MANAGEMENT OF PSORIASIS THROUGH AYURVEDA- A CASE STUDY

Psoriasis is one of the most common dermatologic diseases, affecting up to 1% of the world's population. It is a chronic inflammatory skin disorder clinically characterized by erythematous, sharply demarcated papules and rounded plaques, covered by silvery micaceous scale. It has poorly understood etiology and presence of 50% positive family history. Drugs used now a day are basically immunosuppressive which have severe side effects along with remission of disease as well therefore holistic approach of Ayurveda can be a better approach to such disease. Psoriasis due to its different manifestation in different types can be correlated to different types of Kustha mentioned in Ayurveda. So the case being presented here is a male patient with red demarcated patches with severe itching in armpits, groin and nipple.Material and method: The patient was administered with Virechana with Trivritaavaleha followed by Shamana drugs.Results: After Virechana there was the complete improvement in itching and redness of patches was reduced to some extent but after using Shamana drugs there was moderate reduction in all the symptoms along with mild remission.Conclusion: There is need to develop a management for psoriasis which can give benefit on a long run without any adverse effects so, Ayurvedic system of medicine could be answer to this question

Change in lattice parameter of tantalum due to dissolved hydrogen

The volume expansion of tantalum due to the dissolved hydrogen has been determined using Bragg equation. The hydrogen was dissolved in the pure tantalum metal at constant temperature (360 °C) and constant pressure (132 mbar) by varying the duration of hydrogen charging. The amount of dissolved hydrogen was within the solid solubility limit. The samples with different hydrogen concentration were analyzed by X-ray diffraction technique. Slight peak shifts as well as peak broadening were observed. The relative changes of lattice parameters plotted against the hydrogen concentration revealed that the lattice parameters varied linearly with the hydrogen concentration

Helium migration and precipitation in irradiated and annealed copper boron alloy

The paper analyses afresh the data of Russell and Hastings on the changes in lattice parameter during post-irradiation annealing of copper-boron alloy in the temperature range 823-923 K. The changes in lattice parameter are brought about by the generation of helium during irradiation through (n, α) reaction and its subsequent behavior during annealing. The new analytical procedure adopted here follows chemical kinetics route to determine the appropriate activation energies associated with the rate processes controlling the changes in lattice parameter. During the first stage of annealing, the lattice parameter decreases to a value which is below the equilibrium one. The second stage involves the recovery of lattice parameter to the equilibrium value. The diffusion of monovacancy and the jump of helium atom to vacancy on its nearest neighbor site are identified as the unit processes for the first and second stages of annealing respectively. Finally, it is suggested that a helium–monovacancy complex may act as nucleus for the formation of helium gas bubbles

Association mapping reveals novel genes and genomic regions controlling grain size architecture in mini core accessions of Indian National Genebank wheat germplasm collection

Wheat (Triticum aestivum L.) is a staple food crop for the global human population, and thus wheat breeders are consistently working to enhance its yield worldwide. In this study, we utilized a sub-set of Indian wheat mini core germplasm to underpin the genetic architecture for seed shape-associated traits. The wheat mini core subset (125 accessions) was genotyped using 35K SNP array and evaluated for grain shape traits such as grain length (GL), grain width (GW), grain length, width ratio (GLWR), and thousand grain weight (TGW) across the seven different environments (E1, E2, E3, E4, E5, E5, E6, and E7). Marker-trait associations were determined using a multi-locus random-SNP-effect Mixed Linear Model (mrMLM) program. A total of 160 non-redundant quantitative trait nucleotides (QTNs) were identified for four grain shape traits using two or more GWAS models. Among these 160 QTNs, 27, 36, 38, and 35 QTNs were associated for GL, GW, GLWR, and TGW respectively while 24 QTNs were associated with more than one trait. Of these 160 QTNs, 73 were detected in two or more environments and were considered reliable QTLs for the respective traits. A total of 135 associated QTNs were annotated and located within the genes, including ABC transporter, Cytochrome450, Thioredoxin_M-type, and hypothetical proteins. Furthermore, the expression pattern of annotated QTNs demonstrated that only 122 were differentially expressed, suggesting these could potentially be related to seed development. The genomic regions/candidate genes for grain size traits identified in the present study represent valuable genomic resources that can potentially be utilized in the markers-assisted breeding programs to develop high-yielding varieties

Consciousness In Mandukya Karika

There is a myth about philosophy that it contains only a dead stuff of knowledge and has no relation with contemporary life and society. It has always been misunderstood that all the philosophical speculations are nothing but daydreaming of certain scholars and also that they have laid down more emphasis on life beyond death than present life. However, it is very far from truth, in as much as, Indian philosophy contains substantial components of eternal truth, and it has universal applications, which are capable of conducting the man to the gateway of the good through the shady avenue of beautiful self. The modern technological advancement has disconnected us from spiritual advancement and it has resulted the loss of mental peace. The rapid technological advancement and scientific investigations have blessed us with comforts and luxuries but at the same time there has been a starvation of the spirit and sickening of the soul resulting in unbalanced growth of human personality. Here comes the importance of philosophical teachings. There has been awakening in regard to the spirit, and necessity for all round development of the man’s spiritual personality. It is precisely at this point that Indian philosophy comes to the rescue of the modern creature by projecting before him through employment of which he can expand the boundaries of the ego, as also by opening before him the lock gates of the perennial stream of spirituality. Here in this essay, I would try to unlock the magic of the theory of Consciousness which has been discussed by the great sage GAUDAPADA in his Mandukya Karika. My main focus will be to elucidate the whole complex process of attaining ultimate consciousness in order to delve into the ultimate reality. At the end of the essay, we will see how theory of consciousness owns the answers to all the riddles of a self-enquirer. We will also discuss the non-dualistic philosophy of Advaita Vedanta with the karika

Helium migration and precipitation in irradiated and annealed copper boron alloy

The paper analyses afresh the data of Russell and Hastings on the changes in lattice parameter during post-irradiation annealing of copper-boron alloy in the temperature range 823-923 K. The changes in lattice parameter are brought about by the generation of helium during irradiation through (n, α) reaction and its subsequent behavior during annealing. The new analytical procedure adopted here follows chemical kinetics route to determine the appropriate activation energies associated with the rate processes controlling the changes in lattice parameter. During the first stage of annealing, the lattice parameter decreases to a value which is below the equilibrium one. The second stage involves the recovery of lattice parameter to the equilibrium value. The diffusion of monovacancy and the jump of helium atom to vacancy on its nearest neighbor site are identified as the unit processes for the first and second stages of annealing respectively. Finally, it is suggested that a helium–monovacancy complex may act as nucleus for the formation of helium gas bubbles

Helium migration and precipitation in irradiated and annealed copper boron alloy

The paper analyses afresh the data of Russell and Hastings on the changes in lattice parameter during post-irradiation annealing of copper-boron alloy in the temperature range 823-923 K. The changes in lattice parameter are brought about by the generation of helium during irradiation through (n, α) reaction and its subsequent behavior during annealing. The new analytical procedure adopted here follows chemical kinetics route to determine the appropriate activation energies associated with the rate processes controlling the changes in lattice parameter. During the first stage of annealing, the lattice parameter decreases to a value which is below the equilibrium one. The second stage involves the recovery of lattice parameter to the equilibrium value. The diffusion of monovacancy and the jump of helium atom to vacancy on its nearest neighbor site are identified as the unit processes for the first and second stages of annealing respectively. Finally, it is suggested that a helium–monovacancy complex may act as nucleus for the formation of helium gas bubbles