Browsing by Author "Deepak Kumar"
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Item Antiamnesic Activity of Extracts and Fraction of Desmodium Gangeticum(Chitkara University Publications, 2015-05-20) Kritika Mahajan; Deepak Kumar; Suresh KumarDesmodium gangeticum D.C. (Salpani; family – Papilionaceae) has been traditionally used in the treatment of various ailments especially in dementia. Thus, it was planned to screen antiamnesic activity of D. gangeticum to validate its traditional claims. Properly identified powdered plant material was extracted successively using solvents in increasing order of polarity viz., n-hexane, chloroform, methanol and water. All the extracts were administered at the doses of 200 or 400 mg/kg, p.o. for six successive days to mice. The antiamnesic activity of crude extracts was evaluated against scopolamine (0.6 mg/kg, i.p.) induced amnesia using well established exteroceptive behavioural model, i.e., elevated plus maze (EPM). The efficacy of test drugs was statistically compared with the standard memory enhancing drug, piracetam (100 mg/kg, p.o.). A standardized procedure was adopted to prepare alkaloidal fraction from D. gangeticum roots, which was also evaluated for antiamnesic activity at the doses of 25 or 50 mg/kg, p.o. The chloroform extract and alkaloidal fraction of the plant significantly reversed the amnesia induced by the scopolamine at the dose of 400 and 50 mg/kg, respectively, with respect to control. The antiamnesic activity shown by the chloroform extract and alkaloidal fraction of the plant was statistically equivalent to the standard drug. It is concluded that alkaloids are responsible for antiamnesic activity of D. gangeticum roots.Item Estimation of Isolated Triterpenoid – Ursolic Acid in Verbena officinalis L. Aerial Parts Using TLC Densitometry(Chitkara University Publications, 2014-11-30) Jashanjot Kaur; Deepak Kumar; Reecha Madaan; Suresh KumarVerbena officinalis L. (Vervain; family-Verbenaceae),a traditionally used and medicinally promising plant, has been reported to contain triterpenoids as major class of phytoconstituents. But no work has ever been carried out on V. officinalis to isolate major chemical constituent(s), and to standardize plant material on the basis of isolated constituent(s) using TLC densitometry.The chloroform extract of V. officinalisaerial parts was prepared by extracting properly identified plant in a Soxhlet apparatus.Preliminary phytochemical screening of chloroform extract showed presence of triterpenoids. Column chromatography of chloroform extract using solvent systems viz., hexane:chloroform, chloroform and chloroform:methanol in different concentrationsyielded five fractions (F1- F5). Preliminary phytochemical screening of various fractions of chloroform extract revealed presence of triterpenoids in F2 and F3 fractions. Therefore, these fractions were further subjected to column chromatography. White colored crystals were obtained in SF1 sub-fraction separated from F2and was designated as VOC-1. Structure of VOC-1 was elucidated by IR and NMRspectral studies and was characterized as ursolic acid. Further, ursolic acid was quantified in V. officinalisaerial parts by validated TLC densitometric method. The content of ursolic acid was found to be 0.1580% in V. officinalis aerial parts.The linearity range, correlation coefficient, intra-day precision, inter-day precision, LOD, LOQ and accuracy were found to be 300-1800 ng, 0.997, 1.2% CV, 1.6% CV, 40 ng/spot, 130 ng/spot and 98.27% respectively.Item Estimation of Total Phenols and Flavonoids in Selected Indian Traditional Plants(Chitkara University Publications, 2014-05) Deepak Kumar; Anupam Jamwal; Reecha Madaan; Suresh KumarTraditionally, aerial parts of Abies pindrow Royle (Himalayan Fir; Pinaceae); Abies webbiana Lindl. (Talispatra; Pinaceae); Cephalandra indica Naud. (Ivy Gourd; Cucurbitaceae) and roots of Calotropis gigantea (L.) Dryand (Giant Milkweed; Asclepiadaceae) have been used in the Indian systems of medicine for the treatment of various ailments. But no systematic phytochemical work has ever been carried out on these potential plants. Thus, it was planned to estimate total phenols and flavonoids content in methanol extract, ethyl acetate fraction (EAF) and remaining methanol extract (RME) of selected plants. Properly identified plants were defatted with petroleum ether, and then separately extracted in a Soxhlet apparatus with methanol. The methanol extract of each plant was partitioned by ethyl acetate solvent to obtain EAF of respective plant. The total phenols and flavonoids contents were estimated using standardized procedures. Quantitative determination of total phenols and total flavonoids was done using standard curve of gallic acid (linearity: 20 to 120 mg/ml; r2 = 0.995) and quercetin (linearity: 30 to 180 mg/ml; r2 = 0.997), respectively. EAF of selected plants contained higher content of phenols and flavonoids, where as lowest content was observed in RME of plants. The content of total phenols and flavonoids in selected plants were found to be in order of C. indica > A. webbiana > A. pindrow > C. gigantea. The available literature reveals that polyphenols have been reported to possess varied pharmacological activities. As selected Indian plants contain polyphenols as major class of phytoconstituents, it is suggested that these constituents may be responsible for their medicinal uses.Item Neuropharmacological Activities of Abies pindrow Aerial Parts in Mice(Chitkara University Publications, 2015-11-17) Deepak Kumar; Suresh KumarThe methanol extract (200 or 400 mg/kg, p.o.) and ethyl acetate fraction (25 or 50 mg/kg, p.o.) of A. pindrow aerial parts were screened for anticonvulsant, antidepressant, locomotor, hypnotic and antistress activities. The methanol extract (ME) and ethyl acetate fraction (EAF) could not reduce duration of MES-induced tonic extensor phase with respect to the standard drug, phenytoin (20 mg/kg, i.p.). Both ME and EAF showed significant reduction of time spent in immobile state in forced swim test and did not stimulate locomotion in an open field model, thereby confirming their specific antidepressant activity. In cold swim test, ME and EAF showed antistress activity comparable to diazepam (1 mg/kg, i.p.). None of the test doses of ME and EAF could significantly increase duration of sleep in mice as compared to the control group. Phytochemical screening of ME and EAF showed presence of flavonoids as major class of phytoconstituents.Item Neuropharmacological Profile of Fractions of Actaea acuminata H. Hara Roots(Chitkara University Publications, 2018-05-02) Deepak Kumar; Suresh KumarThe methanol extract of Actaea acuminata roots have beenpreviously reported to exhibit significant antianxiety, anticonvulsant andantidepressant activities. In present study fractionation of crude bioactivemethanol extract was carried out using different solvents employing standardprocedure. Various fractions were evaluated for antianxiety, anticonvulsantand antidepressant activities using elevated plus maze model (EPM), maximalelectroshock-induced convulsions model (MES) and forced / despair swim test(FST) respectively. Successive partitioning of bioactive methanol extract wasdone with ethyl acetate and 1-butanol. The ethyl acetate fraction (EAF; 100mg/kg), 1-butanol fraction (BF; 25 mg/kg) and remaining methanol extract(RME; 70 mg/kg) were subjected to neuropharmacological activities. TheEAF significantly enhanced entries and average time spent in open arms;significantly decreased duration of MES-induced tonic extension phase andsignificantly decreased duration of immobility time of rats in comparisonto control. BF and RME did not exhibit any neuropharmacological activity.Qualitative chemical tests confirmed presence of alkaloids and polyphenolsin EAF. It is finally concluded that alkaloids and/or polyphenols are bioactiveconstituents of A. acuminata which are responsible for neuropharmacologicalactivities.