Research Articles
Nature's Hidden Code: How a Rosemary Compound Outsmarts Cancer Cells
Discover how carnosic acid from rosemary fights lung cancer by activating AMPK and inhibiting Akt pathways in cancer cells.
The Gut Guardians: How a Tiny Bacterium Declares War on Cholesterol
Explore how Lactobacillus acidophilus fights cholesterol through microbiological and histopathological studies. Discover the science behind this gut-heart connection.
The Gene That Shields the Kidney: A Scientific Breakthrough
Discover how the A20 gene could revolutionize organ transplants by protecting kidneys from ischemia-reperfusion injury
Sestrin2: The Cellular Shield That Makes Osteosarcoma Resistant to Chemotherapy
Exploring how Sestrin2-mediated autophagy contributes to drug resistance in osteosarcoma through endoplasmic reticulum stress mechanisms.
The Hidden Orchestra of Prostate Cancer: How a Non-Coding RNA Pulls the Strings
Discover how long non-coding RNA DARS-AS1 contributes to prostate cancer progression through regulating the microRNA-628-5p/MTDH axis in this comprehensive scientific overview.
Unlocking Ancient Wisdom: How a Traditional Chinese Formula Fights Lung Cancer
Explore how Maimendong & Qianjinweijing Decoction inhibits lung cancer cell proliferation through multiple molecular mechanisms.
The Invisible Messenger: How a Trace of Blood DNA Predicts Cognitive Decline
Discover how circulating cell-free DNA (cfDNA) in blood may predict cognitive decline years before symptoms appear. Learn about the breakthrough research linking cfDNA to dementia risk.
Restoring Balance: How Fixing the Body's Broken Thermostat Could Revolutionize ALS Treatment
Discover how computational models reveal ALS as a homeostatic imbalance and how precisely timed combination therapies could restore stability to the nervous system.
The Silent Guardian: How L-Carnitine Protects Kidneys from Toxic Assault
Discover how L-Carnitine, a naturally occurring compound, protects kidneys from toxic damage by activating the PI3K/AKT cellular survival pathway.
The Silent Killers Within: How Suicide Enzymes in Our Brains Could Revolutionize Alzheimer's Detection
Discover how pro-apoptotic kinases in cerebrospinal fluid could enable Alzheimer's detection up to 20 years before symptoms appear, revolutionizing early diagnosis and treatment.