Gayoung Lee, Peyton Pretsch, Lauryn Ursery, Dana Giandomenico, Haley A Abernathy, Lanya Evans, Barbara A Qurollo, Edward B Breitschwerdt, Ross M Boyce
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引用次数: 0
摘要
背景:莱姆病是由鲍氏不动杆菌感染引起的,是美国最常见的病媒传染病。标准的双层检测(STTT)算法存在灵敏度低、误判和周转时间长等问题,无法及时检测和治疗。为了应对这些挑战,我们假设可将用于检测鲍瑞氏菌抗体的犬科护理点(PoC)SNAP 4Dx Plus 检测用于人类诊断。材料与方法:SNAP 4Dx Plus 检测按照制造商的说明进行,结果通过人工检查读取。所有分析均使用 R 4.3.1 版进行,并使用 GraphPad 软件的卡帕统计法评估 PoC 检测与 STTT 之间的一致性。结果我们纳入了 102 份先前检测过的人类血清样本,其中 19 份样本(18.6%)呈 STTT 阳性。与 STTT 相比,SNAP 4Dx Plus 检验的灵敏度较低,仅为 0.16(95% CI 0.03 至 0.40)。结论总的来说,我们的结果不支持使用 SNAP 4Dx Plus LD 检测法诊断人类莱姆病。人类样本和犬类样本抗体浓度的差异可能是我们研究结果的部分原因。
Evaluation of the Veterinary IDEXX SNAP 4Dx Plus Test for the Diagnosis of Lyme Disease in Humans.
Background: Lyme disease, caused by infection with Borrelia burgdorferi, is the most common vector-borne disease in the United States. The standard two-tier testing (STTT) algorithm suffers from low sensitivity, misinterpretation, and long turnaround time, preventing timely detection and treatment. To address these challenges, we hypothesized that the canine point-of-care (PoC) SNAP 4Dx Plus test used to detect Borrelia burgdorferi antibodies could be employed for human diagnosis. Materials and Methods: The SNAP 4Dx Plus testing was conducted in accordance with the manufacturer's instructions, with results read by manual inspection. All analyses were conducted using R version 4.3.1, and agreement between the PoC assay and the STTT was assessed using kappa statistics with GraphPad software. Results: We included 102 previously-tested human serum samples, of which 19 samples (18.6%) were STTT positive. Compared to the STTT, the SNAP 4Dx Plus test demonstrated a low sensitivity of 0.16 (95% CI 0.03 to 0.40). Conclusion: Overall, our results do not support the use of the SNAP 4Dx Plus LD assay for the diagnosis of human Lyme disease. Differences in antibody concentrations between human and canine samples may partly explain our findings.
期刊介绍:
Vector-Borne and Zoonotic Diseases is an authoritative, peer-reviewed journal providing basic and applied research on diseases transmitted to humans by invertebrate vectors or non-human vertebrates. The Journal examines geographic, seasonal, and other risk factors that influence the transmission, diagnosis, management, and prevention of this group of infectious diseases, and identifies global trends that have the potential to result in major epidemics.
Vector-Borne and Zoonotic Diseases coverage includes:
-Ecology
-Entomology
-Epidemiology
-Infectious diseases
-Microbiology
-Parasitology
-Pathology
-Public health
-Tropical medicine
-Wildlife biology
-Bacterial, rickettsial, viral, and parasitic zoonoses
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