Diseases – Page 4
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ArticleInside Zasocitinib: a new model for TYK2 inhibition in immune-mediated diseases
Zasocitinib is a highly selective, investigational TYK2 inhibitor developed to target immune-mediated diseases with fewer off-target effects than traditional JAK inhibitors. This article explores its mechanism, selectivity data and clinical progress.
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ArticleThe science behind the systematic discovery of molecular glues
For decades, molecular glues have been stumbled upon rather than designed. A new scientific approach is now changing that – expanding what is considered druggable.
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ArticleOvercoming barriers to oncology combination therapies in the UK and EU
Colleagues at IQVIA discuss ways to expedite positive HTA outcomes for innovative combination therapies, alleviating the bottlenecks inherent in the current system.
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ArticlePDX models are back – and they’re exposing what cell lines missed
As cancer drugs continue to fail in translation, researchers are turning back to patient-derived xenograft (PDX) models – this time with better science. Could they be the missing link between the lab and the clinic?
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ArticleBetter assays: the key step in moving drugs from lab to clinic
From gene therapy to Long Covid, better assays are helping researchers move promising drug candidates from early studies into clinical trials. Dr Alexandre Lucas explains the technologies, challenges and innovations driving this progress.
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ArticleAdvancing antiviral therapeutics for immunocompromised populations
With few antiviral options available to immunocompromised patients, a new generation of therapies - like AIC468 - is aiming to change that.
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ArticleCAR T’s biggest hurdle: solving the toxicity problem
CAR T therapies are saving lives, but toxicities such as CRS and ICANS remain a major barrier. What will it take to overcome them?
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ArticleMaking sense of AI: bias, trust and transparency in pharma R&D
AI is increasingly used in drug discovery, but hidden bias and ‘black box’ models threaten trust and transparency. This article explores how explainable AI can turn opaque predictions into clear, accountable insights.
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ArticleLab of the future: four technologies to watch
From precision proteomics to AI-powered immune profiling, next-generation laboratory technologies are changing how new therapies are discovered and developed. Here are four innovations set to shape the lab of the future - and the future of drug discovery.
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ArticleInside the search-and-develop model tackling 1,000 untreated skin diseases
With over 1,000 skin diseases lacking approved treatments, a search-and-develop model is changing how new therapies are sourced and developed. Chief Scientific Officer, Jacob Pontoppidan Thyssen, outlines the strategy behind it.
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ArticleGene therapies that listen and respond: the power of RNA regulation
Most gene therapies rely on static DNA promoters to control gene activity, but nature uses far more sophisticated tools. Dr Matthew Dale explores how harnessing RNA-level control could enable treatments that sense and respond in real time, offering unprecedented precision and safety.
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ArticleInside the Alzheimer’s study backing stem cells, not drugs
In this first-in-human Alzheimer’s study, Wnt-activated autologous stem cells are delivered intracerebroventricularly (directly into the brain) to address neuronal loss, while also reducing amyloid and tau biomarkers and improving cognition. Early data from this regenerative approach could help early drug discovery teams shape target selection, biomarker development and trial design.
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ArticleBeyond the hype: a veteran's honest assessment of AI in drug discovery - Part 2
Thibault Géoui explains why AI could finally help pharma overcome its productivity crisis and why the payoff won’t come as quickly as the optimists claim.
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ArticleWhat if drug discovery took months, not decades?
Drug discovery is slow, costly and often unsuccessful. DTR hears how GATC Health is applying AI and multiomics to make the process faster, more precise and less reliant on trial and error.
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ArticleHow to select the optimal bispecific antibody format for therapeutic success
Choosing the right bispecific antibody format can make or break your therapy’s success. This article explores how format impacts function, manufacturability and development strategy - helping you make the best choice from the start.
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ArticleChallenges in developing robust potency assays for ADCs
Developing robust potency assays for Antibody-Drug Conjugates (ADCs) is crucial for ensuring their clinical success, but designing assays that meet both technical and regulatory standards is challenging. Here, Abzena’s CSO Campbell Bunce explores the complexities of assay development and the importance of ensuring accuracy, consistency and regulatory alignment for ADCs ...
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ArticleLupus reimagined: targeting the cause, not just the symptoms
Engineered cell therapies are offering a potential new way to treat lupus – not by suppressing symptoms, but by reprogramming the immune system itself. For the first time, lasting remission looks like a real possibility.
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ArticleFrom injections to pills: oral peptides set to transform drug development
Oral peptide-based drugs are set to revolutionise the pharmaceutical industry, overcoming the long-standing challenge of poor bioavailability. Santosh Kulkarni reveals how new breakthroughs in drug discovery and delivery offer the potential for more convenient, effective treatments for a range of conditions – without the need for injections.
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ArticleWhy most T-cell engagers fail - and how to fix it
Bispecific T-cell engagers are advancing fast - but complexity still slows development. This article explores how data-driven, platform-based strategies are helping overcome design and manufacturing hurdles to bring these next-gen therapies to patients faster.
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ArticleTracing ACLY from cardiovascular target to liver therapy lead
Can a cholesterol enzyme help treat an untreatable liver disease? Esperion’s ACLY programme is using multiomic and preclinical data to evaluate its potential in primary sclerosing cholangitis.