Loading…

Loading grant details…

Completed SBIR-STTR RPGS NIH (US)

Optimization and Validation of Minimally-Invasive and Low-Cost Blood Collection Device for Lead Testing

$2.96M USD

Funder NATIONAL INSTITUTE OF ENVIRONMENTAL HEALTH SCIENCES
Recipient Organization Skyway Biosciences
Country United States
Start Date Sep 11, 2024
End Date Aug 31, 2025
Duration 354 days
Number of Grantees 2
Roles Principal Investigator; Co-Investigator
Data Source NIH (US)
Grant ID 10920930
Grant Description

SUMMARY Lead (Pb) poisoning remains a global public health crisis and is responsible for 30% of the global burden of idiopathic intellectual disability, according to the World Health Organization (WHO). Exposure to lead during fetal and early child development can have significant structural and functional effects on the brain and other organ

systems, and early symptoms of lead poisoning like neurological impairment and behavior disorders are hard to identify. The CDC has declared that no level of Pb exposure is safe for children, yet the vast majority of newborns, infants, and children in the US are not tested. A major limitation of current diagnostic testing for measuring blood

lead levels (BLL) is that it requires venous blood. Venipuncture is technically difficult to implement on infants, and it is a frightening procedure for young children, which serve as an obstacle to Pb screening. This has led to less than half of children under 6-years of age currently being tested for Pb exposures in the US. As a result,

there is a critical unmet need for new approaches to Pb screening in early life to identify at-risk individuals and inform remediation efforts to remove or reduce Pb exposures during critical stages of human development. In this Phase I STTR application we will optimize and validate a metals-free dried blood spot (DBS) collection

device to accurately quantify low BLLs in a single drop of capillary blood collected on filter paper. Our approach features the following innovative and patented technology: (1) A process to remove Pb contamination from filter paper before blood is collected, (2) A device to protect the filter paper from environmental Pb contamination

before, during, after blood collection, and (3) The use of discs of filter paper with known blood saturation volumes to allow for accurately and precisely blood volume estimates, while simplifying blood extraction procedures in the laboratory. Our approach combines the low cost and burden of capillary blood sampling with rigorous

quantification of BLLs in the lab. Successful completion of these study aims will result in a simple, low-cost, and minimally-invasive blood collection device that can quantify BLLs with precision and detection limits similar to gold standard venipuncture methods. This will provide new market opportunities to expand Pb testing in

newborn, infant, and children populations.

All Grantees

Skyway Biosciences

Advertisement
Discover thousands of grant opportunities
Advertisement
Browse Grants on GrantFunds
Interested in applying for this grant?

Complete our application form to express your interest and we'll guide you through the process.

Apply for This Grant