Vigilancia Tecnológica

Implantable scaffold vaccine against. MelanomaAbstractAlthough tumor?antigen?based therapeutic cancer vaccines are a potential cancer immunotherapy strategy, recent clinical trials show low efficacy for multiple reasons. One method that has been recently investigated to improve the efficacy of therapeutic cancer vaccines is the development of implantable vaccines for sustained delivery of antigens and CD8 T cell activation. Here, we optimized the composition for an implantable vaccine scaffold composed of alginate, polyvinyl alcohol, and poly(methyl vinyl ether? alt?maleic anhydride) loaded with tumor antigens. Considering the adjuvant property of aluminum compounds, aluminum ion was used to crosslink alginate in the scaffold. The scaffold showed an effective antigen incorporation efficiency of 90.34?±?0.55% using ovalbumin as the model antigen and 89.67?±?2.8% using B16?F10 cell lysate. SEM analysis of the scaffold showed pore size ranging from 5 to 10??m. Cell viability analysis using mouse RAW 264.7 macrophages proved the cytocompatibility of the scaffold. In vitro antigen release studies using ovalbumin showed 8.42% release for a period of 14?days. In vivo antitumor analysis carried out in subcutaneous mouse B16?F10 melanoma model demonstrated that the scaffold vaccine reduced the rate of tumor growth and improved survival in tested animals. The median survival time increased from 29?days in untreated animals to 58?days in scaffold vaccine?implanted animals.