Surgery First and Clear Aligners on Relapsed Condylar Hyperplasia.

ABSTRACT: Condylar hyperplasia is (CH) a mandibular malformation that involves a change in the size and morphology of the condylar neck and head. The CH is an abnormality that usually occurs unilaterally and affects equally both men and women. Its etiology is controversial in its own right. Under this condition, mandibular growth occurs in all the 3 planes of space, but more predominantly in one of them. Treatment protocols are variable, but one of the best treatment choices is high condylectomy. Compared to the past, the change in the treatment protocol, as well as the innovations in both surgical and orthodontic technology, allowed a simplification of the therapeutic path, reduced patient discomfort and ensured more stable long-term postsurgical results.The authors present a case of a 40-year-old female patient with relapsed of unilateral CH, treated surgically for the second time and with orthodontic treatment with clear aligners. The clear aligners orthodontic treatment is now considered one the best treatment orthodontic options. In this case, considering the relapse of the hyperplasia and the need of a new orthodontic treatment we decide to use this technique to reduce patient discomfort and teeth force appliance.

Buccal plate preservation with immediate post-extraction implant placement and provisionalization: preliminary results of a new technique.

Bone resorption and remodelling are inevitable sequelae of dental extraction and begin immediately after the extraction procedure. The buccal plate is especially predisposed to these phenomena, and if affected, may result in an increased risk of facial soft-tissue recession and other adverse clinical effects that may decrease the predictability of implant placement or impair the final aesthetic result. Buccal plate preservation is a new technique aimed at maintaining or improving the appearance of the soft and hard tissues after dental extraction procedures. The aim of this case series is to evaluate the effectiveness of this technique to maintain or improve soft tissue contours in aesthetic areas when used in conjunction with immediate implant placement. Buccal plate preservation as described may help to maintain or improve the appearance and contours of the ridge after tooth extraction, laying the groundwork for optimal functional and aesthetic replacement of the missing tooth with an implant-supported prosthesis.

Treatment of a large periapical lesion with loss of labial cortical plate using GTR: a case report.

Following endodontic treatment, a large periapical lesion (9.0 mm x 9.0 mm) at a maxillary central incisor was treated with demineralized freeze-dried bone allograft (DFDBA) using the principles of guided tissue regeneration. The physical barrier was removed 6 months postsurgical. The cortical alveolar plate was observed to be completely reconstructed. Histologic evaluation demonstrated lamellar bone surrounding DFDBA particles. Radiographic follow-up 1 year posttreatment demonstrated complete resolution of the periapical radiolucency.

GBR in human extraction sockets and ridge defects prior to implant placement: clinical results and histologic evidence of osteoblastic and osteoclastic activities in DFDBA.

This study evaluated new bone formation in 3 types of osseous defects following treatment with demineralized freeze-dried bone allografts (DFDBA) and cell-occlusive membranes. For 8 patients electing to receive implant treatment, a distinction was made among 3 clinical situations: (1) existing alveolar ridge defects; (2) extraction sockets with lost buccal plate; and (3) extraction sockets with an intact alveolus. Implants were placed a mean of 6 months after the regenerative procedure. Clinical examination of bone width and height at the time of implant placement showed sufficient augmentation or preservation, and implants were inserted without incident. Histologic examination of hard tissue biopsies obtained from the implant sites revealed no discernible differences among the 3 types of defects. Specifically, all sites demonstrated DFDBA particles surrounded by woven or lamellar bone. No fibrous encapsulation of DFDBA or inflammatory reaction was observed. Osteoblasts were found lining marrow spaces. Howeship's lacunae, with and without resident osteoclasts, were clearly seen in several DFDBA particles; this finding supports the belief that DFDBA undergoes osteoclasis in vivo. These results demonstrate that commercially available DFDBA has osteoconductive properties that lead to appositional new bone growth in both self-contained and non-self contained osseous defects.

Histologic evaluation of human extraction sockets treated with demineralized freeze-dried bone allograft (DFDBA) and cell occlusive membrane.

This study evaluated new bone formation in human extraction sockets treated with demineralized freeze-dried bone allografts (DFDBA) and celloc occlusive membranes. Hard tissue biopsies of 7 sites in 6 patients were obtained 14 weeks to 13 months following extraction and grafting. Histologic analysis revealed that individual particles of DFDBA were discernible up to 13 months in situ. In all samples, all particles of DFDBA were well incorporated within new bone, which exhibited osteocyte-containing lacunae. Distinct cement lines clearly demarcated the DFDBA particles from the surrounding, intimately-apposed woven and lamellar bone. The marrow demonstrated a mild degree of fibrosis without signs of inflammatory reaction. There was also a notable lack of fibrous encapsulation of the allograft, and little osteoclasis was observed. Our findings demonstrate that commercially available DFDBA has the potential to function physically as a nidus for appositional new bone growth in alveolar sockets following tooth extraction. Further investigations of the biological activity of DFDBA in situ are warranted.