Drugs and therapies – Page 3
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ArticleWhy patient-derived biology matters for ADC discovery
What can we learn from tumours after they stop responding to treatment? By studying patient tissue directly, researchers are finding new ADC targets that conventional screening often misses.
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ArticleBuilding better biologics and a stronger future for women in STEM
Great biologics don’t happen by chance, and neither do great STEM careers. Dr Lidia Serina shares the lessons behind both.
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ArticleThe future of obesity drugs starts in preclinical discovery
Progress in preclinical models and biomarker science is improving early-stage obesity drug development. This article outlines the emerging targets and technologies behind this shift.
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ArticleRNA that lasts longer and lands exactly where it should
RNA therapies are moving past burst-and-fade limits. New advances in circular RNA and targeted delivery could transform how we treat autoimmune disease, infections and beyond.
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ArticleProtein folding interference: a new path to hard-to-drug targets
Protein folding interference offers access to targets long considered unreachable by traditional drug discovery. By acting on transient folding intermediates, this approach presents a new opportunity to eliminate disease-driving proteins.
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ArticleLogic-gated DARPins show targeted T-cell activation in tumours
What if a T-cell therapy could activate only inside a tumour? New preclinical data on Molecular Partners’ Switch-DARPin suggest it may do just that.
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ArticleRNA that knows where to go: the rise of targeted delivery
What if RNA medicines could be guided directly to tumours, sparing healthy tissue and reducing side effects? Advances in targeted delivery are bringing that vision closer to reality.
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ArticleThe partnership changing the pace of radiopharmaceutical development
A new collaboration between Crown Bioscience and Medicines Discovery Catapult is bringing advanced tumour models together with world-class imaging and radiochemistry to accelerate the development of next-generation radiopharmaceuticals.
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ArticleRedesigning paclitaxel: expanding the therapeutic window through oral delivery
The potent chemotherapy drug paclitaxel is widely employed for various cancers despite toxicity and efficacy challenges. Maite Agüeros reveals how novel nanoparticle technology has enabled oral delivery of the drug – showing promising signs of improved tolerability and treatment success.
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ArticleThe mother of invention: from steam engines to AI-designed drugs
Every great leap in history started with a single, urgent need. Now AI is emerging as the next great engine of invention, transforming the future of medicine faster than ever imagined.
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ArticleMapping the genome in 3D to reveal new drug targets
Find out how a three-dimensional view of the genome is giving scientists a clearer picture of disease biology and revealing new opportunities for targeted therapies.
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OpinionMaking science run at the speed of thought: the reality of AI in drug discovery – Part 2
Can automation and AI finally make science run at the speed of thought? Eric Ma shares how disciplined systems, not new models, will drive the next wave of discovery.
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ArticleFast, scalable free energy prediction with nonequilibrium switching
Nonequilibrium switching (NES) offers a faster, more scalable way to predict how strongly drugs bind to their targets. By replacing slow equilibrium simulations with rapid, parallel transitions, NES delivers accurate free energy predictions at speed.
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ArticleMapping lipid pockets to drug the undruggable proteome
Tasca Therapeutics is using chemical proteomics to map lipid-binding pockets on proteins. By targeting auto-palmitoylation, the company aims to turn previously undruggable cancer drivers into viable therapeutic targets.
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ArticleAdvancing disease biomarker research with EV multiplex profiling
Vanitha Margan, Global Product Manager for Bio-Plex Multiplex Immunoassays at Bio-Rad Laboratories, reveals how multiplexing is being used to realise the full potential of extracellular vesicles in disease monitoring.
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ArticleAI and policy reform set to reshape UK drug development
BCG’s Chris Meier outlines how advances in AI and new UK policies could accelerate drug development, streamline clinical trials and strengthen the country’s life sciences sector.
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ArticleTackling the organ shortage through vascular bioengineering
Frontier Bio’s vascular bioengineering research connects tissue modelling with graft development to advance regenerative medicine and drug discovery.
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ArticleTransforming central labs with automation and AI: setting new standards for modern trials
Demands on central laboratories are consistently increasing, heightening the challenge to deliver operational excellence and the highest standard of scientific integrity with both speed and agility. ICON Laboratories is transforming the way we leverage data and intelligent operational models to meet evolving trial needs.
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ArticleRVX-001: a universal vaccine to tackle antimicrobial resistance
Drug-resistant infections are on the rise, endangering global health. Neil Murray from ReNewVax explains how the company’s universal pneumococcal vaccine, RVX-001, could reduce antibiotic use and help curb antimicrobial resistance.
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ArticleMaking science run at the speed of thought: the reality of AI in drug discovery – Part 1
Everyone talks about AI speeding up drug discovery, but Eric Ma explains why, without clean data and statistical discipline, it can actually do the opposite.