1 Shanghai Key Laboratory of Orthopaedic Implants, Shanghai Ninth People's Hospital, Shanghai Jiao Tong University School of Medicine, Shang Hai, P.R. China.
2 Department of Orthopaedic Surgery, Shanghai Ninth People's Hospital, Shanghai JiaoTong University School of Medicine, Shanghai, P.R. China.
Cell Transplant. 2019 Feb;28(2):212-223. doi: 10.1177/0963689718818096. Epub 2018 Dec 17.
Bone non-union after fracture, considered a therapeutic challenge for orthopedics, always needs a reversion surgery, including autograft transplantation (AGT). However, adverse events related to autograft harvest cannot be ignored. Our group designed a novel system called the bone marrow stem cell Screen-Enrich-Combine Circulating System (SECCS) by seeding mesenchymal stem cells (MSCs) into β-tricalcium phosphate (β-TCP) during surgery to thereafter rapidly process bioactive bone implantation. In this retrospective case-control study, 30 non-union patients who accepted SECCS therapy and 20 non-union patients who accepted AGT were enrolled. By SECCS therapy, the MSC-enriched β-TCP particles were implanted into the non-union gap. During the enrichment procedure, a significant proportion of MSCs were screened and enriched from bone marrow into porous β-TCP particles, and the cells possessed the capacity for three-line differentiation and were CD90/CD105/CD34/CD45. Approximately 82.0±10.7% of MSCs were enriched from 60 mL bone marrow without damaging cell viability, and approximately 11,444.0±6,018 MSCs were transplanted per patient. No implant-related infections occurred in any case. After 9 months of follow-up, 27 patients (90%) in the SECCS group acquired clinical union, compared with 18 patients (90%) in the AGT group (clinical union time, P = 0.064), and postoperative radiographic union score at 9 months post-operation was similar between the two groups. In conclusion, the SECCS could concentrate a large proportion of MSCs from bone marrow to acquire enough effective cells for therapy without in vitro cell culture. Bone substitutes processed by SECCS demonstrated encouraging promotion of bone regeneration and showed a satisfactory clinical curative effect for diaphyseal bone non-union, which was non-inferior to AGT.
骨折后骨不连被认为是骨科治疗的一大挑战,通常需要进行翻修手术,包括自体移植物移植(AGT)。然而,自体移植物采集相关的不良事件不容忽视。我们的团队设计了一种新型系统,称为骨髓干细胞筛选-富集-结合循环系统(SECCS),即在手术中将间充质干细胞(MSCs)种植到β-磷酸三钙(β-TCP)中,随后快速处理生物活性骨植入物。在这项回顾性病例对照研究中,纳入了 30 例接受 SECCS 治疗的骨不连患者和 20 例接受 AGT 治疗的骨不连患者。通过 SECCS 治疗,将富含 MSC 的 β-TCP 颗粒植入骨不连间隙。在富集过程中,从骨髓中筛选出大量 MSC 并富集到多孔的 β-TCP 颗粒中,细胞具有三系分化的能力,并且 CD90/CD105/CD34/CD45 阳性。从 60ml 骨髓中可富集约 82.0±10.7%的 MSC,且不会损伤细胞活力,每位患者可移植约 11444.0±6018 个 MSC。在任何情况下都没有发生与植入物相关的感染。9 个月随访后,SECCS 组 27 例(90%)患者获得临床愈合,AGT 组 18 例(90%)患者获得临床愈合(临床愈合时间,P=0.064),术后 9 个月的影像学愈合评分在两组间无显著差异。总之,SECCS 可从骨髓中浓缩大量 MSC,获得足够的有效细胞进行治疗,而无需体外细胞培养。SECCS 处理的骨替代物在促进骨再生方面表现出令人鼓舞的效果,且对于骨干骨不连的临床疗效令人满意,不劣于 AGT。
