Stability-Indicating HPLC Method for Simultaneous Determination of Chloramphenicol, Dexamethasone Sodium Phosphate and Tetrahydrozoline Hydrochloride in Ophthalmic Solution

Hashem AlAani ¹ * , Yasmin Alnukkary ²

Cited by CrossRef: 7

1- Eltanany B, El-Hadi H, Zaazaa H, Eissa M. Spectrophotometric Methods for the Determination of Chloramphenicol, Dexamethasone Sodium Phosphate, and Tetrahydrozoline HCl in their Pure and Ophthalmic Dosage Forms. J Appl Spectrosc. 2021;88(5):1081 [Crossref]

2- Kuang K, Chen Y, Li Y, Ji Y, Jia N. N-doped TiO2/Ti3C2-driven self-photocatalytic molecularly imprinted ECL sensor for sensitive and steady detection of dexamethasone. Biosensors and Bioelectronics. 2024;247:115914 [Crossref]

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4- Da Ruos J, Baldo M, Daniele S. Analytical Methods for the Determination of Major Drugs Used for the Treatment of COVID-19. A Review. Critical Reviews in Analytical Chemistry. 2023;53(8):1698 [Crossref]

5- Eissa M, Abd El-Hadi H, Zaazaa H, Eltanany B. Smart TLC–densitometric methods for determination of ophthalmic ternary mixture containing chloramphenicol in the presence of its synthetic precursor: Comparative eco-scaling for greenness assessment. JPC-J Planar Chromat. 2020;33(5):501 [Crossref]

6- Chen F, Wang L, Guo J, Shi X, Fang B. Simultaneous Determination of Dexamethasone, Ondansetron, Granisetron, Tropisetron, and Azasetron in Infusion Samples by HPLC with DAD Detection. Journal of Analytical Methods in Chemistry. 2017;2017:1 [Crossref]

7- Miao Y, Xu J, Liu Y, Yang F, Zheng X, Xie W, Zhang Y. Comparative Evaluation of the Transdermal Permeation Effectiveness of Fu’s Cupping Therapy on Eight Different Types of Model Drugs. CDD. 2021;18(4):446 [Crossref]

8- Svalova T, Zaidullina R, Medvedeva M, Vedernikova E, Kozitsina A. Electrochemical behavior of chloramphenicol on carbon electrodes in a microelectrochemical cell. ChimTechActa. 2022;9(4) [Crossref]