Anti-Therapeutic Action: chronic inflammation

Heavy Metal-Contaminated Soils and Gastric Cancer Risk: Molecular Insights and the Relevance of a One Health Perspective

mycolabadmin

Heavy metals like cadmium, arsenic, and lead contaminate agricultural soils and accumulate in crops such as rice and vegetables, which people consume as part of their daily diet. These metals damage stomach cell DNA and trigger inflammation, increasing cancer risk, especially when combined with bacterial infections like H. pylori. A comprehensive approach monitoring soil quality, crop safety, and human health together can help prevent this disease and protect communities from contamination.

Read More »

The Immune Mind: Linking Dietary Patterns, Microbiota, and Psychological Health

mycolabadmin

This review shows that what we eat significantly affects our mental health through our gut bacteria and immune system. Mediterranean-style diets rich in vegetables, whole grains, and healthy fats can help reduce depression and anxiety symptoms. Conversely, ultra-processed foods with added sugars and artificial ingredients increase the risk of mental health problems. Specific probiotic supplements may also provide modest benefits for mood by promoting beneficial gut bacteria.

Read More »

Human Gut Microbiome: A Connecting Organ Between Nutrition, Metabolism, and Health

mycolabadmin

Your gut bacteria function like an extra organ, helping digest food and producing important compounds that affect your whole body. The type of bacteria in your gut depends on diet, delivery method at birth, and antibiotics you’ve taken. Eating more fiber and taking certain probiotics can improve your bacterial balance and help prevent diseases like diabetes, obesity, and heart problems. This suggests that managing your gut microbiome through diet might be just as important as taking traditional medicines for staying healthy.

Read More »

Biofilms and Chronic Wounds: Pathogenesis and Treatment Options

mycolabadmin

Chronic wounds, such as diabetic foot ulcers and burn injuries, are often complicated by bacterial and fungal biofilms—protective communities of microorganisms that resist antibiotics and delay healing. This review summarizes how biofilms form, why they are difficult to treat with standard approaches, and discusses new therapeutic strategies. While debridement and antiseptics remain important, combining them with novel treatments like bacteriophages, enzyme therapies, and nanotechnology offers better chances for healing these stubborn wounds.

Read More »
Scroll to Top