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Engineered Platelet‐Derived Growth Factor‐Releasing Hydrogels Promote Fetal Membrane Healing In Vivo

Avilla‐Royo, Eva; Vonzun, Ladina; Seehusen, Frauke; Vallmajo‐Martin, Queralt; Famos, Flurina; Moser, Lukas; Gegenschatz‐Schmid, Katharina; Krattiger, Lisa Amanda; Strübing, Nele; Weisskopf, Miriam; Moehrlen, Ueli; Ochsenbein‐Kölble, Nicole; Ehrbar, Martin (2023). Engineered Platelet‐Derived Growth Factor‐Releasing Hydrogels Promote Fetal Membrane Healing In Vivo. Advanced Functional Materials, 33(9):2208910.

Abstract

Fetoscopic interventions to treat fetal anomalies are currently performed for a variety of conditions. Depending on the procedure, preterm rupture of the fetal membranes (FMs) happens in around 30% of the cases, potentially leading to preterm birth and fetal morbidity and mortality. Here, the capacity of modular transglutaminase crosslinked poly(ethylene glycol) (TG‐PEG) hydrogels that release platelet‐derived growth factor (PDGF)‐BB to promote FM healing is described. In vitro, such growth factor‐loaded hydrogels are able to stimulate amniotic cell migration and proliferation. When applied in vivo, these TG‐PEG hydrogels tightly seal the FM and uterus defects created by a fetoscope and remain stable for 10 days. The migration of healing‐related cells into such hydrogels in the myometrium, endometrium, and FM areas is only possible in soft TG‐PEG hydrogels. Importantly, bioengineered hydrogels releasing PDGF‐BB promote recruitment of host cells from the myometrium and the endometrium, and to a lesser extent from FM areas. In such hydrogels, the potent proliferation and matrix production of the recruited cells at the site of treatment into the biomaterial initiates a robust early healing response. PDGF‐BB‐loaded TG‐PEG hydrogels hold great promise for the treatment of fetoscopy‐induced FM defects and for the prevention of preterm birth.

Additional indexing

Item Type:Journal Article, refereed, original work
Communities & Collections:04 Faculty of Medicine > University Hospital Zurich > Clinic for Obstetrics
Dewey Decimal Classification:610 Medicine & health
Scopus Subject Areas:Physical Sciences > Electronic, Optical and Magnetic Materials
Physical Sciences > General Chemistry
Physical Sciences > Biomaterials
Physical Sciences > General Materials Science
Physical Sciences > Condensed Matter Physics
Physical Sciences > Electrochemistry
Uncontrolled Keywords:Electrochemistry, Condensed Matter Physics, Biomaterials, Electronic, Optical and Magnetic Materials
Language:English
Date:23 February 2023
Deposited On:09 Jan 2024 14:18
Last Modified:30 Dec 2024 02:53
Publisher:Wiley-Blackwell Publishing, Inc.
ISSN:1616-301X
OA Status:Closed
Publisher DOI:https://doi.org/10.1002/adfm.202208910
Project Information:
  • Funder: UniversitätsSpital Zürich
  • Grant ID:
  • Project Title:

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