El Kassaby Marwa, El Kader Khaled Abd, Khamis Nahed, Al Hammoud Alaa, Talb Alaa Ben, El Hadidi Yasser Nabil
Department of Oral and Maxillofacial Surgery, Faculty of Dentistry, Ain Shams University, Cairo, Egypt.
Department of General Pathology, Faculty of Medicine, Ain Shams University, Cairo, Egypt.
Craniomaxillofac Trauma Reconstr. 2018 Sep;11(3):192-198. doi: 10.1055/s-0037-1604070. Epub 2017 Jul 19.
Distraction osteogenesis (DO) bone regenerate usually suffers from an inferior quality especially with rapid rate. This study was conducted to investigate the effect of mesenchymal stem cells (MSCs) application on different rates of distraction bone quality. Twenty-four goats were divided into group A with standard DO and group B with rapid distraction osteogenesis (RDO) both aided by MSCs. Group C with standard DO and group (D) with RDO were controls. Kruskal-Wallis test and Conover's post hoc analysis was used to evaluate significance ( = 0.05). Histomorphometry showed a strongly significant (SS) increase ( = 0.00036) in trabecular bone (TB) in group A (TB = 174.7 µm, SD = 33.5) and group B (TB = 166.8 µm, SD = 14) compared with group C (TB = 115.4 µm, SD = 19.6) and group D (TB = 86.1 µm, SD = 9.3). There was SS decrease ( = 0.00093) in osteoid percentage (OP) in group A (OP = 13.4%, SD = 2) and group B (OP = 11.5%, SD = 6.5) compared with group C (OP = 27.3, SD = 3.5) and group D (OP = 26.2%, SD = 2.6). Energy dispersive X-ray showed a nonsignificant increase ( = 0.11) in calcification (Ca %) in group A (Ca % = 17.6%, SD = 4.9) and group B (Ca % = 17.6%, SD = 4.3) compared with group C (Ca % = 14.2%, SD = 6.7) and group D (Ca % = 11.5%, SD = 2.4). MSCs application improved microscopic bone quality during standard DO and RDO. However, macroscopic bone quality improvement still needs further investigation.
牵张成骨(DO)形成的骨通常质量较差,尤其是在牵张速度较快时。本研究旨在探讨应用间充质干细胞(MSCs)对不同牵张速度下骨质量的影响。将24只山羊分为A组(标准DO组)和B组(快速牵张成骨组,RDO),两组均应用MSCs。C组为标准DO对照组,D组为RDO对照组。采用Kruskal-Wallis检验和Conover事后分析评估显著性(α = 0.05)。组织形态计量学显示,与C组(骨小梁(TB)= 115.4 µm,标准差(SD)= 19.6)和D组(TB = 86.1 µm,SD = 9.3)相比,A组(TB = 174.7 µm,SD = 33.5)和B组(TB = 166.8 µm,SD = 14)的骨小梁有极显著(SS)增加(P = 0.00036)。与C组(类骨质百分比(OP)= 27.3,SD = 3.5)和D组(OP = 26.2%,SD = 2.6)相比,A组(OP = 13.4%,SD = 2)和B组(OP = 11.5%,SD = 6.5)的类骨质百分比有SS降低(P = 0.00093)。能量色散X射线显示,与C组(钙(Ca)% = 14.2%,SD = 6.7)和D组(Ca% = 11.5%,SD = 2.4)相比,A组(Ca% = 17.6%,SD = 4.9)和B组(Ca% = 17.6%,SD = 4.3)的钙化(Ca%)无显著增加(P = 0.1)。应用MSCs可改善标准DO和RDO过程中的微观骨质量。然而,宏观骨质量的改善仍需进一步研究。