Lombardo G, Corrocher G, Pighi J, Faccioni F, Rovera A, Marincola M, Nocini P F
Clinic of Dentistry and Maxillofacial Surgery University of Verona, Verona, Italy -
Minerva Stomatol. 2014 Nov-Dec;63(11-12):391-402.
Objective of this study was to assess the influence of the subcrestal placement level of short implants with a locking-taper connection design on crestal bone levels and soft tissues health.
A clinical retrospective case-control study was conducted between May 2013 and September 2013. The sample was composed of patients who had received at least one 5-to-8-mm-long, plateau-design implant with a locking-taper connection system (Bicon LLC, Boston, MA, USA) in posterior areas of maxilla and mandible, in the period between January 2009 and Dicember 2011. A radiographic evaluation of the degree of subcrestal positioning(t0) was conducted to identify two implant groups: Group 1 was composed of implants placed less than 2 mm under the crestal bone; Group 2 was composed of implants placed 2 mm or more under the crest. The primary outcome variables were the crestal bone levels and the peri-implant bone loss between prosthetic loading and last control visit (t1àt2). Clinical parameters including the keratinized gingival (KG) width, modified bleeding index (mBI), modified plaque index (mPI), and probing depth (PD) were assessed at the follow-up visit. T tests were conducted to identify statistically significant differences between implants groups. Linear regression models were developed to test the dependence of the study variables by the degree of subcrestal surgical implant placement. Significance level was set at P<0.05.
One hundred and thirty-seven implants were followed for an average period of 31 months. At the surgery, the implants were placed, on average, 2.04 mm (mesial) and 1.86 mm (distal) subcrestally. Eighty implants were placed less than 2 mm under the crest (average 1.28 mm), while fifty-seven implants were placed more than 2 mm under the crestal bone (average 2.97 mm). At the prosthetic loading (t1), the average crestal bone level was 1.11 mm, 0.79 mm in Shallow group and 1.86 mm in Deep group, with statistically significant differences between implant groups (P<0.05). At the follow-up visit (t2) the mean crestal bone levels were respectively 0.51 mm and 1.35 mm, with statistically significant differences between implant groups (P<0.05). The average peri-implant bone loss between prosthetic loading and control visit (t1àt2) was 0.04 mm in the Group 1 and 0.33 mm in Group 2. The average keratinized mucosa width was 2.16 mm, the average mBI was 0.24 , the average mPI was 0.17 and the average PD was 2.34 mm. Significant difference between groups was observed regarding to keratinized gingival width (Group 1: 1.97 mm; Group 2: 2.41 mm; P<0.05) but not for the other clinical parameters. Linear regression models confirmed the dependence of crestal bone levels by the degree of subcrestal placement (P<0.05).
After two years of observation, the implant of this study have shown minimal peri-implant bone resorption. The greater subcrestal implant placement has resulted in a higher level of the peri-implant bone crest, both after the osseointegration period and after the loading period. Both the study implants groups have shown good health of peri-implant soft tissues.
本研究的目的是评估采用锁定锥形连接设计的短种植体在牙槽嵴顶下方的植入深度对牙槽嵴顶骨水平和软组织健康的影响。
于2013年5月至2013年9月进行了一项临床回顾性病例对照研究。样本由2009年1月至2011年12月期间在上颌和下颌后部区域接受至少一枚5至8毫米长、平台设计且带有锁定锥形连接系统(美国马萨诸塞州波士顿市Bicon LLC公司)种植体的患者组成。对牙槽嵴顶下方定位程度(t0)进行影像学评估,以确定两个种植体组:第1组由种植体植入牙槽嵴顶骨下方小于2毫米的患者组成;第2组由种植体植入牙槽嵴顶下方2毫米或更多的患者组成。主要观察变量为修复体加载至最后一次复查(t1至t2)期间的牙槽嵴顶骨水平和种植体周围骨丢失情况。在随访时评估包括角化龈(KG)宽度、改良出血指数(mBI)、改良菌斑指数(mPI)和探诊深度(PD)在内的临床参数。进行t检验以确定种植体组之间的统计学显著差异。建立线性回归模型以检验研究变量与种植体手术时牙槽嵴顶下方植入深度的相关性。显著性水平设定为P<0.05。
137枚种植体平均随访31个月。手术时,种植体平均植入牙槽嵴顶下方2.04毫米(近中)和1.86毫米(远中)。80枚种植体植入牙槽嵴顶下方小于2毫米(平均1.28毫米),而57枚种植体植入牙槽嵴顶骨下方2毫米或更多(平均2.97毫米)。在修复体加载时(t1),平均牙槽嵴顶骨水平为1.11毫米,浅组为0.79毫米,深组为1.86毫米,种植体组之间存在统计学显著差异(P<0.05)。在随访时(t2),平均牙槽嵴顶骨水平分别为0.51毫米和1.35毫米,种植体组之间存在统计学显著差异(P<0.05)。第1组修复体加载至复查期间(t1至t2)的平均种植体周围骨丢失为0.04毫米,第2组为0.33毫米。平均角化黏膜宽度为2.16毫米,平均mBI为0.24,平均mPI为0.17,平均PD为2.34毫米。在角化龈宽度方面观察到组间存在显著差异(第1组:1.97毫米;第2组:2.41毫米;P<0.05),但其他临床参数无差异。线性回归模型证实牙槽嵴顶骨水平与牙槽嵴顶下方植入深度相关(P<0.05)。
经过两年观察,本研究中的种植体显示出最小的种植体周围骨吸收。更大的牙槽嵴顶下方种植体植入深度在骨整合期和加载期后均导致种植体周围牙槽嵴顶骨水平更高。两个研究种植体组均显示出良好的种植体周围软组织健康状况。
