All Analytical Techniques articles – Page 11
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News
New class of chiral molecules offers strong stability for drug development
Scientists have created a new class of ultra-stable chiral molecules – a discovery that could lead to more precise drug design by preventing potentially harmful molecular “flipping” over time
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ArticleFixing failed drugs: AI solutions for toxicity in drug discovery – part 2
Why do so many drug candidates fail before reaching patients – and can AI help stop the losses? In Part 2, Layla Hosseini-Gerami of Ignota Labs outlines the scope of the toxicity problem and explains why failures often come too late to fix.
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ArticleThe future of CNS drug development: signs of real progress
New therapeutic approaches are emerging for CNS disorders – but can they overcome the toughest barriers in drug development? Find out what is driving progress and what still stands in the way.
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NewsMicroglia replacement halts ALSP progression in landmark trials
Scientists from Fudan University have halted the progression of ALSP, a rare and fatal brain disease, using a pioneering microglia replacement therapy - marking the first effective clinical approach to tackling the disease.
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NewsThe unexpected role of FDA-approved drugs in making nanoparticles safer
Repurposing existing FDA-approved drugs could make nanomedicines safer by reducing harmful immune reactions, according to new research.
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NewsA gentle squeeze: Scientists use physical force to transform stem cells into bone
Researchers at the National University of Singapore have discovered that physically squeezing stem cells through narrow spaces can trigger their transformation into bone-forming cells – potentially allowing for development of new bone repair therapies.
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NewsTargeting MAPK and PI3K/mTOR pathways halts ovarian cancer growth
A new preclinical study has combined two experimental drugs that effectively block ovarian tumour growth – a strategy that could lead to new treatments against this genetically complex cancer.
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NewsBile acid-enhanced liver organoids set to improve liver disease treatment
Researchers in Japan have developed long-lasting 3D liver organoids from stem cells by incorporating bile acids into the culture medium - offering a new model for studying chronic liver diseases.
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ArticleNGS is evolving: collaboration and tech lead the way
Next-generation sequencing (NGS) is advancing fast – and it’s not happening in isolation. Strategic partnerships and automation are streamlining workflows and reshaping what's possible in genomics research.
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NewsMicroglia discovery offers clues to Alzheimer’s progression
Immune cells in the brain called microglia may hold the key to improving blood flow and tackling diseases like Alzheimer’s, new research from the University of Virginia suggests.
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NewsMitochondria: melanoma’s hidden vulnerability
Scientists at Lund University have shown that aggressive melanoma tumours are driven by overactive mitochondrial processes – revealing a potential treatment strategy using drugs already approved for other conditions.
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ArticleFixing failed drugs: AI solutions for toxicity in drug discovery – part 1
Why do so many drug candidates fail before reaching patients – and can AI help stop the losses? In Part 1, Layla Hosseini-Gerami of Ignota Labs outlines the scope of the toxicity problem and explains why failures often come too late to fix.
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NewsCan skin heal like our mouth? A new study says it might
The mouth heals wounds rapidly - and without scarring. A new preclinical study has identified a unique molecular pathway responsible for this ability - which could lead to future skin healing therapies.
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ArticleWhat single cells are revealing about brain disorders
Single-cell and spatial technologies are giving researchers an unprecedented view of how brain diseases like Alzheimer’s really work. The result? Faster discovery, clearer targets and a new path towards more effective treatments.
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NewsRapid cell reprogramming creates lung-like cells to combat COPD
Scientists from Nagoya University have developed a fast and safe method to create lung cells from skin-like fibroblasts - without using stem cells. This technique could allow for new regenerative therapies for diseases like chronic obstructive pulmonary disease (COPD).
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NewsSlowing intracellular transport boosts potential for RNA therapies
Researchers at the University of Basel and Roche have discovered that slowing the intracellular transport of RNA-based drugs significantly improves their therapeutic impact.
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ArticleFixing drug discovery’s most persistent problem with AI
AI will not replace drug discovery, but it might finally fix one of its most frustrating bottlenecks. Read how a targeted approach to ADMET is cutting through the noise.
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News
New mouse model mimics rare GRIN2D disorder
Researchers at Tel Aviv University have developed a new mouse model that accurately mimics a rare and severe genetic disorder caused by mutations in the GRIN2D gene – allowing for study of the disease’s progression and the testing of potential drug therapies.
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NewsLINC01235 identified as driver of aggressive breast cancer
Researchers at Cold Spring Harbor Laboratory have demonstrated that an obscure RNA molecule, LINC01235, plays a crucial role in the progression of aggressive triple-negative breast cancer (TNBC) – potentially allowing for the development of targeted therapies against it.
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NewsLeukaemia-on-a-chip mimics bone marrow for better CAR T testing
A new “leukaemia-on-a-chip” device replicates human bone marrow and immune interactions, enabling researchers to observe CAR T cell therapies in action - potentially allowing for more personalised treatment strategies for leukaemia patients.