Wound Healing and Treatments Open access Peer reviewed

Buddleja globosa Extract-Enriched Gelatin–Chitosan–Hyaluronic Acid Scaffold Biocomposite Exhibits Enhanced Angiogenesis and Dermal Tissue Organization in a Chronic Wound Model

Ricardo A. Ceriani F, Miguel A. Fuentes-Chandia, Tania Bahamondez‐Canas, Donald D. Brown and 6 more

ACS Omega | Jun 15, 2026

Abstract

Abstract

High Resolution Image Download MS PowerPoint Slide Background: Chronic wounds represent a significant clinical challenge due to impaired healing and persistent inflammation. Bioactive scaffolds made from natural polymers combined with the hydroalcoholic extract of Buddleja globosa have emerged as promising alternatives for promoting effective tissue regeneration. Methods: A biocomposite scaffold composed of gelatin, chitosan, and hyaluronic acid, incorporating B. globosa extract, was fabricated. The material was evaluated for its physicochemical properties, biocompatibility with human neonatal dermal fibroblasts, and regenerative capacity in a chronic ischemic wound model in aged rats. Results: The composite exhibited a uniform, porous structure with an average pore size of approximately 200 μm and a high swelling capacity (>3000%) while preserving viscoelasticity with slight mechanical softening, thereby supporting optimal conditions for cell infiltration and exudate retention. The scaffold supported fibroblasts’ adhesion and proliferation, showing good biocompatibility. Formulations containing 0.04 and 0.08 mg/mL B. globosa extract significantly increased fibroblast viability at 14 days. Additionally, fibroblasts cultured on the biocomposite showed elevated secretion of proangiogenic vascular endothelial growth factor (VEGF) and CXC motif chemokine ligand 12 (CXCL12), compared to fibroblast monolayer cultures. In vivo, histological analysis revealed enhanced vascularization and reduced epithelial hyperplasia in wounds treated with the biocomposite, suggesting better tissue organization and maturation. Conclusion: Incorporating B. globosa extract into a gelatin–chitosan–hyaluronic acid scaffold offers bioactive properties that support angiogenesis and skin tissue regeneration. These results highlight the biocomposite’s potential as a multifunctional biomaterial with translational relevance for chronic wound therapy.

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Authors

Researchers on this paper

Ricardo A. Ceriani F

first | Valparaiso University | ORCID 0009-0005-5789-7490

Miguel A. Fuentes-Chandia

middle | Skeletal Dynamics (United States)

Tania Bahamondez‐Canas

middle | Valparaiso University | ORCID 0000-0002-3261-466X

Donald D. Brown

middle | Valparaiso University

Paulina A. Puebla

middle | Valparaiso University | ORCID 0009-0008-1050-1358

Enzo E. Seguel

middle | Valparaiso University | ORCID 0009-0006-7174-7664

Leticia A. Toledo

middle | Valparaiso University | ORCID 0009-0000-0457-7454

Rodrigo Segura

middle | Valparaiso University | ORCID 0000-0003-0928-0021

Carlos Henríquez‐Roldán

middle | Viña del Mar University | ORCID 0000-0001-6616-1243

Caroline Weinstein‐Oppenheimer

last | Valparaiso University | ORCID 0000-0001-5435-2587

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Citation

BibTeX

@article{F2026Buddleja,
  title = {Buddleja globosa Extract-Enriched Gelatin–Chitosan–Hyaluronic Acid Scaffold Biocomposite Exhibits Enhanced Angiogenesis and Dermal Tissue Organization in a Chronic Wound Model},
  author = {Ricardo A. Ceriani F and Miguel A. Fuentes-Chandia and Tania Bahamondez‐Canas and Donald D. Brown and Paulina A. Puebla and Enzo E. Seguel and Leticia A. Toledo and Rodrigo Segura and Carlos Henríquez‐Roldán and Caroline Weinstein‐Oppenheimer},
  journal = {ACS Omega},
  year = {2026},
  doi = {10.1021/acsomega.6c02508},
  url = {https://doi.org/10.1021/acsomega.6c02508}
}

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