Maxillofacial bone defects can have a profound impact on both facial function and aesthetics. While various biomaterial scaffolds have shown promise in addressing these challenges, regenerating bone in this region remains complex due to its irregular shape, intricate structure, and differing cellular origins compared to other bones in the human body. Moreover, the significant and variable mechanical loads placed on the maxillofacial bones add further complexity, especially in cases of difficult-to-treat medical conditions. This review provides a brief overview of medication-related osteonecrosis of the jaw (MRONJ), highlighting the medication-induced adverse reactions and the associated clinical challenges in treating this condition. The purpose of this manuscript is to emphasize the role of biotechnology and tissue engineering technologies in therapy. By using scaffold materials and biofactors in combination with autologous cells, innovative solutions are explored for the repair of damaged facial bones. The ongoing search for effective scaffolds that can address these challenges and improve in vitro bone preparation for subsequent regeneration in the maxillofacial region remains critical. The primary purpose of this review is to spotlight current research trends and novel approaches in this area.
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Although the advancements in craniomaxillofacial surgery have been significant, ischemic craniomaxillofacial diseases remain challenging to treat due to insufficient blood supply. Hyperbaric oxygen therapy (HBOT) has emerged as a promising adjunctive treatment, exhibiting the potential to promote angiogenesis, exert anti-inflammatory effects, enhance bone regeneration, and possess antibacterial properties. Numerous studies have demonstrated its efficacy in stimulating healing processes, particularly in cases such as medication-related osteonecrosis of the jaw, osteoradionecrosis, chronic jaw osteomyelitis, and refractory wounds.
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Using platelet concentrates to treat maxillofacial tissue lesions.
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State Key Laboratory of Oral Diseases, Sichuan University, Chengdu, China.
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