List view / Grid view
Scientists have developed a 3D liver model, known as the periportal assembloid. This model replicates the liver’s complex structure and bile transport system, enabling more precise study of disease progression.
Scientists have used AI to design a molecule that disrupts a key protein interaction driving up to 70 percent of cancers - once thought impossible to drug.
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.
An experimental peptide from Virginia Tech may offer a new way to stop glioblastoma from coming back by disrupting the cancer’s treatment-resistant core.
Researchers at the University of Michigan have engineered a herpes virus protein to enhance T cell survival and function, offering a new strategy to strengthen cancer immunotherapy.
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.
A new study from the University of Barcelona’s Institute of Neurosciences has discovered a crucial role for the RTP801 protein in astrocytes, potentially making way for future therapies aimed at slowing or reversing cognitive decline.
A new study from Central South University reveals how adenosine phosphate signalling shapes the tumour microenvironment in melanoma, offering a new biomarker for guiding personalised cancer treatment.
The world’s first translational research center dedicated to urea cycle disorders (UCDs) has been launched in Zürich, marking a significant moment in rare disease innovation.
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.
Researchers at Mass General Brigham have developed a new gene therapy delivery system, AAV.CPP.16, that targets the lungs via nasal spray, which could offer a potential breakthrough in respiratory gene therapy.
Mayo Clinic researchers have created the world’s first biobank of human salivary gland tissue-organoids, offering a resource for developing regenerative therapies to treat chronic dry mouth.
Researchers have developed the first fully stem cell-derived model of human ovarian organoids, or "ovaroids," offering a powerful new tool for studying infertility, differences in sex development (DSDs), and related reproductive disorders.
Tyra Biosciences has announced new data showing that its investigational therapy, TYRA-300, improves bone growth and corrects skeletal abnormalities in preclinical models of achondroplasia and hypochondroplasia.
ELRIG has announced the keynote speakers for Drug Discovery 2025, its flagship life sciences event taking place in Liverpool, England this October.
