All Biotechnology & Bioengineering articles – Page 3
-
NewsNew sticky material mimics gecko feet to fight tumours
Inspired by the gecko lizard’s grip, scientists at CU Boulder have developed a sticky, biodegradable material that clings to tumours and delivers chemotherapy drugs over several days.
-
NewsNew 3D bioprinted lung tissue could transform respiratory research
UBC Okanagan researchers have developed a new 3D bio-printed lung model that closely mimics the complexity of human tissue – providing scientists with a powerful new tool for studying respiratory diseases.
-
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.
-
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.
-
NewsScientists grow 3D brain that mimics the real thing
Researchers at POSTECH have developed a new 3D brain model that closely mimics the structure and function of human brain tissue – marking a major advance in early disease detection.
-
NewsNew nanoparticle enhances cancer drug penetration
Researchers at Southern Medical University have developed a self-propelled ferroptosis nanoinducer that penetrates deeper into tumour tissues - offering a new strategy for safer and more effective cancer treatment.
-
News
Stanford grows vascularised mini-organs
Stanford scientists have successfully grown heart and liver organoids that include functioning blood vessels. This breakthrough overcomes a major size and maturity barrier, which could advance disease modelling and regenerative therapies in the future.
-
NewsEngineered DNA aptamers outsmart viral infection pathways
EPFL scientists have engineered virus-inspired DNA aptamers that bind infection targets with record selectivity. This innovation could change how we diagnose and treat infectious diseases.
-
NewsAI just made protein design smarter and faster
Meet the AI tool that creates proteins that fold better, bind tighter and perform more reliably. Find out why it matters for next-generation medicines.
-
NewsEngineering realistic blood vessels to fight vascular disease
Researchers at Texas A&M University have developed advanced vessel-chip technology that closely mimics the complex architecture of human blood vessels, offering a new potential platform for studying vascular diseases and accelerating drug discovery.
-
NewsChemical hack turns platelets into drug couriers
Researchers at the University of Illinois have achieved the first successful metabolic labelling of platelets, a key step toward using them in targeted drug delivery. The technique could enable short-lived, precision therapies for cancer, immune conditions, and clotting disorders. ...
-
NewsVascularised stem cell organoids advance diabetes therapy
A team of researchers have developed the first vascularised organoid model of human pancreatic islets, which could lead to further development of advanced cell therapies for diabetes.
-
NewsNew plasma therapy fights aggressive soft tissue cancer
Researchers at Osaka Metropolitan University have found that plasma-activated medium (PAM) significantly reduces synovial sarcoma tumour growth in both lab and animal models, offering a promising new approach for treating this rare and aggressive cancer.
-
ArticleGene silencing: a step forward for rare disease therapy
Gene silencing offers a promising approach to treating rare neurological diseases like H-ABC. With clinical trials on the horizon, find out how targeted therapies could bring real hope to patients and families.
-
NewsNanoparticle therapy shows potential to prevent spread of pancreatic cancer to liver
Pancreatic cancer is notoriously hard to treat, especially when it spreads to the liver in advanced stages. Researchers at UCLA’s California NanoSystems Institute (CNSI) have developed an innovative nanoparticle technology to tackle this challenge.
-
NewsCapgemini’s AI innovation set to boost bioeconomy
Capgemini's new AI-powered methodology reduces data requirements by 99 percent and accelerates bioengineering breakthroughs, including improved plastic degradation and faster drug discovery.
-
NewsGrant to fund development of vaccines to prevent dementia
Researchers at Washington University are developing a vaccine using nanofiber technology to prevent dementia, offering a safer and more effective alternative to current treatments.
-
NewsElucidating the loss of mobility caused by LGMD2B
The hiPSC-derived skeletal muscle model is the first to uncover the biological mechanisms underlying loss of mobility.
-
WhitepaperPoster: Assays for DDX3, DDX5, DDX17, RIG-I, and MDA5
A panel of HTS assays was developed using the Transcreener platform to accelerate the development of selective helicase inhibitors.
-
WhitepaperPoster: Assays for PRMT5, MLL4, METTL3/14, & NSP14
AptaFluor SAH: A Homogenous, Universal Assay for Histone, RNA, & DNA Methyltransferases. Case Study for PRMT5, MLL4, METTL3/14, & NSP14
- Previous Page
- Page1
- Page2
- Page3
- Page4
- Next Page