Changes

Jump to navigation Jump to search
126 bytes added ,  17:03, 11 November 2018
Line 2,516: Line 2,516:  
=== ''Vidhi Vimarsha'' ===
 
=== ''Vidhi Vimarsha'' ===
   −
''Rasayana'' and ''vajikarana'' therapies have common aim to provide positive health and prevention of diseases by increasing vigor of healthy person and so, [[Vajikarana]] is described just after [[Rasayana]] chapter. Health scientists are showing great interest in screening classical ''rasayana'' drugs for their antioxidant activity and research reveals good results. Studies on ''amalaki rasayana'' <ref>Dwivedi V, Anandan EM, Mony RS, Muraleedharan TS, Valiathan MS, Mutsuddi M, et al. In vivo effects of traditional Ayurvedic formulations in Drosophila melanogaster model relate with therapeutic applications. PLoS One. 2012;7:e37113</ref> shows increased longevity and on Drosophila melanogaster there is reduced oxidative damage to extend lifespan. Many drugs are described as ''rasayanas'' and ''vajikara'' both. Reactive oxygen species (ROS) has deteriorating effect on sperm. This has been increasing due to changing lifestyle and exposure to environmental pollution. Spermatozoa normally produce ROS in a normal physiological process. The amount of ROS produced is to be carefully controlled. Imbalance between the generation and scavenging of ROS may lead to damage to DNA or other important structures. Spermatozoa lack cytoplasmic defensive enzymes, such as catalase, glutathione peroxidase, which are involved in the protection of most cell types from ROS induced peroxidative damage. Large amounts of unsaturated fatty acids are observed in plasma membranes of spermatozoa, those are particularly vulnerable to free radical attack. The subfertile men have higher concentrations of ROS in seminal plasma, whereas an inverse correlation exists between ROS concentration and motility. Many ''rasayanas'' act as antioxidants, so they can also be used to enhance sperm quality and quantity. Thus, mutual correlation and common mode of action justifies description of ''vajikarana'' just after ''rasayana'' therapy.
+
''Rasayana'' and ''vajikarana'' therapies have common aim to provide positive health and prevention of diseases by increasing vigor of healthy person and so, [[Vajikarana]] is described just after [[Rasayana]] chapter. Health scientists are showing great interest in screening classical ''rasayana'' drugs for their antioxidant activity and research reveals good results. Studies on ''amalaki rasayana'' <ref>Dwivedi V, Anandan EM, Mony RS, Muraleedharan TS, Valiathan MS, Mutsuddi M, et al. In vivo effects of traditional Ayurvedic formulations in Drosophila melanogaster <ref> Fontana L, Partridge L, Longo VD. Extending healthy life span – From yeast to humans. Science. 2010;328:321–6</ref> model relate with therapeutic applications. PLoS One. 2012;7:e37113</ref> shows increased longevity and on Drosophila melanogaster there is reduced oxidative damage to extend lifespan. Many drugs are described as ''rasayanas'' and ''vajikara'' both. Reactive oxygen species (ROS) has deteriorating effect on sperm. This has been increasing due to changing lifestyle and exposure to environmental pollution. Spermatozoa normally produce ROS in a normal physiological process. The amount of ROS produced is to be carefully controlled. Imbalance between the generation and scavenging of ROS may lead to damage to DNA or other important structures. Spermatozoa lack cytoplasmic defensive enzymes, such as catalase, glutathione peroxidase, which are involved in the protection of most cell types from ROS induced peroxidative damage. Large amounts of unsaturated fatty acids are observed in plasma membranes of spermatozoa, those are particularly vulnerable to free radical attack. The subfertile men have higher concentrations of ROS in seminal plasma, whereas an inverse correlation exists between ROS concentration and motility. Many ''rasayanas'' act as antioxidants, so they can also be used to enhance sperm quality and quantity. Thus, mutual correlation and common mode of action justifies description of ''vajikarana'' just after ''rasayana'' therapy.
    
For many years, decline in human semen quality and fertility rates is a concern. Environmental and occupational pollutants, changes in lifestyles, exposure to toxic agents, and changes in dietary habits are observed among the most commonly cited factors associated with these declines. The environmental and lifestyle factors causing subfertility shall be targeted for curative or preventive measures. Environmental stress causes increase in the number of free radicals (i.e., hydrogen peroxide [H2O2] and reactive oxygen species [ROS] that cause apoptosis in the spermatogenic cell. Chronic or severe stress leads to anovulation and amenorrhea in women and to decrease in sperm count, motility, and morphology in men. Smoking, alcohol, caffeine, pesticides, air pollution, bisphenol A,diseases like hypertension, diabetes mellitus, obesity, cardio-vascular disease are related to deterioration of reproductive health by affecting sperm quality.  
 
For many years, decline in human semen quality and fertility rates is a concern. Environmental and occupational pollutants, changes in lifestyles, exposure to toxic agents, and changes in dietary habits are observed among the most commonly cited factors associated with these declines. The environmental and lifestyle factors causing subfertility shall be targeted for curative or preventive measures. Environmental stress causes increase in the number of free radicals (i.e., hydrogen peroxide [H2O2] and reactive oxygen species [ROS] that cause apoptosis in the spermatogenic cell. Chronic or severe stress leads to anovulation and amenorrhea in women and to decrease in sperm count, motility, and morphology in men. Smoking, alcohol, caffeine, pesticides, air pollution, bisphenol A,diseases like hypertension, diabetes mellitus, obesity, cardio-vascular disease are related to deterioration of reproductive health by affecting sperm quality.  

Navigation menu