Point of care nucleic acid-based duplex test for detection of Chlamydia trachomatis (CT) and Neisseria gonorrhoae (NG
Lead Participant:
DIAGNOSTICS FOR THE REAL WORLD (EUROPE) LIMITED
Abstract
The project objective is to develop a nucleic acid-based duplex test for the detection of Chlamydia trachomatis (CT) and Neisseria gonorrhoeae (NG) for point-of-care use. The project will be carried out by a consortium, composed of Diagnostics for the Real World (Europe) Ltd. and the Diagnostics Development Unit, University of Cambridge. The expertise brought by the consortium parties covers all activities required to conduct the project: product development; scale up; validation and clinical trials in health care settings for regulatory submission.
The CT/NG duplex test is based on a simple nucleic acid chemistry platform called SAMBA (“Simplified AMplification Based Assay). Simple to collect and non-invasive samples will be used, such as self-collected vaginal swabs or urine collected by FirstBurst®, a unique and patented first-void urine collection device, which collects the first 3 ml of urine containing 84% of bacteria from a urine stream. The highly stable reagents are provided in unit-dose cartridges and the results can be visually read using a patented lateral flow device. The test can be easily carried out by minimally trained personnel at point of care settings and can provide results to clinicians while the patients are still at the clinic, thus allowing immediate treatment and efficient contact tracing.
The CT/NG duplex test is based on a simple nucleic acid chemistry platform called SAMBA (“Simplified AMplification Based Assay). Simple to collect and non-invasive samples will be used, such as self-collected vaginal swabs or urine collected by FirstBurst®, a unique and patented first-void urine collection device, which collects the first 3 ml of urine containing 84% of bacteria from a urine stream. The highly stable reagents are provided in unit-dose cartridges and the results can be visually read using a patented lateral flow device. The test can be easily carried out by minimally trained personnel at point of care settings and can provide results to clinicians while the patients are still at the clinic, thus allowing immediate treatment and efficient contact tracing.
Lead Participant | Project Cost | Grant Offer |
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DIAGNOSTICS FOR THE REAL WORLD (EUROPE) LIMITED | £1,948,756 | £ 559,098 |
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Participant |
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UNIVERSITY OF CAMBRIDGE | £841,327 | £ 841,327 |
People |
ORCID iD |
Craig Wisniewski (Project Manager) |