دراسة طيفية لتقدير الاولانزابين ، الترايفلوبيرازين هيدروكلورايد والكاربامازيبين بحالاتها النقية وفي مستحضراتها الصيدلانية == A Spectrophotometric Study for the Determination of Olanzapine, Trifluoperazine hydrochloride and Carbamazepine in their Pure Forms and Pharmaceutical Preparations
Author name:
سحر ريحان فاضل
Supervisor name:
نجوى اسحق عبد الله | انتظار داود سليمان
General topic:
Chemistry
Specific topic:
Chemistry
Degree:
Doctorate
University:
University of Baghdad
Language:
English
University location:
Baghdad
First pages:
25T1785 - p.pdf
Abstract:
Four different spectrophotometric methods were developed in this study for the determination of three Antipsychotic drugs namely; olanzapine (OLN.), trifluoperazine hydrochloride (TFZ.) and carbamazepine (CRN.) in their pure form and pharmaceuticalpreparations which are formulated as tablets. The first method : Oxidative coupling reaction Based on the reaction of each drug with 2,4 - dinitrophenyl hydrazine (2,4 - DNPHz) in the presence of potassium periodate and sodium hydroxide to form colored products. The absorbance values for the formed complexes were measured at 403nm for olanzapine, 405nm for trifluoperazine hydrochloride, and 485nm for carbamazepine; against reagent blank.Different variables affecting the completion of the reaction have been carefully optimized by varying the parameters one at a time and controlling all others fixed. The results show better optical characteristics for calibration curve and statistical data under optimum conditions.The calibration graphs are linear in the ranges of (2 - 35) μg.mL - 1 with molar absorptivity 1.0247104 L.mol - 1.cm - 1 and detection limit 0.8075 μg.mL - 1 for (OLN.) product, (1 - 40)μg.mL - 1 with molar absorptivity 1.4832104 L.mol - 1.cm - 1 and detection limit 0.1747μg.mLfor (TFZ.) product, (4 - 50) μg.mL - 1 with molar absorptivity 6.4746103 L.mol - 1.cm - 1 and detection limit 0.1094 μg.mL - 1 for (CRN.) product.The stoichiometry of the formed complexes were examined adopting continuous variation (Job’s) and mole ratio methods it was found to be 1 : 1 (drug : reagent) for all reaction.No interference of the studied excipients were observed in the estimation of the cited drugs. Therefore, the proposed method was applied successfully for the determination of the three cited drugs in their tablet dosage form.The second method : Diazotization coupling reaction Based on the reaction of the studied drugs with the diazonium salt of ρ - nitroaniline (which prepared by the reaction of ρ - nitroaniline with sodium nitrite in the presence of hydrochloric acid) in alkaline mediumto form colored azo dye products. The absorbance values for the formed azo dye compounds were measured at 405 nm for olanzapine, 406 nm for trifluoperazine hydrochloride, and 416 nm for carbamazepine; against reagent blank.The optimum reaction conditions and other analytical parameters were evaluated. The results show better optical characteristics for calibration curve and statistical data under optimum conditions.The calibration graphs are linear in the ranges of (0.5 - 45) μg.mL - 1 with detection limit 0.3148μg.mL - 1 for (OLN.) product, (1 - 18) μg.mL - 1 with detection limit 0.0676μg.mL - 1 for (TFZ.) product, (0.5 - 20) μg.mL - 1 with detection limit 0.0756 μg.mL - 1 for (CRN.) product. The molar absorptivity were found to be 1.5777104L.mol - 1.cm - 1, 1.8704104 L.mol - 1.cm - 1 and 1.8735104 L.mol - 1.cm - 1 for (OLN.), (TFZ.) and (CRN.) respectively.The stoichiometry of the formed complexes were studied adopting mole ratio and continuous variation (Job’s) methods and it was found to be 1 : 1 (drug : reagent) for all reaction.No interference of the studied excipients were found in the determination of these drugs, therefore, the proposed method was applied successfully for the determination of the three cited drugs in their pharmaceutical preparations.The third method : charge transfer complex formation Based on the formation of charge transfer complexes between the studied drugs as n - donors, and - chloranil as π acceptor. The absorbance values for the formed complexes were measured at 359 nm forolanzapine, 390 nm for trifluoperazine hydrochloride, and 395 nm for carbamazepine; against reagent blank. All of the reaction conditions were studied and optimized. The results show better optical characteristics for calibration curve and statistical data under optimum conditions.Olanzapine and trifluoperazine hydrochloride reacted with p - chloranil in the presence of borate buffer solution of pH 9. Calibration graphs are linear in the ranges of (0.5 - 30) μg.mL - 1 with molar absorptivity 2.3307104 L.mol - 1.cm - 1 and detection limit 0.0659 μg.mL - 1 for (OLN.) complex, (1 - 20) μg.mL - 1 with molar absorptivity 1.7033104 L.mol - 1.cm - 1 and detection limit 0.1239 μg.mL - 1 for (TFZ.) complex.The stoichiometry of the formed complexes were studied adopting mole ratio and continuous variation (Job’s) methods and it was found 1 : 2 (OLN.) : p - chloranil for olanzapine complex and 1 : 1 (TFZ.) : p - chloranil for trifluoperazine hydrochloride complex.On the other hand carbamazepine reacted with p - chloranil in the presence of potassium hydroxide to form charge transfer complex. Beer’s law is obeyed in a concentration range of (5 - 35) μg.mL - 1 and detection limit 0.1994 μg.mL - 1 with molar absorptivity 4.8190103 L.mol - 1.cm - 1. The results adopting mole ratio and continuous variation (Job’s) methods showed that the complexes were formed with a ratio of 1 : 1 (CRN.) : pchloranil No interference of the studied excipients were found in the determination of (TFZ.) and (CRN.), while interference of some excipients were found in the determination of (OLN.). Therefore, the proposed method was applied successfully for the determination of the three cited drugs in their pharmaceutical preparations.Fourth method : derivative spectrophotometry Based on the first and second derivative spectra of absorption which has been applied for simultaneous spectrophotometric determination of (OLN.), (TFZ.) and (CRN.) drugs in their mixture in the ultravioletregion. The method offers an advantage of getting rid of the resulting error in the absorption values of each drug because the presence of the two other drugs can interfere in the determination of the cited drug. It was found that the method is able to accurately estimate (OLN.) in the range of (2 - 14) μg.mL - 1, in mixtures containing (2, 6, and 10) μg.mL - 1 of (TFZ.) and (CRN.) as interfering species. The results obtained, form the first derivative measurements, indicated that when the concentration of (TFZ.) and (CRN.) is kept constant with variable concentrations of (OLN.), the peaks amplitudes measured as peak to baseline at 291.47 nm was found to be in proportion with the (OLN.) concentration and used for its determination. The careful inspection of the second derivative spectra obtained for the mentioned mixture of the cited drugs showed that height to baseline at zero cross at 300.00nm, measurements could be used to quantify the exact concentration of (OLN.) in the presence of (TFZ.) and (CRN.). species. The procedure gave good results over the studied range of concentrations depending on peak to baseline at 266.95 nm measurement which could be used for the determination of (TFZ.) in the first derivative.On other hand, the wavelengths are at 263.47 nm and 270 nm, peak to baseline measurements were used for the estimation of (TFZ.) using second derivative, were found to be in proportion with the (TFZ.) concentration, and used for its determination. Alternatively (CRN.) was determined in the range of (2 - 14) μg.mL - 1 in a mixture containing (2, 6 and 10) μg.mL - 1 of (OLN.) and (TFZ.) as interfering species. The procedure exhibited good results over the studied range of concentrations depending on height to baseline at zero cross at 225.00 nm measurement was found to be used for the determination of (CRN.) using the first derivative, while the wavelengths are at height to baseline at zero cross 231.47 and peak to baseline at 238.69 nm measurements were used for the estimation of (CRN.) using second derivative were found to be in proportion with the (CRN.) concentration, therefore they are used for its determination.The results showed that no interferences from the studied excipients were found in the determination of the cited drugs. Therefore, the proposed method was applied successfully for the determination of the three cited drugs in their pharmaceutical preparations(TFZ.) was determined in the range of (2 - 13) μg.mL - 1 in a mixture containing (2, 6 and 10) μg.mL - 1 of (OLN.) and (CRN.) as interfering
