Oxygen Generating Polymeric Nano Fibers That Stimulate Angiogenesis and Show Efficient Wound Healing in a Diabetic Wound Model

Mubashra Zehra,1 Waliya Zubairi,2 Anwarul Hasan,3,4 Hira Butt,1 Amna Ramzan,1 Maryam Azam,2 Azra Mehmood,1 Mojtaba Falahati,5 Aqif Anwar Chaudhry,2 Ihtesham Ur Rehman,6 Muhammad Yar2 1National Center of Excellence in Molecular Biology (CEMB), University of the Punjab, Lahore 53700, Pakistan; 2Interd...

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Autores principales: Zehra M, Zubairi W, Hasan A, Butt H, Ramzan A, Azam M, Mehmood A, Falahati M, Chaudhry AA, Rehman IU, Yar M
Formato: article
Lenguaje:EN
Publicado: Dove Medical Press 2020
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Acceso en línea:https://doaj.org/article/67130b15b732472b86e772e3205d1fd0
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Sumario:Mubashra Zehra,1 Waliya Zubairi,2 Anwarul Hasan,3,4 Hira Butt,1 Amna Ramzan,1 Maryam Azam,2 Azra Mehmood,1 Mojtaba Falahati,5 Aqif Anwar Chaudhry,2 Ihtesham Ur Rehman,6 Muhammad Yar2 1National Center of Excellence in Molecular Biology (CEMB), University of the Punjab, Lahore 53700, Pakistan; 2Interdisciplinary Research Centre in Biomedical Materials, COMSATS University Islamabad, Lahore Campus, Lahore 54000, Pakistan; 3Department of Mechanical and Industrial Engineering, College of Engineering, Qatar University, Doha 2713, Qatar; 4Biomedical Research Center, Qatar University, Doha 2713, Qatar; 5Department of Nanotechnology, Faculty of Advanced Sciences and Technology, Pharmaceutical Sciences Branch, Islamic Azad University, Tehran, Iran; 6Engineering Department, Faculty of Science and Technology, Lancaster University, Lancaster LA1 4YW, UKCorrespondence: Anwarul Hasan; Muhammad Yar Tel +974-70569169; +92 42 001007 Ext 828Email ahasan@qu.edu.qa; drmyar@cuilahore.edu.pkIntroduction: Diabetic wounds are challenging to treat due to a wide range of pathophysiological changes. Hypoxia is one of the predominant contributing factors of poor vascularization and chronicity in diabetic wounds. This study was designed to develop polycaprolactone (PCL)-based oxygen-releasing electrospun wound dressings and evaluate their efficacy for improved full thickness wound healing in diabetic rats.Methods: PCL-based oxygen releasing wound dressings were made using electrospinning technology. The developed dressings were characterized in terms of physical as well as biological properties both in vitro and in vivo. E-spun nanofibrous dressings were physically characterized with scanning electron microscopy, Fourier-transform infrared spectroscopy, and Energy-dispersive X-ray spectroscopy. To study the likely impact of the fabricated wound dressings in hypoxic conditions, HIF-1α expression analysis was carried out both at gene and protein levels. Wound dressings were further evaluated for their healing potential for extensive wounds in diabetic rat models.Results: The experimental results showed that the developed dressings were capable of continuously generating oxygen for up to 10 days. Cell studies further confirmed pronounced expression of HIF-1α at gene and protein levels in cells seeded on PCL-sodium percarbonate (SPC) and PCL scaffolds compared with the cells cultured on a tissue culture plate. Chorioallantoic membrane assay revealed the supportive role of oxygen releasing dressings on angiogenesis compared to the control group. Histological assessment of the regenerated skin tissues proved that full thickness wounds covered with SPC loaded PCL dressings had a comparatively better vascularized and compact extracellular matrix with completely covered thick epithelium.Discussion: The developed oxygen generating polymeric nanofibrous wound dressings could potentially be used as an envisioned approach for the efficient recovery of chronic diabetic wounds.Keywords: skin regeneration, diabetic wound healing, oxygenation, polymeric nanofibers, electrospinning