TY - BOOK ID - 113574246 TI - Oxidative Stress and Inflammation : From Mechanisms to Therapeutic Approaches PY - 2022 SN - 3036560246 3036560238 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Public health & preventive medicine KW - diospyrin KW - lipopolysaccharide KW - anti-inflammation KW - macrophages KW - nitric oxide KW - cytokine KW - calcium KW - CHOP KW - Fas KW - p38 MAPK KW - Astragalus mongholicus Bunge KW - danazol KW - telomere KW - telomerase KW - aging KW - diabetic kidney disease KW - oxidative stress KW - redox imbalance KW - hyperimmunized milk KW - exercise KW - inflammation KW - intestinal permeability KW - acute respiratory distress syndrome KW - antiplatelet KW - aspirin KW - therapy KW - gender KW - membrane erythrocyte KW - hydroperoxides KW - biomarker KW - DPPP KW - DPH KW - TMA KW - cardiovascular disease KW - data analysis KW - precision–recall KW - Mediterranean diet KW - Oriental diet KW - nutrition KW - polyphenols KW - microbiota KW - health KW - n-3 PUFAs KW - endogenous antioxidants KW - anti-inflammatory response KW - cardiovascular diseases KW - dry eye syndrome KW - corneal damage KW - tear lipidome KW - 5-lipoxigenase KW - leukotriene B4 KW - prostaglandins KW - dimethyl sulfoxide KW - zileuton KW - air pollution KW - soot KW - particulate matter KW - lung inflammation KW - functional groups KW - microglia KW - porcine liver decomposition product KW - lysophospholipids KW - mild cognitive impairment KW - dementia KW - neuroinflammation KW - cytokines KW - oxygen reactive species KW - caloric restriction KW - oxidative balance KW - adiponectin KW - plasma KW - white adipose tissue KW - experimental model KW - anti-inflammatory diets KW - inflammatory response KW - chronic inflammation KW - low grade chronic inflammation KW - inflammatory models KW - cyclophosphamide KW - doxorubicin KW - docetaxel KW - paclitaxel KW - n/a KW - precision-recall UR - https://www.unicat.be/uniCat?func=search&query=sysid:113574246 AB - In the biochemical reactions that take place within all living beings, species called free radicals are generated. Denham Harman, in his study on the origin and evolution of life (Harman, 2001), proposes that these species are amongst the causes of the origin of life on our planet. Oxygen is a molecule that provides the primary source of energy in aerobic organisms and therefore is key to the development and evolution of life. On the one hand, it gives rise to life; on the other, due to its ability to form different free radicals, it is capable of damaging essential structures for development. To combat these radicals, our biological systems have developed antioxidant defenses. However, when the balance between free radicals and antioxidant defenses is broken in favor of the former, a phenomenon called oxidative stress occurs, which ends up damaging molecules such as DNA, proteins, carbohydrates, and lipids (Sies, 1983) (Halliwell and Gutteridge, 1985). This phenomenon is implicated both in the development of diseases and in their progression. In addition, inflammation phenomena are also involved in most pathologies, which, although they are essential for tissue repair and immunity, turn against our bodies when they become excessively active. For these reasons, in this special edition we showcase an extensive knowledge of the effects of oxidative stress and inflammation both in diseases such as aging, or for its role in health. ER -