Growth Factor-Free Vascularization of Marine-Origin Collagen Sponges Using Cryopreserved Stromal Vascular Fractions from Human Adipose Tissue

Abstract: The successful integration of transplanted three-dimensional tissue engineering (TE) constructs depends greatly on their rapid vascularization. Therefore, it is essential to address this vascularization issue in the initial design of constructs for perfused tissues. Two of the most important variables in this regard are scaffold composition and cell sourcing. Collagens with marine origins overcome some issues associated with mammal-derived collagen while maintaining their advantages in terms of biocompatibilit… Show more

“…Applying this principle, our group has proposed the use of the stromal vascular fraction (SVF) of adipose tissue as a self-directing system to obtain microvasculature in TE constructs. [16][17][18] The SVF is a cellular fraction that can be isolated from fat and is composed of diverse cell populations, including endothelial and stromal cells, [19] that when seeded and left to grow, spontaneously self-assemble into a lumenized capillary bed-like network (Figure 2B). This process requires neither additional supportive cell populations, nor potentially harmful extrinsic growth factors.…”

Macro, Micro, and Everything in Between. Bridging the Gap: A Vision Toward the Creation of Multiscale Vascular Networks

“…Applying this principle, our group has proposed the use of the stromal vascular fraction (SVF) of adipose tissue as a self-directing system to obtain microvasculature in TE constructs. [16][17][18] The SVF is a cellular fraction that can be isolated from fat and is composed of diverse cell populations, including endothelial and stromal cells, [19] that when seeded and left to grow, spontaneously self-assemble into a lumenized capillary bed-like network (Figure 2B). This process requires neither additional supportive cell populations, nor potentially harmful extrinsic growth factors.…”

Macro, Micro, and Everything in Between. Bridging the Gap: A Vision Toward the Creation of Multiscale Vascular Networks

Prevascularized spongy-like hydrogels maintain their angiogenic potential after prolonged hypothermic storage

Waste-to-resource: Extraction and transformation of aquatic biomaterials for regenerative medicine