Hybrid nanocomposite as a chest wall graft with improved vascularization by copper oxide nanoparticles

Abstract: Chest wall repair can be necessary after tumor resection or chest injury. In order to cover or replace chest wall defects, autologous tissue or different synthetic materials are commonly used, among them the semi-rigid gold standard Gore-Tex® and prolene meshes. Synthetic tissues include composite materials with an organic and an inorganic component. On the basis of previously reported hybrid nanocomposite poly-lactic-co-glycolic acid amorphous calcium phosphate nanocomposite (PLGA/aCaP), a CuO component was i… Show more

“…To augment vascular responses, the addition of different metal particles in scaffolds materials has been tested. Specifically copper oxide in the nanometer scale, i.e., as NPshas showed promising results [ 146 , [154] , [155] , [156] , [157] ]. Copper NPs have a bioactive surface and can achieve a more gradual ion release, which is a desirable trait as burst releases of copper have proven to be toxic [ 157 , 158 ].…”

Transition metals in angiogenesis – A narrative review

“…To augment vascular responses, the addition of different metal particles in scaffolds materials has been tested. Specifically copper oxide in the nanometer scale, i.e., as NPshas showed promising results [ 146 , [154] , [155] , [156] , [157] ]. Copper NPs have a bioactive surface and can achieve a more gradual ion release, which is a desirable trait as burst releases of copper have proven to be toxic [ 157 , 158 ].…”

Transition metals in angiogenesis – A narrative review

“…To further modify this nanocomposite for improvement of angiogenic characteristics, we incorporated copper oxide NPs (CuO NPs) to result in a PLGA/aCaP/CuO nanocomposite. This material showed enhanced angiogenesis in a murine model for chest wall replacement when compared to PLGA/aCaP [ 13 ]. We had incorporated the CuO NPs in a 5 w/w %.…”

Pro-angiogenic and antibacterial copper containing nanoparticles in PLGA/amorphous calcium phosphate bone nanocomposites

Advances in Biomaterials for Promoting Vascularization