A high-sensitivity low-cost multiplexed immunoassay platform based on 2-dimension

基于二维的高灵敏度低成本多重免疫分析平台

• 批准号: 8184707
• 负责人: PAUL YAGER
• 金额: $ 126.26万
• 依托单位: UNIVERSITY OF WASHINGTON
• 依托单位国家: 美国
• 财政年份: 2011
• 资助国家: 美国
• 起止时间: 2011-07-15 至 2016-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8184707
• 关键词: Affinity; Antibodies; Antigens; Avidity; Binding; Biological Assay; Biotin; Categories; Centers for Disease Control and Prevention (U.S.); Characteristics; Chemicals; Clinical; Clinical Sensitivity; Detection; Development; Device Designs; Devices; Diagnosis; Diagnostic; Diagnostic tests; Dimensions; Electricity; Enzyme-Linked Immunosorbent Assay; Equipment; FDA approved; Generations; Hemagglutinin; Immobilization; Immunoassay; Influenza; Laboratories; Lateral; Legal patent; Liquid substance; Membrane; Microfluidics; Molecular; Nasal Lavage Fluid; National Institute of Allergy and Infectious Disease; Network-based; Nose; Paper; Performance; Process; Property; Reagent; Recommendation; Renaissance; Reproducibility; Resources; Sampling; Sensitivity and Specificity; Signal Transduction; Specificity; Specimen; Speed; Surface; Surface Plasmon Resonance; Swab; System; Telephone; Testing; Translating; Validation; Viral Antigens; base; cost; expiration; flu; innovation; instrument; interest; novel; operation; pathogen; point of care; point-of-care diagnostics; prototype; simulation; two-dimensional

DESCRIPTION (provided by applicant): The maturation of the field of microfluidics, the ubiquity of smart camera phones, and the expiration of patents that suppressed novel "lateral flow" rapid diagnostic tests (RDTs), have conspired to produce a renaissance in interest in low-cost diagnostic tests based on paper. Our group has proposed the use of 2-dimensional paper networks (2DPNs) as an extremely versatile approach to rapid immunoassays that will bring the sensitivity and specificity of laboratory-based tests to remote and resource-limited settings. The aim of this project is to apply the instrument-free 2DPN platform to detection of viral antigens; these devices will greatly increase sensitivity, while maintaining the speed, ease of use, and low cost of RDTs. There is a compelling need for a rapid and sensitive point-of-care (POC) diagnostic for influenza (NIAID Category C pathogen) in the U.S. and abroad. Many tests for influenza diagnosis and strain identification have been developed, but all tests in an RDT format have unacceptably low sensitivity; in 2009 the Centers for Disease Control issued a recommendation to discontinue domestic use of currently-available RDTs due to their poor sensitivity. To enhance the sensitivity and reproducibility of the 2DPN-based influenza test proposed here, we will utilize chemical signal amplification, novel high-performance low-cost binding molecules for subtyping influenza strains, and paper substrates with more uniform properties. These innovations will enable us to create a rapid POC diagnostic for influenza that surpasses any currently available rapid flu diagnostics in sensitivity. The final version of the 2DPN influenza test will also have a specificity that is at least comparable to those existing tests. It will require less than 20 minutes from sample to result, be easy to use and interpret by untrained operators with on-board verification of proper test operation, and have a low cost comparable to conventional RDTs. The test will not require lab facilities, equipment or electricity, so will be appropriate for use in remote or resource- limited settings. It will have a multiplexed format for the detection of multiple targets (including flu A, flu B, and subtypes H1 and H3 of flu A) and will be adaptable to the integration of new targets using conventional or de novo reagents developed in the proposed project. PUBLIC HEALTH RELEVANCE: The aim of this project is to develop a novel paper-based diagnostic for the detection of influenza A and B. The device will greatly increase sensitivity, while maintaining the speed, ease of use, and low cost of conventional rapid diagnostic tests, and thus fill a pressing need for point-of-care flu testing in resource-limited settings.

描述（由申请人提供）：微流体领域的成熟，智能拍照手机的普及，以及抑制新型“横向流动”快速诊断测试（RDTs）的专利到期，共同产生了对基于纸张的低成本诊断测试的兴趣复兴。我们的小组已经提出使用二维纸网络（2DPNs）作为一种非常通用的快速免疫测定方法，将实验室检测的灵敏度和特异性带到偏远和资源有限的环境中。本项目旨在将无仪器的2DPN平台应用于病毒抗原的检测；这些器件将大大提高灵敏度，同时保持rdt的速度、易用性和低成本。在美国和国外，迫切需要对流感（NIAID C类病原体）进行快速和敏感的即时诊断。已经开发了许多流感诊断和菌株鉴定测试，但所有RDT格式的测试灵敏度都低得令人无法接受；2009年，疾病控制中心发布了一项建议，建议停止在国内使用目前可用的rdt，因为它们敏感性差。为了提高本文提出的基于2dpn的流感检测的灵敏度和重复性，我们将利用化学信号放大、新型高性能低成本流感病毒亚型结合分子和性能更均匀的纸底物。这些创新将使我们能够创建一种快速的流感POC诊断方法，其灵敏度超过目前任何可用的快速流感诊断方法。最终版本的2DPN流感测试也将具有至少与现有测试相当的特异性。从样品到结果需要不到20分钟的时间，未经训练的操作人员可以轻松使用和解释正确的测试操作，并且与传统的rdt相比成本较低。该测试不需要实验室设施、设备或电力，因此适合在偏远或资源有限的环境中使用。它将具有多路复用格式，用于检测多种靶标（包括甲型流感、乙型流感以及甲型流感的H1和H3亚型），并将适应使用拟议项目中开发的传统或新试剂整合新靶标。