Cassuto Jean, Folestad Agnetha, Göthlin Jan, Malchau Henrik, Kärrholm Johan
Orthopedic Research Unit & Department of Orthopedic Surgery, Sahlgrenska University Hospital, Mölndal, Sweden.
Institution of Clinical Sciences, Göteborg University, Göteborg, Sweden.
Bone Rep. 2023 Nov 10;19:101723. doi: 10.1016/j.bonr.2023.101723. eCollection 2023 Dec.
Osseointegration of hip implants, although a decade-long process, shows striking similarities with the four major phases of endochondral bone repair. In the current study we investigated the spatiotemporal involvement of bone morphogenic proteins (BMPs) and transforming growth factor betas (TGF-βs) throughout the process of bone repair leading to successfully osseointegrated hip implants.
Twenty-four patients that had undergone primary total hip arthroplasty (THA) due to one-sided osteoarthritis (OA) were investigated during a period of 18 years (Y) with repeated measurements of plasma biomarkers as well as clinical and radiological variables. All implants were clinically and radiographically well anchored throughout the follow-up. Eighty-one healthy donors divided in three gender- and age-matched groups and twenty OA patients awaiting THA, served as controls. Plasma was analyzed for BMP-1, -2, -3, -4, -6, -7 -9 and TGF-β1, -β2, -β3 by use of a high-sensitivity and wide dynamic range electrochemiluminescence technique allowing for detection of minor changes.
Spatiotemporal changes during the follow-up are presented in the context of the four phases of endochondral bone repair shown in earlier studies and transposed to the current study based on similarities in biomarker responses. Phase 1: lasting from surgery until day 7, Phase 2: from day 7 until 18 months postsurgery, Phase 3: lasting from 18 months until 7Y, Phase 4: from 7Y until 18Y postsurgery. BMP-1 increased sharply shortly after surgery and remained significantly above healthy during the chondrocyte recruitment, proliferation, and hypertrophy phases with a subsequent return to control level at 5Y postsurgery. BMP-2 was above healthy controls before surgery and 1 day after surgery before decreasing to control level and remaining there throughout the follow-up. BMP-3 was at control level from presurgery until 6M after surgery when it increased to a peak at 2Y during the cartilage hypertrophy phase followed by a gradual decrease to control level at 10Y during the phase of bone formation. In the following, BMP-3 decreased below controls to a nadir 15Y postsurgery during coupled bone remodeling. BMP-4 was at control level from presurgery until 10Y postsurgery when it increased to a sharp peak at 15Y after surgery followed by a return to the level of healthy at 18Y. BMP-6 did not differ from healthy during the follow-up. BMP-7 was at control level from presurgery until 1Y postsurgery before gradually increasing to a peak at 10Y during the early phase of osteogenesis with a gradual return to control level at 18Y during the phase of coupled bone remodeling. BMP-9 was above OA before surgery followed by a decrease to basal level on day 1 after surgery and a renewed increase to a plateau above controls lasting from 6 W until returning to the level of healthy at 18Y postsurgery, i.e., throughout the phases of cartilage formation, cartilage hypertrophy and remodeling, bone formation and coupled bone remodeling. TGF-β1 was above controls presurgery before decreasing to baseline shortly after surgery followed by a renewed increase at 6 M to a peak at 2Y during cartilage hypertrophy/remodeling followed by a gradual return to baseline at 10Y during early osteoblastogenesis. TGF-β2 was at control level from presurgery until the phase of cartilage remodeling at 5Y when it increased sharply to a peak at 7Y with a gradual return to baseline at 18Y postsurgery. TGF-β3 remained at control level throughout the study.
This study shows that the involvement of BMPs and TGF-βs in endochondral bone repair is a process of stepwise recruitment of individual biomarkers characterized by distinct, yet overlaping, spatiotemporal patterns that extend from the early phase of pre-chondrocyte recruitment until the late phase of coupled bone remodeling.
髋关节植入物的骨整合过程虽然长达十年,但与软骨内骨修复的四个主要阶段有着显著的相似之处。在本研究中,我们调查了骨形态发生蛋白(BMP)和转化生长因子β(TGF-β)在导致髋关节植入物成功骨整合的骨修复过程中的时空参与情况。
对24例因单侧骨关节炎(OA)接受初次全髋关节置换术(THA)的患者进行了为期18年的研究,重复测量血浆生物标志物以及临床和放射学变量。在整个随访过程中,所有植入物在临床和影像学上均固定良好。81名健康供体分为三个性别和年龄匹配的组,以及20名等待THA的OA患者作为对照。使用高灵敏度和宽动态范围的电化学发光技术分析血浆中的BMP-1,-2,-3,-4,-6,-7,-9和TGF-β1,-β2,-β3,以检测微小变化。
随访期间的时空变化是在早期研究中显示的软骨内骨修复的四个阶段的背景下呈现的,并根据生物标志物反应的相似性转换到本研究中。第1阶段:从手术持续到第7天,第2阶段:从第7天到术后18个月,第3阶段:从18个月持续到7年,第4阶段:从7年到术后18年。BMP-1在手术后不久急剧增加,在软骨细胞募集、增殖和肥大阶段显著高于健康水平,随后在术后5年恢复到对照水平。BMP-2在手术前和手术后1天高于健康对照,然后降至对照水平并在整个随访期间保持在该水平。BMP-3从术前到术后6个月处于对照水平,然后在软骨肥大阶段的2年时增加到峰值,随后在骨形成阶段的10年逐渐降至对照水平。在接下来的耦合骨重塑过程中,BMP-3在术后15年降至对照水平以下至最低点。BMP-4从术前到术后10年处于对照水平,然后在术后15年急剧增加到峰值,随后在术后18年恢复到健康水平。BMP-6在随访期间与健康水平无差异。BMP-7从术前到术后1年处于对照水平,然后在成骨早期逐渐增加到10年的峰值,在耦合骨重塑阶段的18年逐渐恢复到对照水平。BMP-9在手术前高于OA患者,然后在术后第1天降至基础水平,并在术后6周再次增加到高于对照的平台期,持续到术后18年恢复到健康水平,即在软骨形成、软骨肥大和重塑、骨形成和耦合骨重塑的整个阶段。TGF-β1在术前高于对照,然后在手术后不久降至基线,随后在6个月时再次增加,在软骨肥大/重塑阶段的2年达到峰值,随后在早期成骨细胞生成阶段的10年逐渐恢复到基线。TGF-β2从术前到术后5年的软骨重塑阶段处于对照水平,然后在术后7年急剧增加到峰值,在术后18年逐渐恢复到基线。TGF-β3在整个研究过程中保持在对照水平。
本研究表明,BMP和TGF-β在软骨内骨修复中的参与是一个逐步招募个体生物标志物的过程,其特征是从软骨前体细胞募集的早期阶段到耦合骨重塑的后期阶段具有独特但重叠的时空模式。
