<?xml version="1.0" encoding="UTF-8"?><ns2:project xmlns:ns1="http://gtr.rcuk.ac.uk/gtr/api" xmlns:ns2="http://gtr.rcuk.ac.uk/gtr/api/project" xmlns:ns3="http://gtr.rcuk.ac.uk/gtr/api/fund" xmlns:ns4="http://gtr.rcuk.ac.uk/gtr/api/person" xmlns:ns5="http://gtr.rcuk.ac.uk/gtr/api/project/outcome" xmlns:ns6="http://gtr.rcuk.ac.uk/gtr/api/organisation" ns1:created="2026-06-03T15:52:43Z" ns1:href="http://gtr.ukri.org/gtr/api/projects/D34C2914-FEAD-4576-A5BA-071EDAA3A458" ns1:id="D34C2914-FEAD-4576-A5BA-071EDAA3A458"><ns1:links><ns1:link ns1:href="http://gtr.ukri.org/gtr/api/persons/58FE8C04-DDB4-43AC-999E-56DFCBE04316" ns1:rel="PM_PER"/><ns1:link ns1:href="http://gtr.ukri.org/gtr/api/organisations/B73B61C0-0FD9-4BB1-B689-124398B1F27C" ns1:rel="LEAD_ORG"/><ns1:link ns1:href="http://gtr.ukri.org/gtr/api/organisations/B73B61C0-0FD9-4BB1-B689-124398B1F27C" ns1:rel="PARTICIPANT_ORG"/><ns1:link ns1:href="http://gtr.ukri.org/gtr/api/organisations/152FC0E4-BE3E-4341-94C2-1FCCE82E7E74" ns1:rel="PARTICIPANT_ORG"/><ns1:link ns1:end="2024-11-30T00:00:00Z" ns1:href="http://gtr.ukri.org/gtr/api/funds/08C478E5-3177-4B96-869C-7C4FCAB77BCA" ns1:rel="FUND" ns1:start="2024-05-31T23:00:00Z"/></ns1:links><ns2:identifiers><ns2:identifier ns2:type="RCUK">10104198</ns2:identifier></ns2:identifiers><ns2:title>Advancing Point-of-Care Micronutrient Diagnostics through Eco-Design and Cradle-to-Cradle Lifecycle Principles</ns2:title><ns2:status>Closed</ns2:status><ns2:grantCategory>Collaborative R&amp;D</ns2:grantCategory><ns2:leadFunder>Innovate UK</ns2:leadFunder><ns2:abstractText>Micronutrient deficiencies during pre- and post-natal stages pose a serious health and economic burden to healthcare providers. The key deficiencies are vitamin B12, D, folate and Iron. Around 57,000 emergency admissions to UK hospitals annually are due to iron deficiency anaemia; the UK prevalence of anaemia is elevated in pregnant women (23%, compared to 8% in the general population). Vitamin B12 deficiency was shown to be present in 26% of UK pregnant women.

Testing for micronutrient levels requires samples to be collected and sent to a central lab for testing. Iron and vitamin D lateral flow tests exist on the market, however there is no 'universal' test available that allows testing of multiple micronutrients in parallel. A point-of-care test which is sensitive enough for deficiency assessment is not available for B12 or folate deficiency on the market. Individuals are purchasing micronutrient tests via laboratory companies, however these samples still require testing in a central lab, resulting in a high cost per test and a delay to results. We see a significant opportunity in a universal at-home test, that empowers pregnant and breastfeeding women, delivers immediate results, and links to their healthcare professionals.

Single-use point-of-care diagnostics struggle in eco-design with tests predominantly being incinerated or disposed of in land-filll. For example, one traditional lateral flow test (e.g. Covid-19) produces 10g of plastic waste, equating to around 10 tonnes of plastic waste per week in June 2022 (NHS Test and Trace). With an increasing demand for at-home medical diagnostics, combined with a growing public sentiment to reduce plastic waste, this is a crucial time to employ strategic eco-design principles. Hence, this project allows us to build eco-design and circularity into our product, while retaining its ease-of-use and cost-effectiveness.

This project builds a new capability in human factor work through subcontractor KD, a design consultancy, together with project partner and potential customer/end-user Pregma. We have already developed a functional prototype; the project aims are to identify and decide critical design elements and potential new business models that maximise product sustainability and impact.</ns2:abstractText></ns2:project>