Tianjin Key Laboratory for Advanced Mechatronic System Design and Intelligent Control, Tianjin University of Technology, No. 391 Binshui Xidao, Xiqing District, Tianjin, China.
National Demonstration Center for Experimental Mechanical and Electrical Engineering Education (Tianjin University of Technology), Tianjin, China.
J Orthop Surg Res. 2020 Sep 14;15(1):406. doi: 10.1186/s13018-020-01931-z.
Porous titanium alloy scaffold fabricated by 3D printing technology could induce osseointegration well to repair bone defect during early postoperative period. However, trabecular histomorphological features and chemical compositions of ingrowth bone in the long term after surgery still lacked in-depth research.
Fourteen New Zealand rabbits were divided into two groups (7 rabbits in surgery group and 7 rabbits in control group). A 3D-printed porous titanium alloy scaffold was implanted into right femoral condyle of each rabbit in the surgery group. Preload was produced at the surface between bone tissue and scaffold through interference assembly during implantation process. Rabbits in the control group were feed free. All rabbits were sacrificed to extract femoral condyles at week 12 after surgery. All right femoral condyles were performed micro-CT scanning to test bone mineral density (BMD) and trabecular histomorphological parameters, including bone volume fraction (BV/TV), bone surface/volume ratio (BS/BV), bone surface density (BS/TV), structure model index (SMI), trabecular thickness (Tb.Th), trabecular number (Tb.N), trabecular separation (Tb.Sp), porosity (PO), connectivity density (Conn.Dn), and degree of anisotropy (DA). Scanning electron microscope was used to observe osteogenesis peri-scaffold. Fourier transform infrared spectroscopy (FTIR) scanning was performed to analyze chemical compositions of peri-scaffold trabeculae. All trabecular morphological parameters and BMDs were statistically analyzed between surgery group and control group.
The pores of scaffold were filled with ingrowth bone tissues after 12 weeks osseointegration. However, the mean BMD peri-scaffold in surgery group was 800 ± 20 mg/cm, which was 18.37% lower than that in the control group. There was a significant decrease in BV/TV, Tb.N, and BS/TV, and there was a significant increase in Tb.Sp and PO between the surgery group and control group (p < 0.05). There were no significant differences in Tb.Th, SMI, Conn.Dn, BS/BV, and DA. Although ingrowth of bone tissue was very effective, some fragmented connective tissues were still found instead of bone tissues on the partial beams of scaffolds through SEM images. It was found from FTIR that there was no significant hydroxyapatite peak signal in surgery group. Collagen in the control group mainly existed as cross-link structure, while non-cross-link structure in the surgery group.
Preload could promote the same good osseointegration ability as chemical surface modification method in the early term after surgery, and better osseointegration effect than chemical surface modification method in the mid-long term after surgery. However, histomorphological features of peri-scaffold trabeculae were still in deterioration and low collagen maturity caused by stress shielding. It was suggested from this study that extra physical training should be taken to stimulate the bone remodeling process for recovering to a healthy level.
3D 打印技术制备的多孔钛合金支架在术后早期能良好地诱导骨整合,修复骨缺损。然而,术后长期的小梁组织形态学特征和内生长骨的化学成分仍缺乏深入研究。
将 14 只新西兰兔分为两组(手术组 7 只,对照组 7 只)。在手术组的每只兔的右股骨髁中植入 3D 打印多孔钛合金支架。在植入过程中,通过干涉装配在骨组织与支架表面之间产生预载。对照组的兔子不喂食。术后 12 周,所有兔子均处死提取股骨髁。对所有右侧股骨髁进行微 CT 扫描,检测骨矿物质密度(BMD)和小梁组织形态学参数,包括骨体积分数(BV/TV)、骨表面积/体积比(BS/BV)、骨表面积密度(BS/TV)、结构模型指数(SMI)、小梁厚度(Tb.Th)、小梁数量(Tb.N)、小梁间距(Tb.Sp)、孔隙率(PO)、连接密度(Conn.Dn)和各向异性度(DA)。扫描电子显微镜观察支架周围成骨情况。傅里叶变换红外光谱(FTIR)扫描分析支架周围小梁的化学成分。对手术组和对照组的所有小梁形态参数和 BMD 进行统计学分析。
术后 12 周,支架的孔隙内充满了内生长的骨组织。然而,手术组的平均 BMD 为 800±20mg/cm,比对照组低 18.37%。BV/TV、Tb.N 和 BS/TV 显著降低,而 Tb.Sp 和 PO 显著升高(p<0.05)。Tb.Th、SMI、Conn.Dn、BS/BV 和 DA 无显著差异。尽管骨组织的内生长非常有效,但通过 SEM 图像仍发现部分支架梁上仍有一些碎片状结缔组织,而不是骨组织。FTIR 发现手术组没有明显的羟基磷灰石峰信号。对照组中的胶原主要以交联结构存在,而手术组中的胶原主要以非交联结构存在。
预载在术后早期能促进与化学表面改性方法相同的良好骨整合能力,而在术后中-长期能产生优于化学表面改性方法的骨整合效果。然而,支架周围小梁的组织形态特征仍在恶化,由应力遮挡引起的低胶原成熟度。本研究提示,应采取额外的物理训练来刺激骨重塑过程,使其恢复到健康水平。
