Nanowire Sensor Array-based Assay for Early Diagnosis of Alzheimer's Disease

Period of Performance: 05/01/2017 - 04/30/2018


Phase 2 SBIR

Recipient Firm

Innosense LLC
2531 West 237th St Suite 127
Torrance, CA 90505
Principal Investigator


PROJECT SUMMARY Alzheimer?s disease (AD) is a complex and severe neurodegenerative disorder. AD is characterized by synapse and neuron loss in the brain with the accumulation of senile plaques (protein containing deposits) and neurofibrillary tangles. Approximately 5.4 million Americans and globally 30 million people are affected and this number is growing rapidly. In 2015, the cumulative cost of care for AD and other dementia was estimated at $226 billion. Yet, there is no definitive point-of-care (POC) diagnostic for AD. Current standard methods of AD diagnosis involve a combination of imaging and cognitive tests which are expensive and require complicated, time-consuming laboratory-based analysis while definitive diagnosis is made postmortem. Because early diagnosis could enable better planned and coordinated care, there is an urgent need to develop a cost-effective, highly sensitive and selective diagnostic tool for pre-symptomatic AD diagnosis which could also be used as a convenient monitoring device for bedside or primary POC use. In Phase I, InnoSense LLC (ISL) developed a conducting polymer nanowire-based biosensor, Adnos, for detecting AD biomarkers. ISL constructed a working model and demonstrated its capability for detecting AD-associated biomarkers in spiked solutions with phosphate buffered saline and artificial cerebrospinal fluid (aCSF) as well as CSF samples from patients. ISL demonstrated that Adnos devices had an average limit of detection of 100 fM for AD-specific biomarkers. The results indicate that Adnos has better sensitivity than standard laboratory tests such as Enzyme-Linked Immunosorbent Assay (ELISA) (nanomolar) for AD protein analysis. In Phase II, ISL will further develop, fine tune, and rigorously evaluate Adnos performance for detecting AD-specific biomarkers. ISL will: (1) optimize the Adnos nanowire sensor fabrication process, (2) toward assay development construct a prototype with necessary electronics and software, (3) fine-tune the prototype performance for accurate detection and monitoring of AD-specific biomarkers with a limit of detection of 100 fM in less than 30 min, (4) demonstrate ability of a prototype Adnos to detect AD biomarkers in clinical CSF samples and compare the performance with standard ELISA and dot blot tests, and (5) prepare to secure CLIA waiver while we explore commercial options. The ability to detect the earliest stages of AD, prior to onset of symptoms, could potentially have a powerful impact on families to: (1) plan for future healthcare needs, (2) development of early stage intervention strategies, and (3) gain the ability to understand and manage the entire lifecycle of the disease. Use of the Adnos system will be highly valuable as a tool providing monitoring data for clinical studies in search of effective treatments for AD.