Amerikanische Gesellschaft für Hirudotherapie

Development of a VEGF-activated scaffold with enhanced angiogenic and neurogenic properties for chronic wound healing applications

Research article published in Biomaterials science (2025)

Zuletzt aktualisiert: June 18, 2026Geprüft von: ASH Editorial Board
Research article — evidence reviewArticle reference
Evidence: Research reportKlinische StudienPalomeque et al. · Biomaterials science, 2025

Abstract

Chronic wounds remain in a state of disrupted healing, impeding neurite outgrowth from injured nerves and poor development of new blood vessels by angiogenesis. Current therapeutic approaches primarily focus on the restoration of vascularization and overlook the need of nerve regeneration for complete healing. Vascular endothelial growth factor (VEGF) is a critical growth factor supporting angiogenesis in wound healing, promoting vascularization and has also demonstrated neuro-protective capabilities in both central and peripheral nervous system. While the delivery of pro-regenerative recombinant growth factors has shown promise, gene delivery offers greater stability, reduced off-target side effects, diminished cytotoxicity, and lower production costs. In this context, the overarching goal of this study was to develop a VEGF-activated scaffold with the potential to provide a multifaceted response that enhances both angiogenesis and nerve repair in wound healing through the localized delivery of plasmid encoding VEGF (pVEGF) encapsulated within the GET peptide system. Initially, delivery of pVEGF/GET nanoparticles to dermal fibroblasts led to higher VEGF protein expression without a compromise in cell viability. Transfection of dermal fibroblasts and endothelial cells on the VEGF-activated scaffolds resulted in enhanced VEGF expression, improved endothelial cell migration and organization into vascular-like structures. Finally, the VEGF-activated scaffolds consistently displayed enhanced neurogenic ability through improved neurite outgrowth from neural cells in in vitro and ex vivo models. Taken together, the VEGF-activated scaffold demonstrates multifaceted outcomes through the induction of pro-angiogenic and neurogenic responses from dermal, vascular and neural cells, illustrating the potential of this platform for the healing of chronic wounds.

Abstract sourced from PubMed (NCBI) for the cited record. See the original publication for the authoritative version.

Publication typeJournal Article
Indexed MeSH termsVascular Endothelial Growth Factor AWound HealingHumansNeovascularization, PhysiologicAnimalsTissue ScaffoldsFibroblastsNeurogenesisHuman Umbilical Vein Endothelial CellsCells, CulturedCell Survival

Zusammenfassung

Peer-reviewed clinical and outcomes research relevant to medicinal leech therapy and its biology. Indexed in PubMed and verified against the NCBI record.

Warum dies für die Hirudotherapie relevant ist

Informs the clinical evidence base around leech therapy, anticoagulation, and microsurgical flap management.

Zitation

Development of a VEGF-activated scaffold with enhanced angiogenic and neurogenic properties for chronic wound healing applications.

Palomeque et al. · Biomaterials science, 2025

Verwandter klinischer Kontext

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