Research Articles
Disarming the Body's Double Agent: The Hunt for a New Generation of Smart Drugs
How scientists are using atomic-level blueprints to design molecules that can tame the dangerous TGF-β protein involved in cancer and fibrosis.
Golden Bullets: How Nanoparticles are Revolutionizing Cancer Radiation Therapy
Discover how gold-coated lanthanide phosphate nanoparticles are solving critical challenges in targeted alpha radiotherapy for cancer treatment.
The Genetic Needle in a Haystack: How Scientists Silence Noise to Hear Cancer's Whisper
Discover how Nucleic Acid Hybridization-Based Noise Suppression is revolutionizing cancer detection by amplifying the faintest genetic mutations with unprecedented clarity.
Unlocking Cancer's Door: The Prodrug Payload Revolution Targeting Tumors with Platinum-Acridine Agents
Exploring the development of prodrug-payloads based on platinum-acridine hybrid agents—a revolutionary approach for precise cancer treatment.
The Molecular Ninja: How Metal-Based Medicines are Revolutionizing Cancer Warfare
Exploring the cutting-edge science of organometallic compounds as targeted anti-tumor agents that promise more precise cancer treatment with fewer side effects.
The Invisible Army: How Sugar-Coated Antibodies Are Revolutionizing Cancer Therapy
Discover how rhamnose-modified antibodies are transforming cancer immunotherapy through in situ self-assembly techniques for enhanced precision and effectiveness.
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 Invisible War: How Nano-Enhanced Honey Compound Targets Cancer Cells
Exploring how nanotechnology enhances chrysin's anticancer properties through advanced visualization techniques like flow cytometry and FTIR spectroscopy.
Light Warriors: How Tiny Nanospheres Are Revolutionizing Cancer Therapy
Discover how near-infrared light-triggered nanospheres are revolutionizing cancer therapy with deep-penetrating light and precision targeting.
Unlocking Cancer's Weak Spot: How Novel Molecular Keys Target EGFR Tyrosine Kinase
Exploring how 1,3,4-triazaphenalene and 1,3,4,6-tetraazaphenalene derivatives target EGFR tyrosine kinase in cancer treatment