d-[5-¹¹C]-Glutamine Positron Emission Tomography Imaging for Diagnosis and Therapeutic Monitoring of Orthopedic Implant Infections.

IF 4 2区医学 Q2 CHEMISTRY, MEDICINAL ACS Infectious Diseases Pub Date : 2025-01-10 Epub Date: 2024-10-15 DOI:10.1021/acsinfecdis.4c00487

Cynthia M Co, Aditi Mulgaonkar, Ning Zhou, Tam P Nguyen, Shelby Harris, Amber Sherwood, Vicki Ea, Katie Rubitschung, Laila Castellino, Orhan K Öz, Xiankai Sun, Liping Tang

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Abstract

Orthopedic implant infections (OIIs) present diagnostic and therapeutic challenges, owing to the lack of methods to distinguish between active infection and sterile inflammation. To address this unmet need, d-amino-acid-based radiotracers with unique metabolic profiles in microorganisms have emerged as a novel class of infection-specific imaging agents. Given the pivotal role of d-glutamine in bacterial biofilm formation and virulence, herein, we explored the potential of positron emission tomography (PET) imaging with d-[5-¹¹C]-Glutamine (d-[5-¹¹C]-Gln) for early detection and treatment monitoring of OIIs. In vitro studies confirmed an active uptake of d-[5-¹¹C]-Gln by Staphylococcus aureus (S. aureus) biofilm commonly associated with OIIs. In vivo evaluations included PET imaging comparisons with d-[5-¹¹C]-Gln vs l-[5-¹¹C]-Gln or 2-deoxy-2-[¹⁸F]-fluoroglucose ([¹⁸F]-FDG) in a rat OII model with tibial implantation of sterile or S. aureus-colonized stainless-steel screws before and after treatment. These studies demonstrated that the uptake of d-[5-¹¹C]-Gln was significantly higher in the infected screws than that in sterile screws (∼3.4-fold, p = 0.008), which displayed significantly higher infection-to-background muscle uptake ratios (∼2-fold, p = 0.011) with d-[5-¹¹C]-Gln as compared to l-[5-¹¹C]-Gln. Following a 3 week vancomycin treatment, imaging with d-[5-¹¹C]-Gln showed a significant reduction in uptake at the infected sites (∼3-fold, p = 0.0008). Further regression analyses revealed a superior correlation of residual infection-associated radiotracer uptake with the postimaging ex vivo bacterial counts for d-[5-¹¹C]-Gln (k = 0.473, R² = 0.796) vs [¹⁸F]-FDG (k = 0.212, R² = 0.434), suggesting that d-[5-¹¹C]-Gln PET had higher sensitivity for detecting residual bacterial burden than [¹⁸F]-FDG PET. Our results demonstrate the translational potential of d-[5-¹¹C]-Gln PET imaging for noninvasive detection and treatment monitoring of OIIs.

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d-[5-11C]-谷氨酰胺正电子发射断层扫描成像用于骨科植入物感染的诊断和治疗监测。

由于缺乏区分活动性感染和无菌性炎症的方法，骨科植入物感染（OIIs）给诊断和治疗带来了挑战。为了满足这一尚未满足的需求，在微生物中具有独特代谢特征的 d-氨基酸类放射性racers 已成为一类新型感染特异性成像剂。鉴于 d-谷氨酰胺在细菌生物膜形成和毒力中的关键作用，我们在本文中探讨了 d-[5-11C]- 谷氨酰胺（d-[5-11C]-Gln）正电子发射断层扫描（PET）成像在 OII 早期检测和治疗监测中的潜力。体外研究证实了金黄色葡萄球菌（S. aureus）生物膜对 d-[5-11C]-Gln 的主动吸收，这种生物膜通常与 OII 相关。体内评估包括在大鼠 OII 模型中使用 d-[5-11C]-Gln 与 l-[5-11C]-Gln 或 2-脱氧-2-[18F]-氟葡萄糖（[18F]-FDG）进行 PET 成像比较，治疗前后在大鼠胫骨植入无菌或金黄色葡萄球菌感染的不锈钢螺钉。这些研究表明，受感染螺钉对 d-[5-11C]-Gln 的摄取量明显高于无菌螺钉（3.4 倍，p = 0.008），与 l-[5-11C]-Gln 相比，d-[5-11C]-Gln 的感染与背景肌肉摄取比明显更高（2 倍，p = 0.011）。万古霉素治疗 3 周后，使用 d-[5-11C]-Gln 进行成像显示，感染部位的摄取量显著减少（3 倍，p = 0.0008）。进一步的回归分析表明，d-[5-11C]-Gln（k = 0.473，R2 = 0.796）与[18F]-FDG（k = 0.212，R2 = 0.434）相比，残余感染相关放射性示踪剂摄取量与成像后体内外细菌计数的相关性更高，表明 d-[5-11C]-Gln PET 在检测残余细菌负担方面比[18F]-FDG PET 具有更高的灵敏度。我们的研究结果证明了 d-[5-11C]-Gln PET 成像在无创检测和治疗监测 OII 方面的转化潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Infectious Diseases CHEMISTRY, MEDICINALINFECTIOUS DISEASES&nb-INFECTIOUS DISEASES

CiteScore

9.70

自引率

3.80%

发文量

213

期刊介绍： ACS Infectious Diseases will be the first journal to highlight chemistry and its role in this multidisciplinary and collaborative research area. The journal will cover a diverse array of topics including, but not limited to: * Discovery and development of new antimicrobial agents — identified through target- or phenotypic-based approaches as well as compounds that induce synergy with antimicrobials. * Characterization and validation of drug target or pathways — use of single target and genome-wide knockdown and knockouts, biochemical studies, structural biology, new technologies to facilitate characterization and prioritization of potential drug targets. * Mechanism of drug resistance — fundamental research that advances our understanding of resistance; strategies to prevent resistance. * Mechanisms of action — use of genetic, metabolomic, and activity- and affinity-based protein profiling to elucidate the mechanism of action of clinical and experimental antimicrobial agents. * Host-pathogen interactions — tools for studying host-pathogen interactions, cellular biochemistry of hosts and pathogens, and molecular interactions of pathogens with host microbiota. * Small molecule vaccine adjuvants for infectious disease. * Viral and bacterial biochemistry and molecular biology.