Application of the enzymatic method for the quantitative  determination of dequalinium chloride in lozenges

Blazheyevskіy, Mykola; Koval’ska, Olena V.

doi:10.24959/ophcj.22.252499

Cited by 2 publications

(2 citation statements)

References 2 publications

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“…Previously, a new enzymatic kinetic-spectrophotometric method for determining the quaternary ammonium salts was developed in our laboratory. This allows to use the ability of salts to inhibit the catalytic activity of cholinesterase [15]. The degree of inhibition was determined using two conjugated reactions of the acetylcholine perhydrolysis followed by the oxidation of p-phenetidine with the peroxyacetic acid formed.…”

Section: ■ Introductionmentioning

confidence: 99%

The Quantitative Determination of Etonium by the Enzymatic Kinetic-Spectrophotometric Method

Blazheyevskiy,

Kovalska

2024

J. Org. Pharm. Chem.

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The use of the cholinesterase enzyme as a component of the analytical system has made it possible to develop a new kinetic-spectrophotometric method, which is alternative to the pharmacopoeial method, for determining the quaternary ammonium salt – ethonium in the substance and a dosage form. This method is characterized by high sensitivity and specificity, and is relatively cheap. The relative standard deviation of the procedure does not exceed 2.7 %, and the limit of quantification is 17 ng mL–1.

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Section: ■ Introductionmentioning

confidence: 99%

The Quantitative Determination of Etonium by the Enzymatic Kinetic-Spectrophotometric Method

Blazheyevskiy,

Kovalska

2024

J. Org. Pharm. Chem.

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“…The quantification of BA + has been achieved using a variety of methods such as high-performance liquid chromatography (HPLC), gas chromatography (GC), ion-chromatography, mass spectroscopy (MS) and capillary electrophoresis (CE). [19][20][21][22][23] Although these techniques proved to be sufficiently sensitive and accurate for the determination of BA + , expensive and bulky equipment, lengthy analysis times, and sample pretreatment prohibit rapid BA + detection. A less common approach for BA + detection is through electrochemistry, which is an ideal technique to obtain rapid and reliable on-site measurements.…”

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confidence: 99%

Potentiometric Analysis of Benzalkonium Chloride with 3D Printed Ion-Selective Membranes

Glasco

Bell

2022

ECS Sens. Plus

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Benzalkonium (BA+) chloride is one of the most common preservatives used in prescription-based and over-the-counter eye drops. Knowing the concentration of BA+ in eye drops is important for quality control (at the pharmaceutical preparation stage) and human health (ocular toxicity has been linked to BA+ use). This paper describes the design and fabrication of a benzalkonium-selective potentiometric sensor for the determination of BA+ in ophthalmic solutions. The sensor is composed of a 3D-printed ion-selective membrane (ISM) that selectively measures BA+ in the presence of potentially interfering ions routinely found in ophthalmic formulations (i.e., Mg2+, Ca2+, Na+, and K+). The 3D printed BA+-ion-selective electrodes (ISEs) produced a Nernstian response of 55 mV/Decade across a range of 1.0 mM to 31.0 µM BA+ along with an LOD of 8 µM, which covers the relevant concentration range found in ophthalmic solutions. The 3D printed BA+-ISEs proved to be highly stable with an average drift of 205 µV/hr. Successful measurement of BA+ in diluted ophthalmic solutions was completed from 100 to 500 µM. The mass production capability afforded by 3D-printing offers a unique and intriguing fabrication protocol for developing low-cost sensors which could be incorporated quickly and seamlessly by pharmaceutical companies or community-based pharmacies.

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Application of the enzymatic method for the quantitative determination of dequalinium chloride in lozenges

Cited by 2 publications

References 2 publications

The Quantitative Determination of Etonium by the Enzymatic Kinetic-Spectrophotometric Method

The Quantitative Determination of Etonium by the Enzymatic Kinetic-Spectrophotometric Method

Potentiometric Analysis of Benzalkonium Chloride with 3D Printed Ion-Selective Membranes

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