MODE OF ACTION OF STHANIK CHIKITSA IN COMMONLY USED IN STREE ROGA

Yoni Roga do not occur without vitiation of Apana Vata, thus first of all Vata should be normalized then treatment of other Doshas should be done. Sthanika Chikitsa (local therapies) prescribed by ancient Acharyas as Yoni Prakshalana (cleansing of vagina), Yoni Pichu (medication soaked tampon place in the vagina), Yoni Purana (vaginal packing), Yoni Lepa (semisolid drug applied in vaginal wall), Yoni Varti (vaginal suppository), Yoni Dhoopana (vaginal fumigation) & Uttarbasti (medicated oil/Ghrita pushed in the uterine cavity). For better result of this therapy the appropriate knowledge of mode of action of drug ought to be important. Our Acharyas very well know the mode of action of this Sthanika Chikitsa and describe the specific Sthanika Chikista according to different Yoni- Vyapada or vitiated Doshas. The reason behind for chosen the vaginal route because of the rugae of the vaginal epithelium create a invoulted surface and results in a large surface area provide, this large surface area allows the trans-epithelial absorption of medications via the vaginal route & the posterior fornix have rich blood supply so actively absorption of drug. The main objective of this literature to find out the probable mode of action of special drug in specific Sthanik Chikitsa

Combination of convalescent plasma therapy and repurposed drugs to treat severe COVID-19 patient with multimorbidity.

Combination of convalescent plasma therapy and repurposed drugs such as dexamethasone and remdesivir could be beneficial for severe COVID-19 patients with obesity and chronic diseases such as diabetes and hypertension

Predicting the potential distribution and habitat variables associated with pangolins in Nepal

Pangolins are highly-threatened due to illegal hunting and poaching, and by the loss, degradation, and fragmentation of their habitats. In Nepal, effective conservation actions for pangolins are scarce due to limited information on the distribution of pangolins in many areas of the country. To identify the nationwide distribution of pangolins in Nepal, and assess the environmental variables associated with their habitat, we conducted an extensive literature review to collate data from previous studies, canvassed information from key informant interviews and expert opinion, and conducted transect surveys and sign surveys. The occurrence of pangolins was recorded based on sightings and indirect signs (such as burrows, digs, tracks, and scats) along 115 belt transects of 500-m length with a fixed width of 50-m, and habitat parameters were surveyed using 347 quadrats of 10 m*10 m. Pangolin presence was confirmed from 61 out of 75 districts from the eastern to the far western parts of the country. The highest frequency of burrows (74%) was observed in the forested habitat constituting brown soil with medium texture (0.02–2 mm) within an elevation range of 500–1500 m above sea level. Logistic regression suggested that the occurrence of pangolin was highly influenced by ground cover and canopy cover of 50–75%, litter depth, and the distance to termite mounds and roads. We used 4136 occurrence GPS points of pangolin burrows that were compiled and collected from the literature review and field surveys in order to predict the potential habitat distribution of pangolin using maximum entropy algorithm (MaxEnt 3.4.1). The model predicted 15.2% (22,393 km2) of the total land of Nepal as potentially suitable habitat for pangolin, with 38.3% (8574 km2) of potential habitat in the eastern region, followed by 37.6% (8432 km2) in the central and 24.1% (5,387 km2) in the western regions. The results of this study present a national baseline for pangolin distribution and serve as an important document for developing and executing conservation actions and management plans for the long-term conservation of pangolins in Nepal

Preliminary Phytochemical Screening of Aqueous Extract of Ficus Bengalensis Leaf Bud

Biologically active compounds present in plants are called phytochemicals. Phytochemicals are produced by plants as part of their defense mechanisms against various stresses, such as pathogens, predators, or environmental factors. These can be derived from barks, leaves, flowers, roots, fruits and a seed, knowledge of the chemical constituents of plants is desirable because they are used as direct sources of medicinal agent and such information will be valuable for synthesis of complex chemical substances. Vata (Ficus bengalensis) is such a herbal drug which is widely available and is having many mentioning in the classics for its effectiveness in Stree Vandhyatwa. Its vegetative buds are used in the treatment of Vandhyatwa. This paper mainly deals with the collection of leaf bud of Ficus bengalensis, and qualitative screening of the aqueous extract for the available phytochemicals. The extract of leaf bud was tested for the presence of tannins, flavonoids, phenols, glycosides, proteins, saponins and steroids by using standard protocols