2023
DOI: 10.3390/bioengineering10070790
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Extracellular Matrix-Based and Electrospun Scaffolding Systems for Vaginal Reconstruction

Abstract: Congenital vaginal anomalies and pelvic organ prolapse affect different age groups of women and both have significant negative impacts on patients’ psychological well-being and quality of life. While surgical and non-surgical treatments are available for vaginal defects, their efficacy is limited, and they often result in long-term complications. Therefore, alternative treatment options are urgently needed. Fortunately, tissue-engineered scaffolds are promising new treatment modalities that provide an extracel… Show more

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Cited by 4 publications
(2 citation statements)
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“…Vaginal detachment causes immense psychological and physical suffering to patients; therefore, vaginal reconstruction is necessary. Morphological repair and true functional reconstruction of the vagina are expected to be achieved with the help of 3D bioprinting . Hou C et al prepared a bioink using decellularized vaginal matrix (AVM) to obtain bionic 3D vaginal tissues via 3D-printing technology.…”
Section: Application Of Decm As a Bioink In 3d-printed Tissue Enginee...mentioning
confidence: 99%
See 1 more Smart Citation
“…Vaginal detachment causes immense psychological and physical suffering to patients; therefore, vaginal reconstruction is necessary. Morphological repair and true functional reconstruction of the vagina are expected to be achieved with the help of 3D bioprinting . Hou C et al prepared a bioink using decellularized vaginal matrix (AVM) to obtain bionic 3D vaginal tissues via 3D-printing technology.…”
Section: Application Of Decm As a Bioink In 3d-printed Tissue Enginee...mentioning
confidence: 99%
“…Morphological repair and true functional reconstruction of the vagina are expected to be achieved with the help of 3D bioprinting. 118 Hou C et al 119 prepared a bioink using decellularized vaginal matrix (AVM) to obtain bionic 3D vaginal tissues via 3D-printing technology. The bioink consisted of 15% gelatin and 3% sodium alginate mixed with AVM solution, and rheological analysis, scanning electron microscopy, and HE staining were performed to assess the viscosity, morphology, and biocompatibility of the bioink after configuration.…”
Section: Application Of Decm As a Bioink In 3d-printed Tissue Enginee...mentioning
confidence: 99%