![]() ![]() Therefore, this surgical procedure is often associated with complications such as infection, hematoma, postoperative pain, and muscular and neural damage. Nevertheless, the amount of bone is limited and the procedure adds morbidity at the harvesting site. Bone can be taken from several areas e.g., iliac crest or fibula, depending on the severity and amount needed for reconstruction of the defect. This procedure necessitates harvesting the patient’s own bone and subsequently transplanting it to the defect site. Autologous bone grafting is still considered the gold standard treatment due to its osteoconductive, osteoinductive and osteogenic properties. Notably, the successful repair of large bone defects caused by trauma, tumor resection or disease remains a clinical challenge for orthopedic and plastic surgeons and often requires additional treatments. However, there are some conditions in which bone regeneration is delayed, compromised or beyond the physiological healing potential 1, 2. Taken together, this pilot study demonstrated the feasibility of precised pre-surgical planning and reconstruction of large bone defects with 3D-printed personalized scaffolds.īone is a dynamic tissue that possesses the intrinsic capacity to heal within 6–8 weeks after immobilization of a fracture. Histology confirmed bone growth inside the porous 3D scaffolds with or without vascular pedicle inclusion. The presence of the vascular pedicle further enhanced bone formation. After 3 months, the untreated defect remained non-bridged while the 3D scaffold guided bone regeneration. Bone regeneration was evaluated 1, 2 and 3 months post-implantation. Critical-sized segmental defects created in the mid-diaphyseal region of the metatarsus were either left empty or treated with the 3D scaffold alone or in combination with an axial vascular pedicle. Pre-operative computed tomography scans were performed to visualize the metatarsus and vasculature and to fabricate customized scaffolds and surgical guides by 3D printing. ![]() This pilot study aimed to investigate the feasibility of regenerating large bone defects in sheep using 3D-printed customized calcium phosphate scaffolds with or without surgical vascularization. Successful bone repair also depends on sufficient vascularization and to address this challenge, novel strategies focus on the development of vascularized biomaterial scaffolds. ![]() Tethering device to prevent dropped tools.Although autografts are considered to be the gold standard treatment for reconstruction of large bone defects resulting from trauma or diseases, donor site morbidity and limited availability restrict their use.Easy access reversing lever to change working direction with only one hand (Reverse lever on socket side of ratchet to avoid inadvertent damage from hammering).Supertorque lobular opening for greater turning power without deforming the fastener. ![]()
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