Potentiometric Flow Injection Analysis of Bromhexine Hydrochloride and its Pharmaceutical Preparation Using Conventional and Coated Wire Ion-Selective Electrodes

Abdel‐Ghani, Nour T.; Issa, Y. M.; Ahmed, Howayda M.

doi:10.3797/scipharm.2006.74.121

Cited by 14 publications

(4 citation statements)

References 17 publications

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“…Furthermore, BH-HCl is one of the mucous-modifying drugs that aid expectoration by improving the flow characteristics of bronchial mucous [3,4]. A literature review indicated the determination of bromhexine hydrochloride in dosage form, either in combined form or alone, by spectrophotometric [5][6][7][8][9][10][11], potentiometric [12], voltammetric [13], colorimetric [14], chemiluminescence [15,16], TLC [17], HPLC [18][19][20][21][22][23][24][25], RRLC-MS/MS [26], and HPTLC-HPLC [27]. This study presents a new method to determine BH-HCl in pharmaceutical formulations using tetraphenylborate as a precipitating reagent to form a yellowish-white precipitate with the use of a homemade instrument.…”

Section: Introductionmentioning

confidence: 99%

CFIA-ISNAG fluorimeter for the Determination of Bromhexine-HCl in Drugs via the Measurement Scattered Light at ± 90˚

Al-Saadi,

Al-Awadie

2023

Iraqi Journal of Science

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A precise, simple, and accurate continuous flow injection technique was used for the instantaneous estimation of bromhexine hydrochloride (BH-HCl) in tablet dosage form. The chemical and physical parameters of the reaction of BH-HCl with tetraphenylborate to produce a yellowish-white precipitate were determined using an ISNAG fluorimeter analyzer and diverging light at 90°. The calibration curve for BH-HCl was linear with correlation coefficients of 0.9994 and linearity percentage r2% = 99.87 over a concentration range of 0.01-20 mmol/L, L.O.D = 0.3610 µg/125µL (0.007 mmol/L), and RSD% less than 0.3% for 3 and 13 mmol/L (five replicates). This approach was efficiently used to estimate the levels of BH-HCl in two distinct pharmaceutical companies. When the newly developed method was compared with the turbidimetric method using a t-test and standard addition, it was discovered that there had not been any significant difference between the two approaches at the 95% level of confidence.

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Section: Introductionmentioning

confidence: 99%

CFIA-ISNAG fluorimeter for the Determination of Bromhexine-HCl in Drugs via the Measurement Scattered Light at ± 90˚

Al-Saadi,

Al-Awadie

2023

Iraqi Journal of Science

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“…Assisting vasomotor secretion generates a vasomotor secretory effect [5]. Several analytical techniques were used to estimate bromohexine HCl in medicinal formulations such as Potentiometric Flow Injection [6], HPLC-ICP-MS [7], HPLC [8], Thin Layer Chromatography (TLC) [9], Spectrophotometric Quantitative [10], and UV-Vis Spectrophotometer [11][12] [13]. The dispersive liquid liquid microextraction (DLLME) and cloud point extraction have many advantages in the determination of pharmaceutical preparation like rapid, safety and low cost [14].In this work, the proposed technique is based ion-pair reaction of bromohexine HCl with alizarin yellow reagent in the acidic medium, then evaluation and pre-concentration…”

Section: Introductionmentioning

confidence: 99%

New microextraction methods for the evaluation of bromhexine HCl in pure and pharmacological formulations.

2021

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In this study, ion-pair reactions were used to investigate bromohexine HCl. The development of simple, accurate, sensitive, low-cost, and efficient extraction methods for bromohexine HCl separation, such as the DLLME and cloud point extraction techniques, are described as bromohexine HCl estimation methodologies. These methods employed the interaction of bromohexine HCl with alizarin yellow reagent to produce a yellow complex in an acidic medium (pH = 5). The complex's maximum absorbance intensity was 480 nm, and the stoichiometry for both continuous variation and molar ratio methods was determined to be 1:1. The dispersive liquid liquid microextraction (DLLME) method's concentration range (1-23µg.mL -1 ), the Beers law was obeyed with correlation coefficient (R 2 =0.998), limit of detection as (0.055µg.mL -1 ), limit of quantification as (0.183µg.mL -1 ) and molar absorptivity as (23930.2L.mol -1 .cm -1 ).In the second technique, the cloud pointextraction method, The linearity of calibration curve above was the range between (1-40 µg.mL -1 ), the correlation coefficient (R 2 =0.998) and molar absorptivity was (13202.88L.mol -1 .cm -1 ), (LOD) and (LOQ) were (0.141µg.mL -1 ) and (1.4641µg.mL -1 ), respectively. The proposed techniques can be used for the determination of bromohexine HCl in both pure and pharmaceutical formulations with very good success.

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“…Because of its physiological importance, the drug has been quantified by exploiting its chemical 5,6 and physical properties [7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25] . The different analytical methods used to quantify the drug as a single active pharmaceutical ingredient include flow injection analysis with ion RESEARCH ARTICLE selective electrodes 7 , inductively coupled plasma mass spectrometry 8 , electrokinetic chromatography 9 , electrochemical oxidation at the glassy carbon electrode 10 , liquidchromatography 11 , liquid gas chromatography 12 , GC with mass detection 13 and voltammetry 14 .…”

Section: Introductionmentioning

confidence: 99%

Spectrophotometric Quantitative Determination of Bromhexine Hydrochloride in Bulk and Pharmaceutical Dosage Form using PDEAB Reagent

2016

Chem Sci Trans

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An efficient, sensitive spectrophotometric method has been developed and validated for the determination of bromhexine hydrochloride (BRH), in bulk drug and its pharmaceutical formulations. The method is based on the formation of Schiff Base with paradiethylamminobenzaldehyde (PDEAB) the reaction of drug with reagent gives a bright yellow colour. The so formed coloured species absorbance was measured at its absorption maximum (λ max) 425 nm. The Beer's law has been obeyed in the concentration range 2-20 µg/mL. The optical parameters were calculated as 2.42918x10 4 L/mol/cm, 0.016985 µg/cm 2 , molar absorptivity and Sandell's sensitivity respectively. The LOD and LOQ of the proposed method were calculated 0.2011 µg/mL, 0.6696 µg/mL respectively. All the variables were studied to optimize the reaction conditions. No interference was observed in the presence of common pharmaceutical excipients. The validity of the method was tested by analyzing BRH in its pharmaceutical formulations and critically tested for its accuracy by statistical tests. Good recoveries were obtained by the developed method; the obtained results were critically analyzed and successfully employed for the determination of BRH in its pharmaceutical dosage forms.

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Potentiometric Flow Injection Analysis of Bromhexine Hydrochloride and its Pharmaceutical Preparation Using Conventional and Coated Wire Ion-Selective Electrodes

Cited by 14 publications

References 17 publications

CFIA-ISNAG fluorimeter for the Determination of Bromhexine-HCl in Drugs via the Measurement Scattered Light at ± 90˚

CFIA-ISNAG fluorimeter for the Determination of Bromhexine-HCl in Drugs via the Measurement Scattered Light at ± 90˚

New microextraction methods for the evaluation of bromhexine HCl in pure and pharmacological formulations.

Spectrophotometric Quantitative Determination of Bromhexine Hydrochloride in Bulk and Pharmaceutical Dosage Form using PDEAB Reagent

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