Research Articles
The Secret Ingredient from Nature’s Kitchen: How a Simple Molecular Twist is Revolutionizing Medicine
Discover how prenylation, the process of adding a prenyl group to aromatic drugs, is enhancing drug targeting and bioavailability, revolutionizing modern medicine.
Unlocking PDE10A: How Computer Models Are Revolutionizing Drug Discovery
Explore how QSAR modeling and artificial neural networks are accelerating the development of PDE10A inhibitors for treating neurological disorders, cancer, and heart conditions.
The Radiometal Revolution: How phospa-Trastuzumab Is Pioneering Precision Cancer Medicine
Exploring phospa-trastuzumab, a bifunctional methylenephosphonate-based chelator that's advancing cancer theranostics with radiometals 89Zr, 111In, and 177Lu.
The Cancer-Zapping Smart Bomb: A Click Away from a Prostate Cancer Revolution
How scientists are using revolutionary 'click chemistry' to build precision gene therapies that hunt down prostate cancer cells.
The Living Drug: How Your Own Cells Are Re-Engineered to Beat Cancer
Explore the revolutionary science of CAR-T cell therapy, a groundbreaking cancer treatment that reprograms a patient's own immune cells to hunt and destroy cancer.
The Hidden Inhibitor: How an IgG Antibody Masks Liver Disease Detection
Discover how IgG antibodies can artificially suppress ALT activity in blood tests, creating potentially dangerous false negatives in liver disease detection.
The Metal Medics: How Tin and Palladium Could Forge Tomorrow's Medicines
Exploring the biological potential of Organotin (IV) and Pd(II) compounds in modern medicine, particularly their promising anticancer properties.
The Invisible Cloak: How Scientists Are Making Chemotherapy Smarter
Discover how polymer modification and hydrophilization are transforming chemotherapy drugs into targeted treatments, reducing side effects and improving efficacy.
Sweet Targeting: How Sugar-Coated Cancer Drugs Are Revolutionizing Chemotherapy
Discover how glycan-based paclitaxel prodrugs target cancer cells through glucose transporters for more precise chemotherapy with fewer side effects.
Digital Divination: How Computers Are Decoding the Secret Language of Cellular Movement
Exploring computational approaches to understanding how cells move across various substrates, with implications for regenerative medicine and cancer treatment.