RESUMO
<p><b>OBJECTIVE</b>To correlate the chromatographic and computational method to calculate lipophilicity of selected ginger compounds and to observe the effects of log P on wound healing.</p><p><b>METHODS</b>Mixtures of acetonitrile and water with acetonitrile content between 95% and 50% v/v in 5% increments were kept separately in 10 different chromatographic chambers, saturated with solvent for 2 h. Spots were observed under UV light at λ=254 nm p-anisaldehyde used as a spraying reagent. Theoretical calculation was done using the Alogps 2.1 online program at www.vcclab.org/lab/alogps. For percentage wound contraction, five groups of animal (mice) (25-30 g) of either sex were selected. Wound were created on dorsal surface of animals using toothed forceps, scalpel and pointed scissors. The wound areas were calculated using vernier caliper. After making wound mice were orally administered 35 mg/kg 6-shogoal, 6-gingerol, 8-gingerol and 10-gingerol respectively. Group E as the control group received tap water.</p><p><b>RESULTS</b>The lipophilicity values determined in thin layer chromatography were correlated with the theoretically calculated various log P by linear regression analysis. Significant correlations were found between log P values calculated by software program and the experimental reversed-phase thin-layer chromatography data. Order of wound healing property of ginger compounds is directly dependent on lipophilicity i.e. more lipophilic compound has highest activity.</p><p><b>CONCLUSIONS</b>Experimentally determined lipophilicity (R MO) values were correlated with log P determined by software's and found satisfactory. Lipophilicity (R MO) is a useful parameter for the determination and prediction of biological activity of ginger compounds.</p>
RESUMO
Aims: A simple RP-TLC Spectrodensitometric method was developed for determination of Hyoscine N-Butyl Bromide (HBB) and Paracetamol (PAR) either in bulk powder or in their pharmaceutical preparation. Study Design: Validation study. Methodology: In this method, HBB and PAR were separated on RP-18 W/ UV254 TLC plates using developing mobile phase consisting of methanol: citrate buffer (pH=1.5): triflouroacetic acid (70:30:0.1, by volume) at room temperature. Experimental conditions such as band size, slit width, different developing systems and scanning wavelength were carefully studied and the optimum conditions were selected. The obtained bands were then scanned at 210 nm. The two drugs were satisfactorily resolved with RF 0.60 ± 0.02 for HBB and 0.81 ± 0.02 for PAR. The validation of spectrodensitometric method was done regarding linearity, accuracy, precision, and specificity. Results: Linearity of the proposed methods was evaluated and it was found to lie within the concentration range of 2.0-12.0 μg.band-1 for HBB and 2.0-14.0 μg.band-1 for PAR. Conclusion: The proposed method was successfully applied for determination of HBB and PAR in pure form and in their different pharmaceutical formulations. The method proved to be specific, accurate and selective.