18F 氟 PET/CT 是诊断全关节成形术后松动的准确工具吗?

IF 4.2 2区 医学 Q1 ORTHOPEDICS
Caroline Sköld,Jens Sörensen,Anders Brüggemann,Nils P Hailer
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(2) Can 18F-fluoride uptake measures provide a threshold that differentiates loose from well-fixed implants undergoing revision for a variety of septic and aseptic indications? (3) In a population restricted to THA and TKA undergoing revision for aseptic indications, can measurement of 18F-fluoride uptake still distinguish loose from well-fixed components? (4) What is the interrater reliability of measuring 18F-fluoride uptake?\r\n\r\nMETHODS\r\nThis was a retrospective assessment of a diagnostic test, 18F-fluoride PET/CT, which was performed prior to revision surgery. We included 63 patients with 31 THAs and 32 TKAs. Sixty-five percent of patients were female, and the mean age at 18F-fluoride PET/CT was 66 years. The THA had different modes of fixation (cemented, cementless, and hybrid; 45%, 32%, and 23%, respectively), whereas all TKAs were cemented. Imaging was conducted using routine protocols 1 hour after tracer injection. The interobserver reproducibility was analyzed using Spearman rank correlations and Bland-Altman analyses. Two independent observers were trained separately by a nuclear physician to measure maximal periprosthetic standardized uptake values (SUVmax) for each arthroplasty component (n = 126). Findings at surgery (whether the components were well fixed or loose, as well as the presence or absence of infection) were used as a reference. Presence of periprosthetic joint infection was retrospectively determined based on the criteria suggested by the European Bone and Joint Infection Society (EBJIS): clinical features in combination with blood analysis, synovial fluid cytologic analysis, and microbiology test results. Receiver operating characteristic (ROC) curves were plotted to assess the area under the curve (AUC) for each investigated component separately, indicating suitable SUVmax thresholds that differentiate loose from well-fixed components. After excluding patients with confirmed or suspected PJI per the EBJIS criteria (n = 12), the above analysis was repeated for the remaining patients with aseptic loosening (n = 51).\r\n\r\nRESULTS\r\nWe found higher 18F-fluoride uptake around loose versus well-fixed components in all but femoral TKA components (median [range] SUVmax for well-fixed versus loose THA cups 10 [7 to 30] versus 22 [6 to 64], difference of medians 12; p = 0.003; well-fixed versus loose TKA femoral components 14 [4 to 41] versus 19 [9 to 42], difference of medians 5; p = 0.38). We identified favorable ROC curves for all investigated components except femoral TKA components (THA cups AUC 0.81 [best threshold 13.9]; THA femoral stems AUC 0.9 [best threshold 17.3]; femoral TKA components AUC 0.6 [best threshold 14.3]; tibial TKA components AUC 0.83 [best threshold 15.8]). 18F-fluoride was even more accurate at diagnosing loosening when we limited the population to those patients believed not to have prosthetic joint infection (THA cups AUC 0.87 [best threshold 14.2]; THA femoral stems AUC 0.93 [best threshold 15.0]; femoral TKA components AUC 0.65 [best threshold 15.8]; tibial TKA components AUC 0.86 [best threshold 14.7]). We found strong interrater correlation when assessing SUVmax values, with Spearman ρ values ranging from 0.96 to 0.99 and Bland-Altman plots indicating excellent agreement between the two independent observers.\r\n\r\nCONCLUSION\r\nMeasuring SUVmax after 18F-fluoride PET/CT is a useful adjunct in the diagnostic evaluation for suspected implant loosening after THA and TKA. The method appears to be both accurate and reliable in diagnosing implant loosening for all components except femoral TKA components. In a real-world mixed population with both low-grade infection and aseptic loosening, the method seems to be fairly easy to learn and helpful to subspecialized arthroplasty clinicians. When infection can be ruled out, the method probably performs even better. Further prospective studies are warranted to explore the reason why femoral TKA component loosening was more difficult to ascertain using this novel technique.\r\n\r\nLEVEL OF EVIDENCE\r\nLevel III, diagnostic study.","PeriodicalId":10404,"journal":{"name":"Clinical Orthopaedics and Related Research®","volume":null,"pages":null},"PeriodicalIF":4.2000,"publicationDate":"2024-09-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Is 18F-fluoride PET/CT an Accurate Tool to Diagnose Loosening After Total Joint Arthroplasty?\",\"authors\":\"Caroline Sköld,Jens Sörensen,Anders Brüggemann,Nils P Hailer\",\"doi\":\"10.1097/corr.0000000000003228\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"BACKGROUND\\r\\nSeveral studies using positron emission tomography (PET) show highly elevated periprosthetic bone uptake of fluorine-18 sodium fluoride (18F-fluoride), suggestive of implant loosening after arthroplasty. Focus so far has been on qualitative but not on quantitative assessment. There is also a lack of intraoperative confirmation of preoperative 18F-fluoride PET findings. Although the method seems to have acceptable accuracy and high sensitivity, an attempt to improve the specificity and an overall validation of the method appear warranted.\\r\\n\\r\\nQUESTIONS/PURPOSES\\r\\n(1) Is there a difference in 18F-fluoride uptake around loose versus well-fixed THA and TKA components? (2) Can 18F-fluoride uptake measures provide a threshold that differentiates loose from well-fixed implants undergoing revision for a variety of septic and aseptic indications? (3) In a population restricted to THA and TKA undergoing revision for aseptic indications, can measurement of 18F-fluoride uptake still distinguish loose from well-fixed components? (4) What is the interrater reliability of measuring 18F-fluoride uptake?\\r\\n\\r\\nMETHODS\\r\\nThis was a retrospective assessment of a diagnostic test, 18F-fluoride PET/CT, which was performed prior to revision surgery. We included 63 patients with 31 THAs and 32 TKAs. Sixty-five percent of patients were female, and the mean age at 18F-fluoride PET/CT was 66 years. The THA had different modes of fixation (cemented, cementless, and hybrid; 45%, 32%, and 23%, respectively), whereas all TKAs were cemented. Imaging was conducted using routine protocols 1 hour after tracer injection. The interobserver reproducibility was analyzed using Spearman rank correlations and Bland-Altman analyses. Two independent observers were trained separately by a nuclear physician to measure maximal periprosthetic standardized uptake values (SUVmax) for each arthroplasty component (n = 126). Findings at surgery (whether the components were well fixed or loose, as well as the presence or absence of infection) were used as a reference. Presence of periprosthetic joint infection was retrospectively determined based on the criteria suggested by the European Bone and Joint Infection Society (EBJIS): clinical features in combination with blood analysis, synovial fluid cytologic analysis, and microbiology test results. Receiver operating characteristic (ROC) curves were plotted to assess the area under the curve (AUC) for each investigated component separately, indicating suitable SUVmax thresholds that differentiate loose from well-fixed components. After excluding patients with confirmed or suspected PJI per the EBJIS criteria (n = 12), the above analysis was repeated for the remaining patients with aseptic loosening (n = 51).\\r\\n\\r\\nRESULTS\\r\\nWe found higher 18F-fluoride uptake around loose versus well-fixed components in all but femoral TKA components (median [range] SUVmax for well-fixed versus loose THA cups 10 [7 to 30] versus 22 [6 to 64], difference of medians 12; p = 0.003; well-fixed versus loose TKA femoral components 14 [4 to 41] versus 19 [9 to 42], difference of medians 5; p = 0.38). We identified favorable ROC curves for all investigated components except femoral TKA components (THA cups AUC 0.81 [best threshold 13.9]; THA femoral stems AUC 0.9 [best threshold 17.3]; femoral TKA components AUC 0.6 [best threshold 14.3]; tibial TKA components AUC 0.83 [best threshold 15.8]). 18F-fluoride was even more accurate at diagnosing loosening when we limited the population to those patients believed not to have prosthetic joint infection (THA cups AUC 0.87 [best threshold 14.2]; THA femoral stems AUC 0.93 [best threshold 15.0]; femoral TKA components AUC 0.65 [best threshold 15.8]; tibial TKA components AUC 0.86 [best threshold 14.7]). We found strong interrater correlation when assessing SUVmax values, with Spearman ρ values ranging from 0.96 to 0.99 and Bland-Altman plots indicating excellent agreement between the two independent observers.\\r\\n\\r\\nCONCLUSION\\r\\nMeasuring SUVmax after 18F-fluoride PET/CT is a useful adjunct in the diagnostic evaluation for suspected implant loosening after THA and TKA. The method appears to be both accurate and reliable in diagnosing implant loosening for all components except femoral TKA components. In a real-world mixed population with both low-grade infection and aseptic loosening, the method seems to be fairly easy to learn and helpful to subspecialized arthroplasty clinicians. When infection can be ruled out, the method probably performs even better. 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引用次数: 0

摘要

背景:几项使用正电子发射断层扫描(PET)的研究显示,假体周围骨对氟-18 氟化钠(18F-fluoride)的摄取高度升高,提示关节置换术后假体松动。迄今为止,研究重点一直放在定性而非定量评估上。术中也缺乏对术前 18F 氟化物 PET 结果的确认。尽管该方法似乎具有可接受的准确性和高灵敏度,但仍有必要尝试提高特异性并对该方法进行全面验证。问题/提案(1)松动与固定良好的 THA 和 TKA 组件周围的 18F 氟摄取量是否存在差异?(2)18F-氟化物摄取量能否提供一个阈值,以区分因各种化脓性和无菌性适应症进行翻修的松动和固定良好的植入物?(3) 在仅限于因无菌适应症接受翻修的 THA 和 TKA 患者中,18F-氟吸收测量仍能区分松动和固定良好的植入物吗?(4) 测量 18F 氟化物摄取量的交互可靠性如何?我们纳入了 63 名患者,其中有 31 名 THAs 和 32 名 TKAs 患者。65%的患者为女性,接受18F-氟化物PET/CT检查时的平均年龄为66岁。THA有不同的固定方式(骨水泥固定、无骨水泥固定和混合固定;分别占45%、32%和23%),而所有TKAs均为骨水泥固定。在注射示踪剂一小时后按常规方案进行成像。采用斯皮尔曼秩相关和布兰-阿尔特曼分析法对观察者之间的再现性进行了分析。两名独立的观察者分别接受核医师的培训,测量每个关节置换组件(n = 126)的最大假体周围标准化摄取值(SUVmax)。手术时的检查结果(组件是固定良好还是松动,以及有无感染)作为参考。根据欧洲骨与关节感染协会(EBJIS)提出的标准:临床特征结合血液分析、滑膜液细胞学分析和微生物学检测结果,对是否存在假体周围关节感染进行回顾性判断。绘制了接收者操作特征曲线(ROC),以分别评估每个受检成分的曲线下面积(AUC),从而显示出区分松散成分和固定良好成分的合适 SUVmax 阈值。根据 EBJIS 标准排除确诊或疑似 PJI 患者(12 人)后,对其余无菌性松动患者(51 人)重复上述分析。结果我们发现,除股骨 TKA 组件外,所有松动组件周围的 18F 氟化物摄取量均高于固定良好的组件(固定良好与松动 THA 杯的 SUVmax 中位数[范围]分别为 10 [7 至 30] 对 22 [6 至 64],中位数差异为 12;P = 0.003;固定良好与松动 TKA 股骨组件的 SUVmax 中位数分别为 14 [4 至 41] 对 19 [9 至 42],中位数差异为 5;P = 0.38)。除股骨 TKA 组件外,我们发现所有研究组件都有良好的 ROC 曲线(THA 杯 AUC 0.81 [最佳阈值 13.9];THA 股骨柄 AUC 0.9 [最佳阈值 17.3];股骨 TKA 组件 AUC 0.6 [最佳阈值 14.3];胫骨 TKA 组件 AUC 0.83 [最佳阈值 15.8])。当我们将研究对象限制在那些被认为没有假体关节感染的患者时,18F-氟化物在诊断松动方面的准确性更高(THA 杯部 AUC 0.87 [最佳阈值 14.2];THA 股骨柄 AUC 0.93 [最佳阈值 15.0];TKA 股骨组件 AUC 0.65 [最佳阈值 15.8];TKA 胫骨组件 AUC 0.86 [最佳阈值 14.7])。在评估 SUVmax 值时,我们发现了很强的校正间相关性,Spearman ρ 值范围在 0.96 到 0.99 之间,Bland-Altman 图显示两位独立观察者之间的一致性非常好。结论18F-氟化物 PET/CT 后测量 SUVmax 是诊断评估 THA 和 TKA 后疑似假体松动的有用辅助方法。该方法在诊断除股骨 TKA 组件以外的所有组件的植入物松动方面似乎既准确又可靠。在现实世界中既有低度感染又有无菌性松动的混合人群中,该方法似乎相当容易掌握,对专业关节成形术临床医生很有帮助。当可以排除感染时,该方法的效果可能会更好。我们有必要开展进一步的前瞻性研究,以探索使用这种新技术更难确定股骨 TKA 组件松动的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Is 18F-fluoride PET/CT an Accurate Tool to Diagnose Loosening After Total Joint Arthroplasty?
BACKGROUND Several studies using positron emission tomography (PET) show highly elevated periprosthetic bone uptake of fluorine-18 sodium fluoride (18F-fluoride), suggestive of implant loosening after arthroplasty. Focus so far has been on qualitative but not on quantitative assessment. There is also a lack of intraoperative confirmation of preoperative 18F-fluoride PET findings. Although the method seems to have acceptable accuracy and high sensitivity, an attempt to improve the specificity and an overall validation of the method appear warranted. QUESTIONS/PURPOSES (1) Is there a difference in 18F-fluoride uptake around loose versus well-fixed THA and TKA components? (2) Can 18F-fluoride uptake measures provide a threshold that differentiates loose from well-fixed implants undergoing revision for a variety of septic and aseptic indications? (3) In a population restricted to THA and TKA undergoing revision for aseptic indications, can measurement of 18F-fluoride uptake still distinguish loose from well-fixed components? (4) What is the interrater reliability of measuring 18F-fluoride uptake? METHODS This was a retrospective assessment of a diagnostic test, 18F-fluoride PET/CT, which was performed prior to revision surgery. We included 63 patients with 31 THAs and 32 TKAs. Sixty-five percent of patients were female, and the mean age at 18F-fluoride PET/CT was 66 years. The THA had different modes of fixation (cemented, cementless, and hybrid; 45%, 32%, and 23%, respectively), whereas all TKAs were cemented. Imaging was conducted using routine protocols 1 hour after tracer injection. The interobserver reproducibility was analyzed using Spearman rank correlations and Bland-Altman analyses. Two independent observers were trained separately by a nuclear physician to measure maximal periprosthetic standardized uptake values (SUVmax) for each arthroplasty component (n = 126). Findings at surgery (whether the components were well fixed or loose, as well as the presence or absence of infection) were used as a reference. Presence of periprosthetic joint infection was retrospectively determined based on the criteria suggested by the European Bone and Joint Infection Society (EBJIS): clinical features in combination with blood analysis, synovial fluid cytologic analysis, and microbiology test results. Receiver operating characteristic (ROC) curves were plotted to assess the area under the curve (AUC) for each investigated component separately, indicating suitable SUVmax thresholds that differentiate loose from well-fixed components. After excluding patients with confirmed or suspected PJI per the EBJIS criteria (n = 12), the above analysis was repeated for the remaining patients with aseptic loosening (n = 51). RESULTS We found higher 18F-fluoride uptake around loose versus well-fixed components in all but femoral TKA components (median [range] SUVmax for well-fixed versus loose THA cups 10 [7 to 30] versus 22 [6 to 64], difference of medians 12; p = 0.003; well-fixed versus loose TKA femoral components 14 [4 to 41] versus 19 [9 to 42], difference of medians 5; p = 0.38). We identified favorable ROC curves for all investigated components except femoral TKA components (THA cups AUC 0.81 [best threshold 13.9]; THA femoral stems AUC 0.9 [best threshold 17.3]; femoral TKA components AUC 0.6 [best threshold 14.3]; tibial TKA components AUC 0.83 [best threshold 15.8]). 18F-fluoride was even more accurate at diagnosing loosening when we limited the population to those patients believed not to have prosthetic joint infection (THA cups AUC 0.87 [best threshold 14.2]; THA femoral stems AUC 0.93 [best threshold 15.0]; femoral TKA components AUC 0.65 [best threshold 15.8]; tibial TKA components AUC 0.86 [best threshold 14.7]). We found strong interrater correlation when assessing SUVmax values, with Spearman ρ values ranging from 0.96 to 0.99 and Bland-Altman plots indicating excellent agreement between the two independent observers. CONCLUSION Measuring SUVmax after 18F-fluoride PET/CT is a useful adjunct in the diagnostic evaluation for suspected implant loosening after THA and TKA. The method appears to be both accurate and reliable in diagnosing implant loosening for all components except femoral TKA components. In a real-world mixed population with both low-grade infection and aseptic loosening, the method seems to be fairly easy to learn and helpful to subspecialized arthroplasty clinicians. When infection can be ruled out, the method probably performs even better. Further prospective studies are warranted to explore the reason why femoral TKA component loosening was more difficult to ascertain using this novel technique. LEVEL OF EVIDENCE Level III, diagnostic study.
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来源期刊
CiteScore
7.00
自引率
11.90%
发文量
722
审稿时长
2.5 months
期刊介绍: Clinical Orthopaedics and Related Research® is a leading peer-reviewed journal devoted to the dissemination of new and important orthopaedic knowledge. CORR® brings readers the latest clinical and basic research, along with columns, commentaries, and interviews with authors.
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