Le Bach, Rohrer Michael D, Prasad Hari S
Department of Oral and Maxillofacial Surgery, USC School of Dentistry, Los Angeles, CA, USA.
J Oral Maxillofac Surg. 2010 Feb;68(2):428-35. doi: 10.1016/j.joms.2009.04.059. Epub 2010 Jan 15.
The purpose of this study was to evaluate the effectiveness of using titanium screws in combination with particulate human mineralized allograft, in a "tenting" fashion, to augment large vertical alveolar ridge defects for implant placement.
This prospective case study evaluated augmentation in consecutive patients with large (>7 mm) vertical alveolar ridge defects. Vertical ridge augmentation was performed using mineralized allograft placed around titanium screws to tent out the soft tissue matrix. The ridges were clinically evaluated 4 to 5 months after augmentation, and implants were placed at that time. Bone cores were harvested from all patients for histologic evaluations.
Fifteen patients were treated in this prospective case study, and the mean vertical augmentation was 9.7 mm. Two patients had wound dehiscence resulting in loss of graft and requiring secondary grafting before implant placement. Five patients required 2-stage grafting procedures to achieve ideal ridge height before implant placement. Clinical evaluation of the grafted sites upon re-entry revealed uniform ridge anatomy. Histomorphometric analysis of 7 specimens revealed a mean bone content of 43%. A total of 32 implants were placed into grafted sites in 15 patients. All implants were integrated and successfully restored. Mean follow-up was 16.8 months after implant placement.
Tenting of the periosteum and soft tissue matrix with titanium screws maintains space and minimizes resorption of mineralized particulate allograft. This technique offers predictable functional and esthetic reconstruction of large vertical defects without the use of autogenous bone and is capable of osseointegration. More studies are needed to evaluate the stability of vertically grafted bone after long-term loading.
本研究的目的是评估以“撑开”方式使用钛螺钉结合颗粒状人矿化同种异体骨来增大垂直牙槽嵴大缺损以进行种植体植入的有效性。
这项前瞻性病例研究评估了连续的垂直牙槽嵴大缺损(>7毫米)患者的骨增量情况。使用放置在钛螺钉周围的矿化同种异体骨进行垂直牙槽嵴增高,以撑开软组织基质。在增高后4至5个月对牙槽嵴进行临床评估,并在此时植入种植体。从所有患者获取骨芯进行组织学评估。
在这项前瞻性病例研究中治疗了15名患者,平均垂直增高为9.7毫米。两名患者出现伤口裂开,导致植骨丢失,需要在植入种植体前进行二次植骨。五名患者需要分两阶段进行植骨手术,以在植入种植体前达到理想的牙槽嵴高度。再次切开时对植骨部位的临床评估显示牙槽嵴解剖结构均匀。对7个标本的组织形态计量学分析显示平均骨含量为43%。15名患者的植骨部位共植入了32颗种植体。所有种植体均实现骨结合并成功修复。种植体植入后的平均随访时间为16.8个月。
用钛螺钉撑开骨膜和软组织基质可保持空间并使矿化颗粒状同种异体骨的吸收最小化。该技术无需使用自体骨即可对大的垂直缺损进行可预测的功能和美学重建,并且能够实现骨结合。需要更多研究来评估长期负载后垂直植骨的稳定性。
