This project has advanced the area of clinical magnetic blood filtration by providing further evidence of the potential of the technology to be a platform that can be used to treat a range of blood-borne diseases. The project supported the achievement of significant proof of concept milestones, namely the successful conjugation of antibodies to the magnetic particles, and their subsequent high efficiency capture using the MediSieve magnetic filter. The investigated particles were the first to be manufactured and tested specifically for use with the filter, supporting the idea that different antibodies could be used in order to develop several “families” of particles that bind to a wide range of different disease-relevant targets in blood, moving closer towards providing doctors with a tool to enable them to “clean” blood to treat blood-borne diseases.
This project will continue for several years before a product reaches the market. Pre-clinical testing showing safety and efficacy, first in vitro and then in vivo, will be conducted. Approvals from regulatory bodies will be required to perform clinical trials. These will start with Phase 1 First in Man safety trials before progressing to sepsis patients, with the primary objective of proving the reduction in endotoxins and/or pathogens. This will be followed by a larger Phase 3 Efficacy Trial looking at mortality and length of stay reduction.
There is significant potential human and socio-economic impact, as demonstrated by the healthcare economics analysis. In the EU and US, there are an estimated 430,000 deaths per annum and 410,000 ICU cases; widespread adoption of magnetic blood filtration to treat these patients could save thousands of lives and lead directly to economic benefits through QALY savings. Sepsis is a very expensive medical condition, accounting for 5% of total healthcare spending in the US, so reducing costs by reducing average time in hospital would have a significant economic benefit, saving the US healthcare system over $500M/yr with 30% of patients reached. With increasing AMR, having magnetic blood filtration available as a non-drug treatment option could bring further clinical benefits and save more lives in the future.
If successful in commercialising the technology, MediSieve expects to enter a market worth £1.8B in 2022, with the project directly contributing to the creation of tens of new jobs in the EU.