Biocomposites of copper-containing mesoporous bioactive glass and nanofibrillated cellulose: Biocompatibility and angiogenic promotion in chronic wound healing application

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• 作者：Xiaoju Wangup>aup>up> ; up>up>xwang@abo.fi" class="auth_mail" title="E-mail the corresponding authorup> ; Fang Chengup>bup>up> ; up>up>cfang@abo.fi" class="auth_mail" title="E-mail the corresponding authorup> ; Jun Liuup>aup> ; Jan-Henrik Små ; ttup>cup> ; David Gepperthup>aup> ; Mika Lastusaariup>dup>up> ; up>up>eup> ; Chunlin Xuup>aup> ; Leena Hupaup>aup>
• 关键词：Biocomposite ; Mesoporous bioactive glass ; Nanofibrillated cellulose ; Copper ion ; Angiogenesis ; Wound healing dressing
• 刊名：Acta Biomaterialia
• 出版年：2016
• 出版时间：December 2016
• 年：2016
• 卷：46
• 期：Complete
• 页码：286-298
• 全文大小：4125 K

文摘

Biocomposites of copper-containing mesoporous bioactive glass (Cu-MBG) and nanofibrillated cellulose (NFC) were designated as potential dressing material for chronic wound healing. The phase composition and mesoporous micro-structure of the synthesized Cu-MBGs were elaborately characterized by combining several techniques, including TEM, SEM, XRD, SXAS and N₂ physisorption. High bioactivity of the Cu-MBG was confirmed in stimulated body fluids in vitro. A controlled dissolution of Cu from the glass suggests Cu-MBG a suitable source for Cu release in wound healing dressings. Depending on the content of Cu-MBG in the composite formulation, the composites were fabricated as membranes and aerogels. In biocompatibility assessment of the composites, a dose-dependent cytotoxicity of Cuup>2+up> on 3T3 fibroblasts was found. Importantly, a critical biological level of Cuup>2+up> below 10 mg/L was suggested for the survival and growth of 3T3 fibroblasts. The Cuup>2+up> released from the composite aerogel of NFC and Cu-MBG showed a profound angiogenic effect in the 3D spheroid culture system of human umbilical vein endothelial cells. Moreover, the angiogenic gene expression of 3T3 fibroblast was upregulated in the real-time quantitative PCR analysis, which also confirms that the incorporation of Cu-MBG into NFC matrix enhances the proangiogenic potential of the biocomposites. In addition, composites of NFC and Cu-MBG also showed an inhibiting effect on the growth of E. coli.

Statement of Significance

To address an urgent need in clinics on developing a new generation of therapeutic dressings with advanced functionalities, this study has exploited the utilization of Cu-containing mesoporous bioactive glass in the nanocellulose matrix to release Cuup>2+up> as therapeutic ions for its angiogenic effect on promoting wound healing. This manuscript reports research work on biomaterial design, fabrication development, material characterizations and bioassessments in 2D cellular studies. To utilize nanocellulose derived from the wood resource in biomedical applications is of great significance, due to its vast availability and bioeconomy competence. The use of Cu-containing bioactive glass in tissue engineering scaffolds, including wound healing, is an intriguing research topic, which has been recently discussed in the field of biomaterials. I think that our manuscript title with ‘Biocomposites of copper-containing mesoporous bioactive glass and nanofibrillated cellulose: biocompatibility and angiogenic promotion in chronic wound healing application’ will make its own contribution on understanding the complex effects of Cuup>2+up> on wound-healing-relevant events with acceptable novelty for Acta Biomaterialia.