Redox imbalances, which result from excessive production of reactive oxygen species (ROS) or malfunctioning of the antioxidant system, are the source of oxidative stress.ROS affects all structural and functional components of cells, either directly or indirectly. In addition to causing genetic abnormalities, excessive ROS also oxidatively modifies proteins by protein oxidation and peroxidation and alters lipid structure via advanced lipoxidation, decreasing function and promoting damage or cell death. On the other hand, low levels of ROS constitute important redox-signaling molecules in various pathways that maintain cellular homeostasis and regulate key transcription factors. As a result, ROS can affect various cellular processes, such as apoptosis, migration, differentiation, and proliferation. ROS can act as signaling molecules, controlling various normal physiological activities at the cellular level. Furthermore, there is an increasing body of evidence indicating the role of ROS in various clinical conditions.In this review, we will summarize the role of ROS in physiological and pathological processes and antioxidant action during oxidative stress.

Redox imbalances, which result from excessive production of reactive oxygen species (ROS) or malfunctioning of the antioxidant system, are the source of oxidative stress.ROS affects all structural and functional components of cells, either directly or indirectly. In addition to causing genetic abnormalities, excessive ROS also oxidatively modifies proteins by protein oxidation and peroxidation and alters lipid structure via advanced lipoxidation, decreasing function and promoting damage or cell death. On the other hand, low levels of ROS constitute important redox-signaling molecules in various pathways that maintain cellular homeostasis and regulate key transcription factors. As a result, ROS can affect various cellular processes, such as apoptosis, migration, differentiation, and proliferation. ROS can act as signaling molecules, controlling various normal physiological activities at the cellular level. Furthermore, there is an increasing body of evidence indicating the role of ROS in various clinical conditions.In this review, we will summarize the role of ROS in physiological and pathological processes and antioxidant action during oxidative stress.

Redox imbalances, which result from excessive production of reactive oxygen species (ROS) or malfunctioning of the antioxidant system, are the source of oxidative stress.ROS affects all structural and functional components of cells, either directly or indirectly. In addition to causing genetic abnormalities, excessive ROS also oxidatively modifies proteins by protein oxidation and peroxidation and alters lipid structure via advanced lipoxidation, decreasing function and promoting damage or cell death. On the other hand, low levels of ROS constitute important redox-signaling molecules in various pathways that maintain cellular homeostasis and regulate key transcription factors. As a result, ROS can affect various cellular processes, such as apoptosis, migration, differentiation, and proliferation. ROS can act as signaling molecules, controlling various normal physiological activities at the cellular level. Furthermore, there is an increasing body of evidence indicating the role of ROS in various clinical conditions.In this review, we will summarize the role of ROS in physiological and pathological processes and antioxidant action during oxidative stress.

Ayurveda is one of the oldest and most widely practiced traditional medical systems in the world. The ancient knowledge in this traditional medical system has yet to be fully explored. The interaction of rich knowledge from various traditional systems of medicine can open new pathways in the herbal drug discovery process. Apart from other hurdles in discovering plant-based medicines, the lack of knowledge of the differences and similarities between the theoretical doctrines of these systems is the greatest impediment to their convergence. Rasashastra is an Ayurvedic medicine section that deals with formulations that include minerals/metals, particularly Parad (mercury).According to the Ayurvedic Formulary of India, the most widely used heavy metals are mercury, arsenic, and lead. However, contemporary scientists are concerned about the use of heavy metals in Ayurvedic preparation. In this review article, we will discuss Ayurvedic medicine and the toxic effects of heavy metals.