Nanomedicine in the ROS-mediated pathophysiology: Applications and clinical advances

Abstract Reactive oxygen species (ROS) are important in regulating normal cell physiological functions, but when produced in excess lead to the augmented pathogenesis of various diseases. Among these, ischemia reperfusion injury, Alzheimer’s disease and rheumatoid arthritis are particularly importan...

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Published inNanomedicine Vol. 11; no. 8; pp. 2033 - 2040
Main Authors Nash, Kevin M., B.Sc, Ahmed, Salahuddin, Ph.D
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.11.2015
Subjects
Animals
Antioxidant therapies
Antioxidants - administration & dosage
Antioxidants - chemistry
Antioxidants - therapeutic use
Drug Carriers - chemistry
Drug Delivery Systems - methods
Humans
Internal Medicine
Nanomedicine
Nanomedicine - methods
Nanoparticles - chemistry
Nanotechnology - methods
Oxidative stress
Oxidative Stress - drug effects
Reactive Oxygen Species - metabolism
RNS
ROS
Oxidative stress
Antioxidant therapies
Nanomedicine
RNS
ROS
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Summary:Abstract Reactive oxygen species (ROS) are important in regulating normal cell physiological functions, but when produced in excess lead to the augmented pathogenesis of various diseases. Among these, ischemia reperfusion injury, Alzheimer’s disease and rheumatoid arthritis are particularly important. Since ROS can be counteracted by a variety of antioxidants, natural and synthetic antioxidants have been developed. However, due to the ubiquitous production of ROS in living systems, poor in vivo efficiency of these agents and lack of target specificity, the current clinical modalities to treat oxidative stress damage are limited. Advances in the developing field of nanomedicine have yielded nanoparticles that can prolong antioxidant activity, and target specificity of these agents. This article reviews recent advances in antioxidant nanoparticles and their applications to manage oxidative stress-mediated diseases. From the Clinical Editor Production of reactive oxygen species (ROS) is a purely physiological process in many disease conditions. However, excessive and uncontrolled production will lead to oxidative stress and further tissue damage. Advances in nanomedicine have provided many novel strategies to try to combat and counteract ROS. In this review article, the authors comprehensively highlighted the current status and future developments in using nanotechnology for providing novel therapeutic options in this field.
ISSN:1549-9634
1549-9642
DOI:10.1016/j.nano.2015.07.003