SBIR-STTR Award

Significance: The ultimate goal of this project is A CE-marked, FDA-cleared and CLIA-waived rapid (<20 min) smartphone-based point-of-care (POC) test to aid the Diagnosis of Chlamydia trachomatis (CT) infections. CT infections are the most common bacterial STI, with almost 3 million new cases in the US each year, and associated costs exceeding $2.4 billion. Untreated women, mostly in the 15-24 Age group, are at A high risk of serious sequelae including Pelvic Inflammatory Disease, Ectopic Pregnancy, and Infertility. CT infections are curable with A single pill, but the fact that they are asymptomatic in up to 9 out o 10 infected men and women necessitates screening of high-risk populations using accurate Testing methods. Currently used Nucleic Acid Amplification Techniques (NAATs) are expensive and have A significant delay between specimen collection and result, severely limiting their applicability in disproportionately affected resource poor settings. Rapid POC tests can prevent sequelae and curb disease transmission by enabling A same-day "test and treat" approach and immediate Partner Notification. Current POC tests for CT, based on the Lateral flow test (LFT) and using Colloidal Gold as reporters, are > 95% specific, but have low Clinical sensitivities (down to 27%) due to their poor (high) limit of detection (LOD). In this project, Luminostics' proprietary "nanophosphors", silica- Encapsulated persistent luminescence nanoparticles, will be used as LFT reporters in an Immunoassay for Chlamydial LPS (cLPS). Upon Assay completion (<15 min), the disposable LFT cartridge will be readout by A smartphone using an inexpensive phone case-like attachment and Software app, making it extremely field- deployable and attractive for home Testing. Hypothesis: We hypothesize that the improved LOD of nanophosphor-LFTs, expected to be 20- to 200-fold lower than colloidal gold-LFTs, will result in Clinical sensitivities approaching NAATs, which are >95% sensitive. Preliminary results: Using the same Affinity reagents, A 20-fold improvement in analytical sensitivity of nanophosphor-LFTs over colloidal gold-LFTs has been demonstrated using unoptimized and polydisperse nanophosphors, as has the feasibility of highly sensitive luminescence detection using an iPhone. Specific Aims: The Phase I deliverable of this project will be an analytically and clinicaly validated device prototype. In Aim 1, nanophosphor-LFT parameters and smartphone components will be optimized for sensitive CT detection. In Aim 2, the Performance of the optimized device prototype will be evaluated through analytical sensitivity, specificity, and interference studies, and through A small-scale retrospective Clinical study. The success of this Phase I project, the odds of which are maximized by Collaborations with or the technical services of Surface chemistry, STI, LFT, and cLPS experts, will set the stage for device integration and prospective Clinical Testing of the new POC test for CT in Phase II. It will also validate nanophosphor-LFTs as A platform technology for ultrasensitive analyte detection, with potential applications in A variety of critical Medical conditions that need more sensitive POC tests.

Public Health Relevance Statement:


Public Health Relevance:
The lack of A sensitive, inexpensive and field-deployable point-of-care (POC) test for Chlamydia represents A significant obstacle to managing the Public Health burden of this Sexually Transmitted Infection (STI), which if untreated can have disastrous consequences including Infertility and an increased risk of HIV Transmission. The opportunistic screening of high-risk populations (defined by Age, Race, Social Behavior) using highly sensitive POC tests presents the best chance of reducing its Prevalence. In this Phase I project, Luminostics will develop A prototype of A rapid smartphone-based POC test for Chlamydia, designed to give Physicians or minimally trained healthcare workers an unambiguous "positive" or "negative" result from non-invasive samples in less than 20 minutes. Upon Validation, our POC test, which by virtue of being smartphone-based is more amenable to widespread Adoption, will enhance screening coverage to currently underserved populations and enable the immediate treatment of positive results.

The ultimate goal of this project is CLIP-CT, an FDA-cleared and CE-marked smartphone-based test (?30 min) for Chlamydia trachomatis (CT) infections in women in over-the-counter (OTC) and point-of-care (POC) settings. CT is the most common bacterial cause of sexually transmitted infections, with almost 3 million new cases in the US each year. Untreated women, mostly in the 15-24 age group, are at high risk of serious sequelae including pelvic inflammatory disease, ectopic pregnancy, and infertility. CT infections are curable with a single pill, but the fact that they are asymptomatic in up to 90% of those infected necessitates screening of high-risk populations using accurate testing methods. Currently recommended Nucleic Acid Amplification Techniques (NAATs) are expensive and have slow turnaround times, severely limiting their applicability for expanding testing coverage. Rapid POC tests can curb disease transmission by enabling a same-day test and treat approach and immediate partner notification. An OTC test that can also be used in POC settings will also expand testing to the large swath of at-risk women who do not seek testing due to embarrassment/confidentiality concerns. Luminostics' CLIP-CT is based on the use of nanophosphors ? persistent luminescent nanoparticles ? as lateral flow assay (LFA) reporters in an immunoassay for CT. A phone case-like smartphone adapter, in combination with a mobile app, is used for result readout and analysis from the nanophosphor-LFA using the phone's flash and camera. Current colorimetric LFAs for CT are >95% specific due to the availability of good monoclonal antibodies, but have very poor clinical sensitivity due to their high limit of detection (LOD). We hypothesized that the vastly improved LOD of nanophosphor-LFAs compared to colorimetric LFAs could result in clinical sensitivities approaching NAATs (i.e., >90%). We obtained initial validation for this hypothesis in Phase I studies, where CLIP-CT prototypes with a 100-fold lower LOD than an FDA-cleared colorimetric LFA for CT achieved a sensitivity of 91.7% and a specificity of 95% compared to an FDA-cleared NAAT in a small retrospective clinical. Having validated the feasibility of nanophosphor-LFAs for sensitive CT detection, the following Specific Aims are proposed for Phase II: Aim 1 will iteratively design, develop and validate the ancillary hardware and software components of CLIP- CT around the Phase I-developed assay. Aim 2 will perform comprehensive analytical performance studies and a human factors validation study. In Aim 3, the clinical performance of CLIP-CT will be validated in a large (n=1,250) clinical study using prospectively collected specimens. Luminostics has assembled a team of bioengineers, chemists, software engineers, microbiologists, clinicians, and manufacturing experts to maximize the odds of success. The expected outcome of this Phase II project is the significant de-risking of the final trial targeting FDA 510(k) OTC clearance for CLIP-CT and the further validation of nanophosphor-LFAs as a platform technology with potential applications in a variety of medical conditions that could use more sensitive POC tests.

Thesaurus Terms:
Affect; Affinity; Age Group; Base; Bedside Testings; Biological Assay; Biomedical Engineering; Cellular Phone; Centers For Disease Control And Prevention (U.S.); Chlamydia; Chlamydia Trachomatis; Chronic Pelvic Pain; Cities; Clinic; Clinical; Clinical Research; Clinical Sensitivity; Clip; Collection; Computer Software; Cost; Cross Reactivity; Design; Detection; Development; Devices; Diagnostic; Diagnostic Screening; Diagnostic Tests; Disease Transmission; Ectopic Pregnancy; Encapsulated; Experience; Follow-Up; Goals; Health Personnel; High Risk; High Risk Population; High Risk Woman; Home Environment; Human; Image Analysis; Immunoassay; Improved; Industry; Infection; Infertility; Innovation; Iterative Design; Lateral; Lead; Left; Lipopolysaccharides; Liquid Substance; Low Prevalence; Luminescence; Manufacturing Scale-Up; Medical; Medical Schools; Meetings; Methods; Microbiology; Microorganism; Mobile Application; Monoclonal Antibodies; Multi-Institutional Clinical Trial; Nanoparticle; Nature; Nucleic Acid Amplification Techniques; Nucleic Acid Amplification Tests; One-Step Dentin Bonding System; Outcome; Partner Notification; Pelvic Inflammatory Disease; Performance; Persons; Phase; Phase 1 Study; Physician Executives; Physicians; Pill; Planet Earth; Point Of Care; Population; Prevalence; Probability; Process; Production; Programs; Prospective; Prototype; Public Health; Reporter; Reproducibility; Research; Retrospective Studies; Risk; Sampling; San Francisco; Scale Up; Schedule; Screening; Sensitivity And Specificity; Sexually Transmitted Diseases; Side; Silicon Dioxide; Smartphone Application; Software Engineering; Specificity; Specimen; Sti Prevention; Strontium; Success; Swab; Technology; Telephone; Testing; Time; Training; Translating; Transmission Process; Usability; User-Friendly; Vagina; Validation; Validation Studies; Visual; Woman; Work;