P-1677. Nanoparticle Capture of Urinary Lipoarabinomannan for Diagnosing Childhood Tuberculosis
Brendan Mullen, Najeeha Iqbal, Kumail Ahmed, Tania Thomas

TL;DR
A new method using nanoparticles improves the detection of a TB biomarker in children's urine, potentially enhancing diagnosis.
Contribution
The study introduces a nanoparticle-based urine concentration method that significantly improves the sensitivity of TB diagnosis in children.
Findings
Urine LAM sensitivity increased from 4.5% to 50.0% using nanoparticle concentration with visual grading.
Digital quantification showed a 63.9% sensitivity after concentration, compared to 0.0% before.
Median band intensity increased from 0.0 to 98.4 arbitrary units after concentration.
Abstract
Non-respiratory biomarkers for tuberculosis (TB), such as the urinary lipoarabinomannan (LAM) antigen, are crucial for diagnosing TB in at-risk pediatric populations. Currently available urine assays to detect LAM as a diagnostic test for TB have limited sensitivity in pediatric populations. We aimed to evaluate the Ceres TB-Nanotrap as a urine concentration step to augment detection of LAM antigens in urine. Urine specimens were obtained from children 1-18 years of age with presumptive TB (cases) and non-TB controls from outpatient clinics in Karachi, Pakistan. An Alere lateral flow (LF)-LAM test was performed before and after concentrating urine with magnetic TB-Nanotrap particles. Band intensity was measured via visual grading and digital quantification (using Image-J software) and performance characteristics were calculated for unconcentrated and concentrated urine. Urine LAM…
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Taxonomy
TopicsTuberculosis Research and Epidemiology · Biosensors and Analytical Detection · SARS-CoV-2 detection and testing
