All Microfluidics articles
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ArticleDiscovery is changing – and automation leads the way
Automation is helping drug discovery teams screen faster, cut costs and run complex assays at scale – but its real value lies in what happens next.
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ArticleMaking immunotherapy safer and more accessible through continuous digital monitoring
Immunotherapies such as CAR-T are extending survival, yet reliance on inpatient monitoring for cytokine release syndrome continues to restrict access. This article explores how continuous digital monitoring and AI-driven analysis could enable safer outpatient delivery and support more scalable immunotherapy adoption.
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ArticleAdvancing drug discovery with reproducible, animal-free 3D systems
Lukas Gaats and his team at mo:re are using automation to bring consistency to 3D cell culture and move drug discovery beyond animal models. Read on to find out how.
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ArticleVibe coding 101 for drug discovery scientists
Find out how AI-assisted development is democratising software creation in life sciences.
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NewsNew Spheromatrix platform speeds up cancer drug research
Researchers at NYU Abu Dhabi have developed a cheap, paper-based platform that allows tumour models to be grown, frozen and stored for future cancer drug testing – called Spheromatrix.
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NewsNew organ-on-a-chip models ageing immune response for cancer vaccines
Scientists have developed an organ-on-a-chip platform that replicates age-related immune decline, offering a long-missing tool for testing cancer vaccines in older adults.
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NewsNuclera expands into Australasia with Solve Scientific partnership
Cambridge-based biotech firm Nuclera has partnered with Solve Scientific Australia to expand access to its eProtein Discovery™ System across Australia and New Zealand.
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ReportLab Automation: Where Discovery Scales
Automation now plays a central role in discovery. From self-driving laboratories to real-time bioprocessing, this report explores how data-driven systems improve reproducibility, speed decisions and make scale achievable across research and development.
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ArticleBrain organoids: a fascinating and powerful tool for drug discovery
Human brain organoids are complex in vitro tools derived from stem cells, designed to model the molecular basis of neurodevelopment and the pathogenesis of neurological disorders. By mimicking the function of the human brain, in both health and disease, their application in drug discovery holds significant potential for identifying new ...
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ArticleNew technology optimises mesenchymal stem cell extraction
A continuous sorting technique of stem cells on a DLD microfluidic platform may greatly advance cell therapy.
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NewsNew 3D tumour models simulate complex tumours
3D tumour models enable scientists to offer better treatments and improve survival outcomes for complex conditions like breast cancer.