Georgios Karaolanis scite author profile

Acute and chronic excessive intracellular increase of reactive oxygen species (ROS) is involved in the development and progression of cardiovascular diseases. ROS are by-products of various oxidative physiological and biochemical processes. Sources of ROS are mitochondrial respiration, NADH/NADPH oxidase, xanthine oxidoreductase or the uncoupling of nitric oxide synthase (NOS) in vascular cells. ROS mediate various signaling pathways that underlie cardiovascular pathophysiology. The delicate equilibrium between free-radical generation and antioxidant defense is altered in favor of the former, thus leading to redox imbalance, oxidative stress, and increased cellular injury. An understanding of the pathophysiological mechanisms mediated by oxidative stress is crucial to the prevention and treatment of cardiovascular diseases.

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Neutrophil Gelatinase-Associated Lipocalin Measured on Clinical Laboratory Platforms for the Prediction of Acute Kidney Injury and the Associated Need for Dialysis Therapy: A Systematic Review and Meta-analysis

Albert

Zapf

Haase

et al. 2020

American Journal of Kidney Diseases

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Correlation between Ki67 and Breast Cancer Prognosis

Kontzoglou¹,

Palla

Karaolanis³

et al. 2013

Oncology

117

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Background: Ki67 is an immunohistochemical proliferation marker in many types of cancer and has been widely studied among breast cancer patients mostly through retrospective studies. Methods: The MEDLINE/PubMed database was searched for publications with the medical subject heading ‘Ki 67’ and the key words ‘breast’, ‘cancer’, and ‘prognosis’. We restricted our search to articles published until 2012. Results: In this review, we included 78 articles and abstracts that were accessible and available in English. An effort to further explain the role of Ki67 in the prognosis of breast cancer has been made. Conclusions: The debate on the prognostic role of Ki67 in breast cancer is still open, although most of the studies have established a relation between Ki67 and overall and disease-free survival. Further research should be made in order to establish Ki67 as a standard prognostic marker in breast cancer.

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The role of reactive oxygen species in myocardial redox signaling and regulation

et al. 2017

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Reactive oxygen species (ROS) are subcellular messengers in gene regulatory and signal transduction pathways. In pathological situations, ROS accumulate due to excessive production or insufficient degradation, leading to oxidative stress (OS). OS causes oxidation of DNA, membranes, cellular lipids, and proteins, impairing their normal function and leading ultimately to cell death. OS in the heart is increased in response to ischemia/reperfusion, hypertrophy, and heart failure. The concentration of ROS is determined by their rates of production and clearance by antioxidants. Increases in OS in heart failure are primarily a result of the functional uncoupling of the respiratory chain due to inactivation of complex I. However, increased ROS in the failing myocardium may also be caused by impaired antioxidant capacity, such as decreased activity of Cu/Zn superoxide dismutase (SOD) and catalase (CAT) or stimulation of enzymatic sources, including, cyclooxygenase, xanthine oxidase (XO), nitric oxide synthase, and nonphagocytic NAD(P)H oxidases (Noxs). Mitochondria are the main source of ROS during heart failure and aging. Increased production of ROS in the failing heart leads to mitochondrial permeability transition, which results in matrix swelling, outer membrane rupture, a release of apoptotic signaling molecules, and irreversible injury to the mitochondria. Alterations of "redox homeostasis" leads to major cellular consequences, and cellular survival requires an optimal regulation of the redox balance.

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