (female animals and women) to hypo-oestrogenic subjects after vaginal surgery. Data on wound healing-related outcome measures were extracted. For each individual comparison, the standardised mean difference (Hedges' g; SMD) and 95% confidence interval (CI) were calculated.Results: Of the 1474 studies reviewed, 14 studies were included for review, and 11 provided data for meta-analysis. Oestrogen improves neovascularisation (SMD: 1.13, 95% CI: 0.67-1.60), microscopic wound closure (SMD: 0.98, 95% CI: 0.66-1.29), collagen synthesis (SMD: 1.08, 95% CI: 0.42-1.74), and tissue strength (SMD: 1.26, 95% CI: 0.53-1.99) in animals. Oestrogen increases granulation (SMD: 1.67, 95% CI: 0.54-2.79) and accelerates macroscopic wound closure (SMD: 1.82, 95% CI: 1.22-2.42) in women and animals. Oestrogen decreases the inflammatory response (SMD: −0.58, 95% CI: −1.14 to −0.02) in women and animals and reduces levels of transforming growth

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Polyisocyanides as a substrate to trigger vaginal fibroblast functioning in an in vitro model for prolapse repair

Gudde¹,

Velthoven²,

Roovers³

et al. 2022

Biomaterials Advances

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Zeliha Güler

Absorbable Electrospun Poly-4-hydroxybutyrate Scaffolds as a Potential Solution for Pelvic Organ Prolapse Surgery

The effects of oestrogen on vaginal wound healing: A systematic review and meta‐analysis

Polyisocyanides as a substrate to trigger vaginal fibroblast functioning in an in vitro model for prolapse repair

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