E Minelli
University of Milan
31 Papers
172 Citations
E Minelli is an academic researcher from University of Milan. The author has contributed to research in topics: Oxidative stress & Medicine. The author has an hindex of 9, co-authored 31 publications.
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Papers
Milk, milk products, and disease free health: an updated overview
Ravinder Nagpal,Pradip Behare,Manoj Kumar,Dheeraj Mohania,Mukesh Yadav,Shalini Jain,Saji Menon,Om Parkash,Francesco Marotta,E Minelli,Christiani Jeyakumar Henry,Hariom Yadav +11 more
TL;DR: The various aspects of the therapeutic nature of milk and fermented dairy products are reviewed in a highly up-dated manner, and an in-depth insight into the development of targeted therapeutic future foods as per the requirements of consumers is offered.
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•Journal Article
Chemopreventive effect of a probiotic preparation on the development of preneoplastic and neoplastic colonic lesions: an experimental study.
TL;DR: Effective probiotics treatment, through mechanisms still to be fully elucidated (decreased fecal pH, specific reduction of carcinogenetic bacterial enzymes, modulation of gut-associated and systemic immune system etc.) has the potential to exert significant antimutagenic properties against colon cancer.
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Effect of an isoflavones-containing red clover preparation and alkaline supplementation on bone metabolism in ovariectomized rats.
TL;DR: Data show that red clover preparation in dosages amenable to clinical practice do improve OVX-induced osteoporosis while a mild metabolic alkalosis might further synergize some therapeutic aspects.
Metal-induced oxidative damage in cultured hepatocytes and hepatic lysosomal fraction: beneficial effect of a curcumin/absinthium compound.
TL;DR: These data support the potential clinical application of curcumin-containing compounds in metal-induced liver injury and show PN-M001 was significantly better than sylibin in suppressing acid phosphatase enzyme activity.
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Protective effect of a phytocompound on oxidative stress and DNA fragmentation against paracetamol-induced liver damage
TL;DR: The hepatoprotective potential DTS seems to be related to the prevention of formation of the reactive oxygen groups thereby preventing the damage on the hepatocytes and possibly modulating the genes responsible for synthesis of liver antioxidant enzymes thus providing marked DNA protection.
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