First Page
1979
Last Page
1982
Abstract
Alveolar ridge remodeling following tooth extraction remains a clinical challenge in implant dentistry, particularly in the esthetic zone where dimensional stability of hard and soft tissues is critical for subsequent implant placement. This short communication describes a simplified clinical workflow for socket regeneration using a composite regenerative matrix (CRM) composed of concentrated growth factor (CGF), autologous fibrinogen glue (AFG), and freeze-dried bone allograft (FDBA). The technique was applied following atraumatic extraction in a single maxillary esthetic-zone case. Clinical and radiographic observations were documented for up to 5 years. Healing was uneventful, and cone-beam computed tomography performed at 3 months demonstrated qualitative socket fill and preservation of ridge contour. Implant placement was subsequently performed using a digitally guided approach. Radiographic follow-up at 1 and 5 years demonstrated stable peri-implant bone levels and maintained buccal plate morphology. The results suggest that CRM provides a simplified, biologically integrated, and predictable workflow for socket regeneration, particularly suitable for esthetic-zone applications requiring long-term dimensional stability.
Recommended Citation
Tseng, Chi-Shan; Li, Ming-Ko; and Yu, Cheng-Chia
(2026)
"Socket regeneration using a composite regenerative matrix: a simplified clinical workflow with a 5-year follow-up,"
Journal of Dental Sciences: Vol. 21:
Iss.
3, Article 70.
Available at:
https://jds.ads.org.tw/journal/vol21/iss3/70
Publication Date
2026