Sensitive Extractive Spectrophotometric Methods for the Determination of Trazodone Hydrochloride in Pharmaceutical Formulations

Two simple, rapid and sensitive extractive spectrophotometric methods have been developed for the assay of trazodone hydrochloride (TRH) in pure and pharmaceutical formulations. These methods are based on the formation of chloroform soluble ion-association complexes of TRH with bromothymol blue (BTB...

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Veröffentlicht in:	Chemical & Pharmaceutical Bulletin 2006, Vol.54(7), pp.968-971
Hauptverfasser:	Kumar, Ramanaboyina Sudhir, Manjunatha, Devagondanahalli Hadagali, Shaikh, Sarfaraj Mohd Takhi, Seetharamappa, Jaldappa, Harikrishna, Kasalanti
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Sprache:	eng
Schlagworte:	Antidepressive Agents, Second-Generation - analysis Bromcresol Purple - chemistry Bromthymol Blue - chemistry Indicators and Reagents - chemistry Molecular Structure Pharmaceutical Preparations - chemistry Solubility spectrophotometric determination Spectrophotometry - methods Trazodone - analysis Trazodone - chemistry trazodone hydrochloride
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container_title	Chemical & Pharmaceutical Bulletin
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creator	Kumar, Ramanaboyina Sudhir Manjunatha, Devagondanahalli Hadagali Shaikh, Sarfaraj Mohd Takhi Seetharamappa, Jaldappa Harikrishna, Kasalanti
description	Two simple, rapid and sensitive extractive spectrophotometric methods have been developed for the assay of trazodone hydrochloride (TRH) in pure and pharmaceutical formulations. These methods are based on the formation of chloroform soluble ion-association complexes of TRH with bromothymol blue (BTB) and with bromocresol purple (BCP) in KCl–HCl buffer of pH 2.0 (for BTB) and in NaOAc–AcOH buffer of pH of 3.6 (for BCP) with absorption maximum at 423 nm and at 408 nm for BTB and BCP, respectively. Reaction conditions were optimized to obtain the maximum color intensity. The absorbance was found to increase linearly with increase in concentration of TRH, which was corroborated by the calculated correlation coefficient values (0.9996, 0.9945). The systems obeyed Beer's law in the range of 0.2—14.5 and 0.2—14.1 μg/ml for BTB and BCP, respectively. Various analytical parameters have been evaluated and the results have been validated by statistical data. No interference was observed from common excipients present in pharmaceutical formulations. The proposed methods are simple, accurate and suitable for quality control applications.
doi_str_mv	10.1248/cpb.54.968
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These methods are based on the formation of chloroform soluble ion-association complexes of TRH with bromothymol blue (BTB) and with bromocresol purple (BCP) in KCl–HCl buffer of pH 2.0 (for BTB) and in NaOAc–AcOH buffer of pH of 3.6 (for BCP) with absorption maximum at 423 nm and at 408 nm for BTB and BCP, respectively. Reaction conditions were optimized to obtain the maximum color intensity. The absorbance was found to increase linearly with increase in concentration of TRH, which was corroborated by the calculated correlation coefficient values (0.9996, 0.9945). The systems obeyed Beer's law in the range of 0.2—14.5 and 0.2—14.1 μg/ml for BTB and BCP, respectively. Various analytical parameters have been evaluated and the results have been validated by statistical data. No interference was observed from common excipients present in pharmaceutical formulations. 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Pharm. Bull.</addtitle><description>Two simple, rapid and sensitive extractive spectrophotometric methods have been developed for the assay of trazodone hydrochloride (TRH) in pure and pharmaceutical formulations. These methods are based on the formation of chloroform soluble ion-association complexes of TRH with bromothymol blue (BTB) and with bromocresol purple (BCP) in KCl–HCl buffer of pH 2.0 (for BTB) and in NaOAc–AcOH buffer of pH of 3.6 (for BCP) with absorption maximum at 423 nm and at 408 nm for BTB and BCP, respectively. Reaction conditions were optimized to obtain the maximum color intensity. The absorbance was found to increase linearly with increase in concentration of TRH, which was corroborated by the calculated correlation coefficient values (0.9996, 0.9945). The systems obeyed Beer's law in the range of 0.2—14.5 and 0.2—14.1 μg/ml for BTB and BCP, respectively. Various analytical parameters have been evaluated and the results have been validated by statistical data. No interference was observed from common excipients present in pharmaceutical formulations. 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The systems obeyed Beer's law in the range of 0.2—14.5 and 0.2—14.1 μg/ml for BTB and BCP, respectively. Various analytical parameters have been evaluated and the results have been validated by statistical data. No interference was observed from common excipients present in pharmaceutical formulations. The proposed methods are simple, accurate and suitable for quality control applications.</abstract><cop>Japan</cop><pub>The Pharmaceutical Society of Japan</pub><pmid>16819213</pmid><doi>10.1248/cpb.54.968</doi><tpages>4</tpages><oa>free_for_read</oa></addata></record>
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subjects	Antidepressive Agents, Second-Generation - analysis Bromcresol Purple - chemistry Bromthymol Blue - chemistry Indicators and Reagents - chemistry Molecular Structure Pharmaceutical Preparations - chemistry Solubility spectrophotometric determination Spectrophotometry - methods Trazodone - analysis Trazodone - chemistry trazodone hydrochloride
title	Sensitive Extractive Spectrophotometric Methods for the Determination of Trazodone Hydrochloride in Pharmaceutical Formulations
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