skin cancer – mycolab.ai

Water Quality Degradation Due to Heavy Metal Contamination: Health Impacts and Eco-Friendly Approaches for Heavy Metal Remediation

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Heavy metals from factories, farms, and waste contaminate our drinking water and cause serious health problems like kidney damage and cancer. Traditional chemical methods to clean this water are expensive and create more pollution. Scientists are discovering that certain bacteria and plant materials can remove heavy metals naturally and cheaply, offering a sustainable solution to protect public health.

Nanomaterial-mediated strategies for enhancing bioremediation of polycyclic aromatic hydrocarbons: A systematic review

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This review examines how combining tiny engineered materials (nanomaterials) with natural microorganisms can more effectively clean up environmental pollution from polycyclic aromatic hydrocarbons, which are harmful chemicals produced by burning fossil fuels and other processes. The study found that using nanomaterials alongside bacteria significantly improved pollution removal rates in water and soil, with improvements of up to 19% in liquid samples and 14% in soil samples. Different types of nanomaterials like carbon-based materials and metal oxides work by helping bacteria degrade pollutants more efficiently through various mechanisms. This approach offers a more sustainable and environmentally friendly solution compared to using traditional remediation methods alone.

Electrospun Membranes Loaded with Melanin Derived from Pecan Nutshell (Carya illinoinensis) Residues for Skin-Care Applications

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Researchers developed new skincare membranes by combining pecan shell waste with advanced fiber technology. These membranes harness melanin from the shells to create materials with strong antioxidant and antibacterial properties that could protect skin from aging and infections. The innovation demonstrates how agricultural waste can be transformed into valuable cosmetic products that are both effective and environmentally friendly.

Multidirectional Characterization of Phytochemical Profile and Health-Promoting Effects of Ziziphora bungeana Juz. Extracts

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Ziziphora bungeana, a traditional medicinal plant from Kazakhstan, was studied for its health benefits. Scientists found it contains powerful plant compounds that fight bacteria and fungal infections, especially those causing skin problems. The extracts work similarly to commercial skin-lightening agents and show promise for treating infections and skin conditions without significant harm to healthy cells.

The mycelium of the Trametes versicolor synn. Coriolus versicolor (Turkey tail mushroom) exhibit anti-melanoma activity in vitro

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Turkey tail mushrooms, used in traditional Chinese medicine for thousands of years, show promise in fighting melanoma skin cancer. Scientists tested mushroom extracts on melanoma cells in the laboratory and found they kill cancer cells through multiple mechanisms, including triggering programmed cell death and activating the immune system. The mushroom extract also reduced cancer cell migration and showed potential to work better when combined with standard chemotherapy drugs like paclitaxel. These findings suggest turkey tail could be a valuable addition to melanoma treatment strategies.

Assessment of Cucurbita spp. Peel Extracts as Potential Sources of Active Substances for Skin Care and Dermatology

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This study examined pumpkin peels as a sustainable source of natural compounds for skincare products. Researchers extracted active ingredients using water and plant-based solvents, then tested their antioxidant properties, ability to protect skin from sun damage, and safety for use on skin. The findings show that pumpkin peel extracts, particularly those made with water, could be safe and effective ingredients in cosmetic products.

Safe and Effective Antioxidant: The Biological Mechanism and Potential Pathways of Ergothioneine in the Skin

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Ergothioneine is a natural compound found in certain fungi and bacteria that acts like a powerful antioxidant in the body. When applied to skin, it can protect against damage from sun exposure and environmental pollution, reduce signs of aging, and help calm inflammation. It’s particularly special because it automatically travels to damaged areas in the skin where it’s needed most, making it an efficient and targeted treatment ingredient for cosmetics.

Acetophenone-Based 3,4-Dihydropyrimidine-2(1H)-Thione as Potential Inhibitor of Tyrosinase and Ribonucleotide Reductase: Facile Synthesis, Crystal Structure, In-Vitro and In-Silico Investigations

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Scientists created a new chemical compound that shows promise in fighting skin cancer, particularly melanoma. The compound is seven times more effective at blocking tyrosinase, an enzyme involved in skin pigmentation and cancer growth, compared to existing drugs. Computer simulations and laboratory tests confirmed that this compound can also interfere with DNA replication processes that cancer cells depend on, suggesting it could be developed into a new cancer treatment with fewer side effects.

Disease: skin cancer