EI-GC-MS analysis and antidiabetic activity of Pedalium murex seed oil.

The pulverized manifestation of Pedalium murex seeds, excerpted by Soxhlets apparatus after treating with n-hexane. Oil sample was well scrutinized by EI-GC-MS, utilizing the full scan technique within mass ranges lies from 40-700 m/z. 73compounds were recognized among them, 63 compounds were identified and 10 were marked as unidentified (8, 22, 27, 43, 47, 61, 62, 64, 68 and 69). The method was executed by the conventional system of Mass spectroscopy and the data interpreted by considerable match factor ≥95 inspected by NIST library. Antidiabetic activity was carried out by Accu-Chek glucometer. Healthy albino mice were selected to perform antidiabetic activity of seed oil at 100mg/Kg and 200mg/Kg with a standard drug glibenclamide at 5mg/Kg. Antidiabetic activity was observed on 1st, 7th,14th, 21th,27th and 30th days. Statistical calculations and significant outcomes were obtained by One-way and Two-way analysis of variance, followed by Tuckey's test. The phytochemical n-hexadecanoic acid (19.53%) might be responsible for antidiabetic activity of the seed oil.

Simultaneous interaction, degradation, and kinetic study of sparfloxacin with H2 receptor antagonist.

Sparfloxacin is a quinolone carboxylic acid derivative that shows activity as an antimicrobial agent, against a wide range of Gram-negative and Gram-positive organisms. It is clinically useful for the treatment of urinary tract infections, respiratory tract infections and gynecological infections. In this study in vitro drug-drug interaction of sparfloxacin has been carried out with famotidine and ranitidine. For these studies a two-component spectrophotometric process has been developed for sparfloxacin assay in the presence of famotidine or ranitidine. The reproducibility of the method is within ±5%. The technique has been applied to the development of sparfloxacin in methanol. The interaction studies of sparfloxacin with ranitidine and famotidine were carried out in methanol and methanol: Water mixtures (30:70, v/v; 50:50, v/v) and the kinetics of sparfloxacin degradation were evaluated in the presence and absence of famotidine and ranitidine. The decrease in the rate of degradation of sparfloxacin in the presence of famotidine or ranitidine, compared to that of sparfloxacin alone, indicated the possibility of interaction between the sparfloxacin and famotidine or ranitidine. The Thin layer chromatography (TLC) of the degraded solution showed the presence of a degradation product of sparfloxacin. The studies show that complexation with famotidine or ranitidine may affect the bioavailability of sparfloxacin.

Electron ionization gas chromatography-mass spectrometry (ei-gc-ms) analysis of extracted oil from Tribulus terrestris seeds.

The fine powdered form T. terrestris seeds, was extracted with n-hexane by soxhlet apparatus. The aim of the study was to analyze the T. terrestris seed oil (sample-A) by electron ionization Gas Chromatography-Mass Spectrometry (EI-GC-MS) using full scan method within mass range from 40-700 charge to mass ratio (m/z). Out of 102 compounds (1A-102A) 11 compounds (30A, 32A, 37A, 45A, 47A, 48A, 49A, 64A, 83A, 101A and 102A) could not be identified and 91 were identified by classical interpretation of the mass spectrum and by using NIST14 library with match factor > 95 of mass spectrums. While among the 91 identified compounds 18 were found common therefore finally 73 compounds were identified in the present EI-GC-MS analysis of sample-A.

In vitro Spectroscopic studies on drug interaction of cefpodoxime proxetil and H2 receptor blockers.

One of the relatively advance 3rd generation cephalosporins, cefpodoxime proxetil, is being used all-around. Generally, these are used for the cure of infections allied to urinary and respiratory tract. These cephalosporins have showed a remarkable in vitro activity against many strains of bacteria which are resistant to other orally used active medicinal substances. It is the first oral 3rd generation cephalosporin to be used in the cure of skin infections. The practice of H2 receptor antagonists, concerning lots of treatments recommended in patients with different types of ulcers and allergic urticarial condition, is raising hazards of unwanted secondary outcomes and drug interactions. Learning of in-vitro interaction between cefpodoxime poxetil and H2 blockers (Ranitidine, Famotidine and Cimetidine) were examined applying UV/Visible spectrophotometry and Infrared spectrometry. In the existence of H2 receptor blockers, the cefpodoxime proxetil availability was found to be decreased in vitro only under specific conditions. Furthermore, complexes of Cefpodoxime proxetil-H2 receptor antagonists were manufactured approving the interaction of these drugs. Finally, the above mentioned spectrophotometric techniques were employed to examine the complexes formed (Cefpodoxime proxetil-cimetidine, cefpodoxime proxetil-famotidine and cefpodoxime proxetil-ranitidine).