Quantitative Lateral Flow Assays for Salivary Biomarker Assessment: A Review

• Published in: Frontiers in public health Vol. 5; p. 133
• Main Authors: Miočević, Olga, Cole, Craig R, Laughlin, Mary J, Buck, Robert L, Slowey, Paul D, Shirtcliff, Elizabeth A
• Format: Journal Article
• Language: English
• Published: Switzerland Frontiers Media S.A 14.06.2017
• Subjects: lateral flow immunoassays; point-of-care; Public Health; rapid biomarker assessment; rapid diagnostic tests; salivary biomarkers; salivary cortisol; rapid diagnostic tests; rapid biomarker assessment; salivary cortisol; lateral flow immunoassays; salivary biomarkers; point-of-care
• ISSN: 2296-2565; 2296-2565
• DOI: 10.3389/fpubh.2017.00133

Saliva is an emerging biofluid with a significant number of applications in use across research and clinical settings. The present paper explores the reasons why saliva has grown in popularity in recent years, balancing both the potential strengths and weaknesses of this biofluid. Focusing on reasons why saliva is different from other common biological fluids such as blood, urine, or tears, we review how saliva is easily obtained, with minimal risk to the donor, and reduced costs for collection, transportation, and analysis. We then move on to a brief review of the history and progress in rapid salivary testing, again reviewing the strengths and weaknesses of rapid immunoassays (e.g., lateral flow immunoassay) compared to more traditional immunoassays. We consider the potential for saliva as an alternative biofluid in a setting where rapid results are important. We focus the review on salivary tests for small molecule biomarkers using cortisol as an example. Such salivary tests can be applied readily in a variety of settings and for specific measurement purposes, providing researchers and clinicians with opportunities to assess biomarkers in real time with lower transportation, collection, and analysis costs, faster turnaround time, and minimal training requirements. We conclude with a note of cautious optimism that the field will soon gain the ability to collect and analyze salivary specimens at any location and return viable results within minutes.