Stevenson Jonathan, Siddiqi M Ather, Sheehy Vicky, Kendrick Ben, Whitwell Duncan, Taylor Adrian, Blunn Gordon, Mohammad Hasan R, Kamath Atul F, Thoma Sofia
Royal Orthopaedic Hospital NHS Foundation Trust, Bristol Road South, Northfield, Birmingham, B31 2AP, UK.
Aston University Medical School, Aston University, Birmingham, B4 7ET, UK.
Arthroplasty. 2024 Mar 2;6(1):17. doi: 10.1186/s42836-023-00230-2.
Limb-salvage surgery involving the utilization of endoprosthetic replacements is commonly employed following segmental bone resection for primary and secondary bone tumors. This study aimed to evaluate whether a fully porous bridging collar promotes early osseous integration in endoprosthetic replacements.
We undertook a retrospective review of all lower-limb endoprostheses utilizing a fully porous endosteal bridging collar design. We matched this cohort with a conventional extra-osteal non-porous fully hydroxyapatite-coated grooved collar cohort according to surgical indication, implant type, resection length, age, and follow-up time. At 6, 12, and 24 months post-implantation, radiographs were assessed for the number of cortices with or without osseointegration on orthogonal radiographs. Each radiograph was scored on a scale of -4 to + 4 for the number of cortices bridging the ongrowth between the bone and the collar of the prosthesis. Implant survival was estimated using the Kaplan-Meier method, and the mean number of osseointegrated cortices at each time point between the collar designs was compared using a paired t-test.
Ninety patients were retrospectively identified and analyzed. After exclusion, 40 patients with porous bridging collars matched with 40 patients with conventional extra-osteal non-porous collars were included in the study (n = 80). The mean age was 63.4 years (range 16-91 years); there were 37 males and 43 females. The groups showed no difference in implant survival (P = 0.54). The mean number of cortices with radiographic ongrowth for the porous bridging collar and non-porous collar groups was 2.1 and 0.3, respectively, at 6-month (P < 0.0001), 2.4 and 0.5, respectively, at 12-month (P = 0.044), and 3.2 and -0.2, respectively, at 24-month (P = 0.18) radiological follow-up.
These findings indicate that fully porous bridging collars increased the number of cortices, with evidence of bone ongrowth between 6 and 24 months post-implantation. By contrast, extra-osteal collars exhibited reduced evidence of ongrowth between 6 and 24 months post-implantation. In the medium term, the use of a fully porous bridging collar may translate to a reduced incidence of aseptic loosening.
在对原发性和继发性骨肿瘤进行节段性骨切除术后,常采用涉及使用内置假体置换的保肢手术。本研究旨在评估全多孔桥接环是否能促进内置假体置换中的早期骨整合。
我们对所有采用全多孔骨内膜桥接环设计的下肢内置假体进行了回顾性研究。根据手术指征、植入物类型、切除长度、年龄和随访时间,将该队列与传统的骨外非多孔全羟基磷灰石涂层带槽环队列进行匹配。在植入后6、12和24个月,对正位X线片进行评估,以确定有无骨整合的皮质骨数量。每张X线片根据桥接假体骨与环之间生长的皮质骨数量在-4至+4的范围内评分。使用Kaplan-Meier方法估计植入物存活率,并使用配对t检验比较两种环设计在每个时间点的平均骨整合皮质骨数量。
回顾性确定并分析了90例患者。排除后,40例使用多孔桥接环的患者与40例使用传统骨外无孔环的患者纳入研究(n = 80)。平均年龄为63.4岁(范围16 - 91岁);男性37例,女性43例。两组在植入物存活率方面无差异(P = 0.54)。在6个月时,多孔桥接环组和无孔环组影像学显示生长的皮质骨平均数量分别为2.1和0.3(P < 0.0001),在12个月时分别为2.4和0.5(P = 0.044),在24个月影像学随访时分别为3.2和 -0.2(P = 0.18)。
这些发现表明,全多孔桥接环增加了皮质骨数量,在植入后6至24个月有骨生长的证据。相比之下,骨外环在植入后6至24个月显示生长的证据减少。从中期来看,使用全多孔桥接环可能会降低无菌性松动的发生率。