Biomaterials Division - Department of Molecular Pathobiology, New York University College of Dentistry, New York, New York, USA.
Department of Prosthodontics and Periodontology, University of Sao Paulo, Bauru School of Dentistry, Bauru, Brazil.
J Biomed Mater Res B Appl Biomater. 2022 Dec;110(12):2705-2713. doi: 10.1002/jbm.b.35122. Epub 2022 Jun 30.
Leukocyte-platelet-rich fibrin (L-PRF) has been suggested for gap management for immediate implant placement when the distance is greater than 2 mm. However, there remains a paucity in hierarchically designed research to support this application. The present study aimed to evaluate the effect of L-PRF on the osseointegration parameters of dental implants placed after conventional osteotomy of surgically created bone defects that simulate post extraction sockets in a canine model after 3, 6, and 12 weeks in vivo. Eighty dental implants (Intra-Lock, Boca Raton, FL) were placed in the radius of 13 beagle dogs. The experiment consisted of 4 groups (n = 20 implants/group): 1) Regular osteotomy (Reg n/L-PRF); 2) Regular osteotomy and implant placement with L-PRF membrane (Reg L-PRF); 3) Wide osteotomy with no gap management performed, where an osteotomy/bony defect (6 mm of diameter and 5 mm deep) was created to simulate immediate implant placement in post-extraction sockets, and the gap was left for spontaneous healing (Wide nL-PRF); and 4) Wide osteotomy with L-PRF gap management (Wide L-PRF). L-PRF membranes were obtained by blood drawn from each subject and centrifuged at 2700 rpm (408 RCF-clot) for 12 min. In the experimental groups where L-PRF was utilized, the membrane was inserted into the osteotomy site prior to implant placement. Six dogs had implants placed in the radius for 3 weeks; and 7 dogs had implants placed in the left radius for 6 weeks and in the right radius for 12 weeks. At the corresponding experimental time points, samples were harvested, and subjected to histological processing for qualitative and quantitative analyses, via bone-to-implant contact (BIC) and bone-area-fraction occupancy (BAFO). Qualitative analysis demonstrated increased amounts of bone formation around the implant and within the healing chambers over time for all groups. While comparable histological features were observed for both Reg groups (L-PRF and nL-PRF), the gap management performed in Wide L-PRF group resulted in effective gap filling with improved bone growth in close proximity to the implant surface. Quantitative analyses of BIC and BAFO yielded higher values for both variables at 3 weeks for Wide L-PRF (38% and 56% respectively) compared to Wide nL-PRF (20% for BIC and BAFO) (p < .03). No statistical differences were detected between Wide groups at 6 and 12 weeks, neither between Reg groups, independent of the association with or without the L-PRF membrane at all healing times. L-PRF placed within wide osteotomies, prior to implant placement, resulted in increased early bone formation compared to unfilled wide osteotomies at the early healing time (3 weeks in vivo).
富白细胞纤维蛋白 (L-PRF) 已被建议用于当距离大于 2mm 时进行即刻种植体植入的间隙管理。然而,支持这种应用的层次设计研究仍然很少。本研究旨在评估 L-PRF 对在犬模型中模拟拔牙窝的骨缺损中进行常规骨切开术后即刻植入种植体的骨整合参数的影响,在体内分别于 3、6 和 12 周进行评估。将 80 个种植体(Intra-Lock,博卡拉顿,佛罗里达州)植入 13 只比格犬的桡骨中。实验分为 4 组(每组 n=20 个种植体):1)常规骨切开术(Reg n/L-PRF);2)常规骨切开术加 L-PRF 膜植入(Reg L-PRF);3)不进行间隙管理的宽骨切开术,在此情况下,形成骨切开术/骨缺损(直径 6mm,深度约 5mm)以模拟即刻种植体在拔牙窝中的植入,并且留下间隙以实现自发愈合(Wide nL-PRF);和 4)宽骨切开术并用 L-PRF 进行间隙管理(Wide L-PRF)。通过从每个供体采血并在 2700rpm(408 RCF-凝块)下离心 12min 获得 L-PRF 膜。在使用 L-PRF 的实验组中,在植入种植体之前将膜插入到骨切开部位。6 只狗的桡骨中植入了 3 周的种植体;7 只狗的左侧桡骨植入了 6 周,右侧桡骨植入了 12 周。在相应的实验时间点,采集样本,进行组织学处理,进行定性和定量分析,通过骨-种植体接触(BIC)和骨面积占有率(BAFO)。定性分析表明,随着时间的推移,所有组中种植体周围和愈合腔内的骨形成量都增加。虽然 Reg 两组(L-PRF 和 nL-PRF)观察到相似的组织学特征,但 Wide L-PRF 组中进行的间隙管理导致在植入物表面附近有效间隙填充,改善了骨生长。BIC 和 BAFO 的定量分析显示,与 Wide nL-PRF 相比(BIC 和 BAFO 分别为 20%),Wide L-PRF 在 3 周时(BIC 和 BAFO 分别为 38%和 56%)这两个变量的数值更高(p<.03)。在 6 和 12 周时,Wide 组之间以及无论在所有愈合时间是否与 L-PRF 膜相关联,Reg 组之间均未检测到统计学差异。在植入种植体之前将 L-PRF 置于宽骨切开术中可导致在早期愈合时间(体内 3 周)时与未填充的宽骨切开术相比,早期骨形成增加。
