血液基因表达谱分析和供体来源的游离DNA用于无创诊断临床和亚临床肾移植排斥反应:一项真实世界评估研究。
Blood Gene Expression Profiling and Donor-derived Cell-free DNA to Noninvasively Diagnose Clinical and Subclinical Kidney Transplant Rejection: A Real-life Appraisal Study.
作者信息
Sellarés Joana, Casanova Franc, Perez-Saez M J, Cucchiari David, Coloma Ana, Vila Anna, Facundo Carme, Kervella Delphine, Molina Maria, Moreso Francesc, Melilli Edoardo, Diekmann Fritz, Crespo Marta, Bestard Oriol
机构信息
Kidney Transplant Unit, Nephrology Department, Vall d'Hebron University Hospital, Barcelona, Spain.
Nephrology and Kidney Transplantation Research Laboratory, Vall d'Hebron for Solid Organ Transplantation Research Group, Vall d'Hebron Research Institute, Barcelona, Spain.
出版信息
Transplantation. 2025 Jun 1;109(6):1026-1037. doi: 10.1097/TP.0000000000005257. Epub 2024 Nov 18.
BACKGROUND
Peripheral blood biomarkers aim to noninvasively diagnose kidney allograft rejection, but most lack robust independent validation. TruGraf is intended to exclude subclinical cellular rejection (TCMR), whereas donor-derived cell-free DNA Viracor-TRAC has proven value in excluding antibody-mediated rejection (AMR). We aim to validate both biomarkers for accurate rejection diagnosis in a real-world clinical setting.
METHODS
We prospectively included 230 unselected, consecutive kidney transplants from 6 centers undergoing for-cause and protocol biopsies with paired blood samples from December 2021 to 2022. TruGraf and Viracor-TRAC were blindly run by a central laboratory.
RESULTS
The incidence of rejection was 22.6% (17.3% surveillance; 27% for-cause biopsies). Inflammation was associated with higher TRAC levels, with AMR/mixed and microvascular inflammation (MVI) showing the highest levels ( P < 0.05). TruGraf did not associate with any specific allograft injury. No biomarkers, individually or combined, accurately diagnosed any rejection (area under the receiver operating characteristic curve [AUROC] < 0.65). However, high TRAC levels, when combined with DSA in for-cause biopsies, predicted AMR/mixed rejection or MVI (AUROC = 0.817; P < 0.001), outperforming serum creatinine and DSA (AUROC < 0.65).
CONCLUSIONS
In this large, prospective, observational real-life study, we were unable to validate TruGraf and TRAC to diagnose rejection but found a useful context of use for TRAC to noninvasively diagnose AMR/mixed or MVI in conjunction with DSA in dysfunctioning graft.
背景
外周血生物标志物旨在无创诊断肾移植排斥反应,但大多数缺乏有力的独立验证。TruGraf旨在排除亚临床细胞排斥反应(TCMR),而供体来源的游离DNA Viracor-TRAC在排除抗体介导的排斥反应(AMR)方面已被证明具有价值。我们旨在验证这两种生物标志物在真实临床环境中用于准确诊断排斥反应的有效性。
方法
我们前瞻性纳入了2021年12月至2022年期间来自6个中心的230例未经选择的连续肾移植患者,这些患者接受了因病因和方案要求的活检,并采集了配对的血样。TruGraf和Viracor-TRAC由一个中央实验室进行盲法检测。
结果
排斥反应的发生率为22.6%(监测活检时为17.3%;因病因活检时为27%)。炎症与较高的TRAC水平相关,AMR/混合性和微血管炎症(MVI)的TRAC水平最高(P < 0.05)。TruGraf与任何特定的移植肾损伤均无关联。没有任何一种生物标志物单独或联合使用能够准确诊断任何排斥反应(受试者操作特征曲线下面积[AUROC] < 0.65)。然而,在因病因活检时,高TRAC水平与供体特异性抗体(DSA)联合使用时,可预测AMR/混合性排斥反应或MVI(AUROC = 0.817;P < 0.001),优于血清肌酐和DSA(AUROC < 0.65)。
结论
在这项大型、前瞻性、观察性的真实生活研究中,我们未能验证TruGraf和TRAC用于诊断排斥反应的有效性,但发现了TRAC在功能不良的移植肾中与DSA联合使用以无创诊断AMR/混合性或MVI的有用应用场景。
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