Research Articles
Cracking the Cancer Code: How Digital Blueprints and Atomic Snapshots Guide Drug Discovery
Explore how computational chemistry and crystallography reveal the binding mechanisms of anti-cancer cyclohexadienones, accelerating precision drug discovery.
Ghost Points: How a Mathematical Trick Could Predict Cancer Sooner
Discover how hidden symmetry in tumor growth patterns is helping scientists forecast cancer progression with startling accuracy using mathematical ghost points.
Molecular MASH-UP: Crafting Hybrid Warriors in the Fight Against Cancer
Explore how scientists are creating hybrid molecules by fusing triterpenoids with AZT to develop more effective cancer treatments with fewer side effects.
Targeted Radionuclide Therapy Activates Prodrugs to Combat Metastasis
Discover how targeted radionuclide therapy combined with activatable prodrugs creates a precision approach to treating metastatic cancer.
A Smarter Strike on Cancer: The One-Two Punch That Targets Tumors and Unleashes Its Payload On Command
Discover how scientists are creating smart cancer drugs that target tumors with precision and release chemotherapy only inside cancer cells, reducing side effects.
From Plate to Prescription: How Everyday Foods are Supercharging Cancer Treatments
Discover how natural compounds in everyday foods are enhancing cancer treatments by overcoming chemotherapy resistance through chemo-sensitization.
Building a Molecular Sniper: The Quest for New Anticancer Agents
Explore how scientists are creating hybrid molecules like tetrahydroquinoline-isoxazole compounds to develop targeted cancer therapies with precision and reduced side effects.
Nature's Pharmacy: How Sugar Apple Fruit Fights Cancer
Discover how Annona squamosa (sugar apple) fruit pericarp contains powerful antitumor compounds that can fight cancer through apoptosis induction.
Unlocking Cancer's Code: The Topoisomerase I Revolution
Explore how Topoisomerase I inhibitors are revolutionizing cancer treatment by targeting DNA replication in cancer cells.
The Invisible Trail: How Tiny Metals in Single Cells Are Revolutionizing Cancer Fight
Discover how microfluidic devices and ICP-MS are transforming cancer research by detecting metallic elements in single cells, enabling personalized medicine approaches.