27 research outputs found

    International School

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    Computer modelling of sputtering processes

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    Polymeric Composite Dressings Containing Calcium-Releasing Nanoparticles Accelerate Wound Healing in Diabetic Mice

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    [Objective] Wound healing is a complex process that involves the interaction between different cell types and bioactive factors. Impaired wound healing is characterized by a loss in synchronization of these interactions, resulting in nonhealing chronic wounds. Chronic wounds are a socioeconomic burden, one of the most prominent clinical manifestations of diabetes, however, they lack satisfactory treatment options. The objective of this study was to develop polymeric composites that deliver ions having wound healing properties and evaluate its performance using a pressure ulcer model in diabetic mice. [Approach] To develop a polymeric composite wound dressing containing ion-releasing nanoparticles for chronic wound healing. This composite was chemically and physically characterized and evaluated using a pressure ulcer wound model in diabetic (db/db) mice to explore their potential as novel wound dressing. [Results] This dressing exhibits a controlled ion release and a good in vitro bioactivity. The polymeric composite dressing treatment stimulates angiogenesis, collagen synthesis, granulation tissue formation, and accelerates wound closure of ischemic wounds created in diabetic mice. In addition, the performance of the newly designed composite is remarkably better than a commercially available dressing frequently used for the treatment of low-exuding chronic wounds. [Innovation] The developed nanoplatforms are cell- and growth factor free and control the host microenvironment resulting in enhanced wound healing. These nanoplatforms are available by cost-effective synthesis with a defined composition, offering an additional advantage in potential clinical application. [Conclusion] Based on the obtained results, these polymeric composites offer an optimum approach for chronic wound healing without adding cells or external biological factors.This work was supported by the Spanish Ministry of Economy and Competitiveness (MINECO/FEDER) through the projects MAT2012-38793 and MAT2015-68906-R, the EuroNanoMed3 project nAngioDerm funded through the Spanish Ministry of Science and Innovation (ref. PCI2019-103648), the Spanish Ministry of Education, Culture, and Sports with the FPU grant (ref. AP-2012-5310), EIT Health (project EIT PoC-2016-SPAIN-03), La Caixa Banking Foundation through their CaixaImpulse Program and Caixaimpulse 2.0 Consolidate Program (Ref. LCF/TR/CN18/52210003)
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