critical size bone defect | My-Thesis

The Many Faces of Regeneration Engineering: Multifunctional Scaffolds for Cranio-Maxillofacial Applications - PhD Thesis Defense - Sophia Dalfino

2026

bone tissue engineering

craniofacial regeneration

mandibular reconstruction

critical size bone defect

additive manufacturing

regenerative medicine

mesenchymal stromal cells

endothelial cells

vascularization

bioactive glass

tricalcium phosphate

polycaprolactone

composite scaffolds

surface coatings

small molecules

hypoxia mimicking

calcium deposition

tissue engineering strategies

prevascularization

cranio-maxillofacial applications

bone graft alternatives

minimally invasive therapy

scaffold design

biomimetic materials

calcium phosphate

in vitro models

translational research

This thesis developed multifunctional 3D-printed scaffolds for repairing critical-size mandibular bone defects. Using bioactive ceramics, surface coatings, and prevascularization strategies, it promoted both osteogenesis and angiogenesis. Results show that combining geometry, materials, and biological signals enables synergistic tissue regeneration, offering less-invasive alternatives to autologous bone grafts.

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