Traditional Ethnomedicinal Knowledge Confined to the Pawra Tribe of Satpura Hills, Maharashtra, India

Ethnobotanical surveys can potentially bring out many different clues for the development of safe, effective and inexpensive indigenous remedies. Present study has been focussed on Pawra tribe of Nandurbar district of Maharashtra, India. Field surveys of this area were carried out during 2000–2005 through several field visits and interviews. The aim of the present study was primarily to evaluate and inverntorize medicinal uses of the plants known to Pawras and to encourage preservation of their culture, conservation and sustainable utilization of the plant wealth. After an extensive comparison with literature, about 80 unique or less known uses of 79 plant species belonging to 59 families are described. The documented ethnomedicinal usage of plants mostly pertains to cure asthma, inflammation, lactation, menstrual problems, poisonous bites, skin problems, stomach ache and tooth ache. We found that the study area is rich in ethnic and biodiversity and the tribe posses a valuable treasure of ethnobotanical knowledge. This wisdom available with the tribe is transmitted only through oral communication in locally-spoken, script-less language and therefore needs conservation. The plants used by the Pawra tribe are arranged alphabetically followed by family name, herbarium number, local name, parts used, mode of preparation and medicinal uses

Evaluation of the bioavailability of major withanolides of Withania somnifera using an in vitro absorption model system

Withania somnifera (L.) Dunal, shows several pharmacological properties which are attributed mainly to the withanolides present in the root. The efficacy of medicinally active withanolides constituents depends on the absorption and transportation through the intestinal epithelium. We examined these characteristics by employing the Sino-Veda Madin-Darby canine kidney cells culture system, which under in vitro condition shows the absorption characteristics similar to the human intestinal epithelium. Thus, the aim of the present investigation was to assess the bioavailability of individual withanolides. Withanolides were diluted in Hank′s buffered saline at a concentration of 2 μg/ml were tested for permeability studies carried out for 1 h duration. Permeability was measured in terms of efflux pump (Peff ) in cm/s. Peff values of withanolide A (WN A), withanone (WNN), 1,2-deoxywithastramonolide (1,2 DWM), withanolide B (WN B), withanoside IV-V (WS IV-V), and withaferin A were 4.05 × 10−5 , 2.06 × 10−5 , 1.97 × 10−5 , 1.80 × 10−5 , 3.19 × 10−6 , 3.03 × 10−6 and 3.30 × 10−7 respectively. In conclusion, the nonpolar and low molecular weight compounds (WN A, WNN, 1,2 DWM, and WN B) were highly permeable. As against this, the glycosylated and polar WS IV and WS V showed low permeability. Surprisingly and paradoxically, the highly biologically active withaferin A was completely impermeable, suggesting that further studies possibly using human epithelial colorectal adenocarcinoma (Caco-2) cells may be needed to delineate the absorption characteristics of withanolides, especially withaferin A

Evaluation of Humidity Sensor Based on PVP-RGO Nanocomposites

This paper describes the humidity sensing properties of one step in situ synthesized poly (N-vinyl pyrrolidone)- reduced graphene oxide (PVP-RGO) nanocomposites. Different PVP-RGO nanocomposites were obtained by varying PVP/GO weight %ratio as x/50 mg, wherein x = 25, 50, and 75 mg, respectively. The real-time adsorption kinetics of the water molecules during the humidity sensing were also discussed using Elovich model, pseudo first and second order equations. The increase in humidity response of 1.5 PVP-RGO nanocomposite is attributed to the presence of large amount of oxygen functionalities. The above observation was corroborated using spectroscopic analysis. The optimized PVP-RGO nanocomposite showed faster response kinetics with response and recovery times of 10 and 20 s, respectively. The present humidity sensor shows remarkable linearity over the range of 20-90%RH. More specifically, sensitivity was correlated with oxygen functionalities created due to variation of PVP during the functionalization of RGO nanosheets