Nguyen Khanh Q N, Langevin Rachel, Fankhauser Kimberly, Hashim Ibrahim A
Clin Lab. 2020 Jan 1;66(1). doi: 10.7754/Clin.Lab.2019.190642.
Biotin interference in streptavidin-based immunoassays is known and may lead to erroneous results and thus to diagnostic error. The recent increase in reports of biotin interference in immunoassay-based testing has been attributed to increased intake of biotin supplements by the public and to the high dose biotin therapy in patients with neurological and inherited disorders. Circulating biotin levels greater than 20 ng/mL are reported to exhibit interference in high sensitivity troponin T (hs-TnT), thyroid stimulating hormone (TSH), and in prostate specific antigen (PSA) among other assays when using our Cobas® 6000 immunoassay analyzer (Roche Diagnostics, IN, USA). This study aims to examine the risk for biotin interference among our patient population.
Serum and plasma leftover samples from 183 different patients were collected following completion of hs-TnT (53 samples), TSH (45 samples), and PSA (85 samples) testing. Aliquots were stored frozen at -20°C until analysis. Biotin concentrations in these samples were measured using an ELISA (ALPCO, Salem, NH, USA) according to the manufacture's protocol. Samples with biotin levels of 20 ng/mL or greater were considered as high-risk samples (HRS) for biotin interference.
The overall concentrations of biotin in our patients' samples ranged from 0.02 ng/mL to 11.38 ng/mL (median 0.42 ng/mL). The median and (range) biotin concentrations in hs-TnT, TSH, and PSA samples were 0.27 ng/mL (0.02 - 6.86 ng/mL), 0.39 ng/mL (0.08 - 11.38 ng/mL), and 0.47 ng/mL (0.09 - 7.73 ng/mL), respectively. Although there was no significant difference between biotin levels in samples for TSH or PSA measurement (p = 0.85), biotin in samples for PSA and for hs-TnT and in samples for TSH and hs-TnT were significantly different (p = 0.049 and 0.089), respectively. None of the samples had biotin levels greater than or equal to 20 ng/mL.
Using representative samples with requests for hs-TnT, TSH, and PSA testing, where reliable performance for the selected assays at their lowest measurement range is required for clinical intervention, among our study population the risk was considered minimal as their circulating biotin levels were less than 20 ng/mL. However, educating clinicians and laboratory users regarding the potential of biotin interference is always recommended.
生物素对基于链霉亲和素的免疫测定的干扰是已知的,可能导致错误结果,进而引发诊断失误。近期基于免疫测定的检测中生物素干扰报告的增加,归因于公众生物素补充剂摄入量的增加以及神经和遗传性疾病患者接受的高剂量生物素治疗。据报道,当使用我们的Cobas® 6000免疫测定分析仪(美国印第安纳州罗氏诊断公司)时,循环生物素水平高于20 ng/mL会对高敏肌钙蛋白T(hs-TnT)、促甲状腺激素(TSH)以及前列腺特异性抗原(PSA)等其他检测产生干扰。本研究旨在调查我们患者群体中生物素干扰的风险。
在完成hs-TnT(53份样本)、TSH(45份样本)和PSA(85份样本)检测后,收集了183名不同患者的血清和血浆剩余样本。将等分样本在-20°C冷冻保存直至分析。根据制造商的方案,使用酶联免疫吸附测定法(美国新罕布什尔州塞勒姆的ALPCO公司)测量这些样本中的生物素浓度。生物素水平达到或高于20 ng/mL的样本被视为生物素干扰的高风险样本(HRS)。
我们患者样本中生物素的总体浓度范围为0.02 ng/mL至11.38 ng/mL(中位数为0.42 ng/mL)。hs-TnT、TSH和PSA样本中生物素浓度的中位数及(范围)分别为0.27 ng/mL(0.02 - 6.86 ng/mL)、0.39 ng/mL(0.08 - 11.38 ng/mL)和0.47 ng/mL(0.09 - 7.73 ng/mL)。尽管TSH或PSA测量样本中的生物素水平之间无显著差异(p = 0.85),但PSA样本与hs-TnT样本以及TSH样本与hs-TnT样本中的生物素水平分别存在显著差异(p = 0.049和0.089)。没有样本的生物素水平大于或等于20 ng/mL。
使用有hs-TnT、TSH和PSA检测需求的代表性样本,这些检测在其最低测量范围内的可靠性能是临床干预所必需的,在我们的研究人群中,由于其循环生物素水平低于20 ng/mL,因此风险被认为极小。然而,始终建议对临床医生和实验室用户进行关于生物素干扰可能性的教育。
