How to cite this paper
Sebaiy, M., El-Adl, S., Elbaramawi, S., Abdel-Raheem, S & Nafie, A. (2024). Developing a highly validated and sensitive HPLC method for simultaneous estimation of cefotaxime and paracetamol in pure and pharmaceutical preparations.Current Chemistry Letters, 13(2), 435-444.
Refrences
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(2) Al-Hakkani M. F. (2020) HPLC analytical method validation for determination of cefotaxime in the bulk and finished pharmaceutical dosage form. Sustain. Chem. Eng., 33-42.
(3) Sharaf Y. A., Ibrahim A. E., El Deeb S., and Sayed R. A. (2023) Green Chemometric Determination of Cefotaxime Sodium in the Presence of Its Degradation Impurities Using Different Multivariate Data Processing Tools; GAPI and AGREE Greenness Evaluation. Molecules, 28 (5) 2187.
(4) Consortti L. P., and Salgado H. R. N. (2017) A critical review of analytical methods for quantification of Cefotaxime. Crit. Rev. Anal. Chem., 47 (4) 359-371.
(5) Saleh G. A., Badr I. H., El-Deen D. A. N., and Derayea S. M. (2019) Novel Potentiometric Sensor for the Selective Determination of Cefotaxime Sodium and Its Application to Pharmaceutical Analysis. IEEE Sens. J., 20 (7) 3415-3422.
(6) Yue X., Xu X., Liu C., and Zhao S. (2022) Simultaneous determination of cefotaxime and nimesulide using poly (L-cysteine) and graphene composite modified glassy carbon electrode. Microchem. J., 174 107058.
(7) Shahrokhian S., and Rastgar S. (2012) Construction of an electrochemical sensor based on the electrodeposition of Au–Pt nanoparticles mixtures on multi-walled carbon nanotubes film for voltammetric determination of cefotaxime. Analyst, 137 (11) 2706-2715.
(8) Bushra M. U., Akter N., Hassan M. R., Islam A., and Hossain M. R. (2014) Development and validation of a simple UV spectrophotometric method for the determination of cefotaxime sodium in bulk and pharmaceutical formulation. IOSR J. Pharm., 4 74-77.
(9) Kzar T. T., Rasheed A. S., and Hassan M. J. (2021) Development of a validated hydrophilic interaction chromatography method for the determination of cefotaxime in pharmaceutical preparations. Egypt. J. Chem., 64 (6) 2967-2972.
(10) Ellis F. (2002) Paracetamol: A curriculum resource, Ed, Royal Society of Chemistry.
(11) Eliasen A., Otnes S., Matz M., Aunsholt L., and Mathiasen R. (2022) Safety of rapid intravenous paracetamol infusion in paediatric patients. Curr. Res. Pharmacol. Drug Discov., 3 100077.
(12) World Health Organization. (2019) World Health Organization model list of essential medicines: 21st list 2019 (No. WHO/MVP/EMP/IAU/2019.06). World Health Organization.
(13) René K. (2022) Neonatal Tetanus in Bria Regional Hospital. Cases Reports. EC Clinical and Medical Case Reports, 5 (8) 47-50.
(14) Jayavel M., and Venkatesan B. (2018) Tetralogy of fallot Undergone Total Cardiac Correction (Tran's ra Dacron Patch VSD Closure+ Infunndibular Resection of Pulmonary Stenosis): A Case Report. International Journal of Advances in Nursing Management (IJANM), 6 (1) 26-30.
(15) Thiam L., Manga N. M., Aidara C. M., Fall A. L., Diagne I., and Ndiaye O. (2020) COVID-19 Infection and Homozygous SS Sickle Cell Disease in Children: About Two Cases in Ziguinchor/Senegal. Open J. Pediatr., 10 (04) 744.
(16) Llorent-Martínez E. J., Šatínský D., Solich P., Ortega-Barrales P., and Molina-Díaz A. (2007) Fluorimetric SIA optosensing in pharmaceutical analysis: determination of paracetamol. J. Pharm. Biomed. Anal., 45 (2) 318-321.
(17) Vilchez J., Blanc R., Avidad R., and Navalón A. (1995) Spectrofluorimetric determination of paracetamol in pharmaceuticals and biological fluids. J. Pharm. Biomed. Anal., 13 (9) 1119-1125.
(18) Sebaiy M. M., Sobhy M., and Mattar A. A. (2020) Different techniques for overlapped UV spectra resolution of some co-administered drugs with paracetamol in their combined pharmaceutical dosage forms. Spectrochim. Acta - A: Mol. Biomol. Spectrosc., 224 117429.
(19) Goyal R. N., Gupta V. K., Oyama M., and Bachheti N. (2005) Differential pulse voltammetric determination of paracetamol at nanogold modified indium tin oxide electrode. Electrochem. commun., 7 (8) 803-807.
(20) Suntornsuk L., Pipitharome O., and Wilairat P. (2003) Simultaneous determination of paracetamol and chlorpheniramine maleate by micellar electrokinetic chromatography. J. Pharm. Biomed. Anal., 33 (3) 441-449.
(21) Belal T., Awad T., and Clark R. (2009) Determination of paracetamol and tramadol hydrochloride in pharmaceutical mixture using HPLC and GC-MS. J. Chromatogr. Sci., 47 (10) 849-854.
(22) Altun M. L. (2002) HPLC method for the analysis of paracetamol, caffeine and dipyrone. Turk. J. Chem., 26 (4) 521-528.
(23) Gamal O. E., Jamal M., Jawed A., Jiyauddin K., and Vijay R. (2021) Development and Validation of RP-HPLC Method for Simultaneous Estimation of Cefotaxime Sodium and Paracetamol in Synthetic Mixture. Nat. Volatiles Essent. Oils, 8 (4) 10744-10756.
(24) Saranya C. L., Thejaswini J. C., Gurupadayya B. M., and Sruthi B. Y. K. (2014) Simultaneous determination of cefotaxime sodium and paracetamol by LC-MS. IOSR J. Pharm., 4 12-18.
(25) Lalitha N., and Pai P. S. (2009) Development and validation of RP-HPLC method for estimation of Cefotaxime sodium in marketed formulations. Journal of basic and clinical pharmacy (JBCP), 1 (1) 26-28.
(26) Ahmad N. R., and Omar F. K. (2018) HPLC method for determination of paracetamol in pharmaceutical formulations and environmental water samples. World J. Pharma. Res., 7 (15) 1-10.
(27) Drar A. M., Abdel-Raheem Sh. A. A., Moustafa A. H., and Hussein B. R. M. (2023) Studying the toxicity and structure-activity relationships of some synthesized polyfunctionalized pyrimidine compounds as potential insecticides. Curr. Chem. Lett., 12 (3) 499-508.
(28) Abdel-Raheem Sh. A. A., Drar A. M., Hussein B. R. M., and Moustafa A. H. (2023) Some oxoimidazolidine and cyanoguanidine compounds: Toxicological efficacy and structure-activity relationships studies. Curr. Chem. Lett., 12 (4) 695–704.
(29) Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Hassanien R., El-Sayed M. E. A., and Abd-Ella A. A. (2021) Synthesis and characterization of some distyryl-derivatives for agricultural uses. Eur. Chem. Bull., 10 (1) 35-38.
(30) Kamal El-Dean A. M., Abd-Ella A. A., Hassanien R., El-Sayed M. E. A., Zaki R. M., and Abdel-Raheem Sh. A. A. (2019) Chemical design and toxicity evaluation of new pyrimidothienotetrahydroisoquinolines as potential insecticidal agents. Toxicol. Rep., 6 (2019) 100-104.
(31) Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Zaki R. M., Hassanien R., El-Sayed M. E. A., Sayed M., and Abd-Ella A. A. (2021) Synthesis and toxicological studies on distyryl-substituted heterocyclic insecticides. Eur. Chem. Bull., 10 (4) 225-229.
(32) Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Abdul-Malik M. A., Marae I. S., Bakhite E. A., Hassanien R., El-Sayed M. E. A., Zaki R. M., Tolba M. S., Sayed A. S. A., and Abd-Ella A. A. (2022) Facile synthesis and pesticidal activity of substituted heterocyclic pyridine compounds. Rev. Roum. Chem., 67 (4-5) 305-309.
(33) Ahmed A. A., Mohamed S. K., and Abdel-Raheem Sh. A. A. (2022) Assessment of the technological quality characters and chemical composition for some Egyptian Faba bean germplasm. Curr. Chem. Lett., 11 (4) 359-370.
(34) Tolba M. S., Sayed M., Kamal El-Dean A. M., Hassanien R., Abdel-Raheem Sh. A. A., and Ahmed M. (2021) Design, synthesis and antimicrobial screening of some new thienopyrimidines. Org. Commun., 14 (4) 334-345.
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(2) Al-Hakkani M. F. (2020) HPLC analytical method validation for determination of cefotaxime in the bulk and finished pharmaceutical dosage form. Sustain. Chem. Eng., 33-42.
(3) Sharaf Y. A., Ibrahim A. E., El Deeb S., and Sayed R. A. (2023) Green Chemometric Determination of Cefotaxime Sodium in the Presence of Its Degradation Impurities Using Different Multivariate Data Processing Tools; GAPI and AGREE Greenness Evaluation. Molecules, 28 (5) 2187.
(4) Consortti L. P., and Salgado H. R. N. (2017) A critical review of analytical methods for quantification of Cefotaxime. Crit. Rev. Anal. Chem., 47 (4) 359-371.
(5) Saleh G. A., Badr I. H., El-Deen D. A. N., and Derayea S. M. (2019) Novel Potentiometric Sensor for the Selective Determination of Cefotaxime Sodium and Its Application to Pharmaceutical Analysis. IEEE Sens. J., 20 (7) 3415-3422.
(6) Yue X., Xu X., Liu C., and Zhao S. (2022) Simultaneous determination of cefotaxime and nimesulide using poly (L-cysteine) and graphene composite modified glassy carbon electrode. Microchem. J., 174 107058.
(7) Shahrokhian S., and Rastgar S. (2012) Construction of an electrochemical sensor based on the electrodeposition of Au–Pt nanoparticles mixtures on multi-walled carbon nanotubes film for voltammetric determination of cefotaxime. Analyst, 137 (11) 2706-2715.
(8) Bushra M. U., Akter N., Hassan M. R., Islam A., and Hossain M. R. (2014) Development and validation of a simple UV spectrophotometric method for the determination of cefotaxime sodium in bulk and pharmaceutical formulation. IOSR J. Pharm., 4 74-77.
(9) Kzar T. T., Rasheed A. S., and Hassan M. J. (2021) Development of a validated hydrophilic interaction chromatography method for the determination of cefotaxime in pharmaceutical preparations. Egypt. J. Chem., 64 (6) 2967-2972.
(10) Ellis F. (2002) Paracetamol: A curriculum resource, Ed, Royal Society of Chemistry.
(11) Eliasen A., Otnes S., Matz M., Aunsholt L., and Mathiasen R. (2022) Safety of rapid intravenous paracetamol infusion in paediatric patients. Curr. Res. Pharmacol. Drug Discov., 3 100077.
(12) World Health Organization. (2019) World Health Organization model list of essential medicines: 21st list 2019 (No. WHO/MVP/EMP/IAU/2019.06). World Health Organization.
(13) René K. (2022) Neonatal Tetanus in Bria Regional Hospital. Cases Reports. EC Clinical and Medical Case Reports, 5 (8) 47-50.
(14) Jayavel M., and Venkatesan B. (2018) Tetralogy of fallot Undergone Total Cardiac Correction (Tran's ra Dacron Patch VSD Closure+ Infunndibular Resection of Pulmonary Stenosis): A Case Report. International Journal of Advances in Nursing Management (IJANM), 6 (1) 26-30.
(15) Thiam L., Manga N. M., Aidara C. M., Fall A. L., Diagne I., and Ndiaye O. (2020) COVID-19 Infection and Homozygous SS Sickle Cell Disease in Children: About Two Cases in Ziguinchor/Senegal. Open J. Pediatr., 10 (04) 744.
(16) Llorent-Martínez E. J., Šatínský D., Solich P., Ortega-Barrales P., and Molina-Díaz A. (2007) Fluorimetric SIA optosensing in pharmaceutical analysis: determination of paracetamol. J. Pharm. Biomed. Anal., 45 (2) 318-321.
(17) Vilchez J., Blanc R., Avidad R., and Navalón A. (1995) Spectrofluorimetric determination of paracetamol in pharmaceuticals and biological fluids. J. Pharm. Biomed. Anal., 13 (9) 1119-1125.
(18) Sebaiy M. M., Sobhy M., and Mattar A. A. (2020) Different techniques for overlapped UV spectra resolution of some co-administered drugs with paracetamol in their combined pharmaceutical dosage forms. Spectrochim. Acta - A: Mol. Biomol. Spectrosc., 224 117429.
(19) Goyal R. N., Gupta V. K., Oyama M., and Bachheti N. (2005) Differential pulse voltammetric determination of paracetamol at nanogold modified indium tin oxide electrode. Electrochem. commun., 7 (8) 803-807.
(20) Suntornsuk L., Pipitharome O., and Wilairat P. (2003) Simultaneous determination of paracetamol and chlorpheniramine maleate by micellar electrokinetic chromatography. J. Pharm. Biomed. Anal., 33 (3) 441-449.
(21) Belal T., Awad T., and Clark R. (2009) Determination of paracetamol and tramadol hydrochloride in pharmaceutical mixture using HPLC and GC-MS. J. Chromatogr. Sci., 47 (10) 849-854.
(22) Altun M. L. (2002) HPLC method for the analysis of paracetamol, caffeine and dipyrone. Turk. J. Chem., 26 (4) 521-528.
(23) Gamal O. E., Jamal M., Jawed A., Jiyauddin K., and Vijay R. (2021) Development and Validation of RP-HPLC Method for Simultaneous Estimation of Cefotaxime Sodium and Paracetamol in Synthetic Mixture. Nat. Volatiles Essent. Oils, 8 (4) 10744-10756.
(24) Saranya C. L., Thejaswini J. C., Gurupadayya B. M., and Sruthi B. Y. K. (2014) Simultaneous determination of cefotaxime sodium and paracetamol by LC-MS. IOSR J. Pharm., 4 12-18.
(25) Lalitha N., and Pai P. S. (2009) Development and validation of RP-HPLC method for estimation of Cefotaxime sodium in marketed formulations. Journal of basic and clinical pharmacy (JBCP), 1 (1) 26-28.
(26) Ahmad N. R., and Omar F. K. (2018) HPLC method for determination of paracetamol in pharmaceutical formulations and environmental water samples. World J. Pharma. Res., 7 (15) 1-10.
(27) Drar A. M., Abdel-Raheem Sh. A. A., Moustafa A. H., and Hussein B. R. M. (2023) Studying the toxicity and structure-activity relationships of some synthesized polyfunctionalized pyrimidine compounds as potential insecticides. Curr. Chem. Lett., 12 (3) 499-508.
(28) Abdel-Raheem Sh. A. A., Drar A. M., Hussein B. R. M., and Moustafa A. H. (2023) Some oxoimidazolidine and cyanoguanidine compounds: Toxicological efficacy and structure-activity relationships studies. Curr. Chem. Lett., 12 (4) 695–704.
(29) Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Hassanien R., El-Sayed M. E. A., and Abd-Ella A. A. (2021) Synthesis and characterization of some distyryl-derivatives for agricultural uses. Eur. Chem. Bull., 10 (1) 35-38.
(30) Kamal El-Dean A. M., Abd-Ella A. A., Hassanien R., El-Sayed M. E. A., Zaki R. M., and Abdel-Raheem Sh. A. A. (2019) Chemical design and toxicity evaluation of new pyrimidothienotetrahydroisoquinolines as potential insecticidal agents. Toxicol. Rep., 6 (2019) 100-104.
(31) Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Zaki R. M., Hassanien R., El-Sayed M. E. A., Sayed M., and Abd-Ella A. A. (2021) Synthesis and toxicological studies on distyryl-substituted heterocyclic insecticides. Eur. Chem. Bull., 10 (4) 225-229.
(32) Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Abdul-Malik M. A., Marae I. S., Bakhite E. A., Hassanien R., El-Sayed M. E. A., Zaki R. M., Tolba M. S., Sayed A. S. A., and Abd-Ella A. A. (2022) Facile synthesis and pesticidal activity of substituted heterocyclic pyridine compounds. Rev. Roum. Chem., 67 (4-5) 305-309.
(33) Ahmed A. A., Mohamed S. K., and Abdel-Raheem Sh. A. A. (2022) Assessment of the technological quality characters and chemical composition for some Egyptian Faba bean germplasm. Curr. Chem. Lett., 11 (4) 359-370.
(34) Tolba M. S., Sayed M., Kamal El-Dean A. M., Hassanien R., Abdel-Raheem Sh. A. A., and Ahmed M. (2021) Design, synthesis and antimicrobial screening of some new thienopyrimidines. Org. Commun., 14 (4) 334-345.
(35) Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Abdul-Malik M. A., Hassanien R., El-Sayed M. E. A., Abd-Ella A. A., Zawam S. A., and Tolba M. S. (2022) Synthesis of new distyrylpyridine analogues bearing amide substructure as effective insecticidal agents. Curr. Chem. Lett., 11 (1) 23-28.
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(37) Abdelhafeez I. A., El-Tohamy S. A., Abdul-Malik M. A., Abdel-Raheem Sh. A. A., and El-Dars F. M. S. (2022) A review on green remediation techniques for hydrocarbons and heavy metals contaminated soil. Curr. Chem. Lett., 11 (1) 43-62.
(38) Abdelhamid A. A., Elsaghier A. M. M., Aref S. A., Gad M. A., Ahmed N. A., and Abdel-Raheem Sh. A. A. (2021) Preparation and biological activity evaluation of some benzoylthiourea and benzoylurea compounds. Curr. Chem. Lett., 10 (4) 371-376.
(39) Elhady O. M., Mansour E. S., Elwassimy M. M., Zawam S. A., Drar A. M., and Abdel-Raheem Sh. A. A. (2022) Selective synthesis, characterization, and toxicological activity screening of some furan compounds as pesticidal agents. Curr. Chem. Lett., 11 (3) 285-290.
(40) Kaid M., Ali A. E., Shamsan A. Q. S., Salem W. M., Younes S. M., Abdel-Raheem Sh. A. A., and Abdul-Malik M. A. (2022) Efficiency of maturation oxidation ponds as a post-treatment technique of wastewater. Curr. Chem. Lett., 11 (4) 415-422.
(41) Mohamed S. K., Mague J. T., Akkurt M., Alfayomy A. M., Abou Seri S. M., Abdel-Raheem Sh. A. A., and Abdul-Malik M. A. (2022) Crystal structure and Hirshfeld surface analysis of ethyl (3E)-5-(4-chlorophenyl)-3-{[(4-chlorophenyl)formamido]imino}-7-methyl-2H,3H,5H-[1,3]thiazolo[3,2-a]pyrimidine-6-carboxylate. Acta Cryst., 78 (8) 846-850.
(42) El Bakri Y., Mohamed S. K., Saravanan K., Ahmad S., Mahmoud A. A., Abdel-Raheem Sh. A. A., ElSayed W. M., Mague J. T., and Said S. G. (2023) 1,4,9,9-tetramethyloctahydro-4,7-(epoxymethano)azulen-5(1H)-one, a natural product as a potential inhibitor of COVID-19: Extraction, crystal structure, and virtual screening approach. J. King Saud Univ. Sci., 35 (4) 102628.
(43) Abd-Ella A. A., Metwally S. A., Abdul-Malik M. A., El-Ossaily Y. A., AbdElrazek F. M., Aref S. A., Naffea Y. A., and Abdel-Raheem Sh. A. A. (2022) A review on recent advances for the synthesis of bioactive pyrazolinone and pyrazolidinedione derivatives. Curr. Chem. Lett., 11 (2) 157-172.
(44) Gad M. A., Aref S. A., Abdelhamid A. A., Elwassimy M. M., and Abdel-Raheem Sh. A. A. (2021) Biologically active organic compounds as insect growth regulators (IGRs): introduction, mode of action, and some synthetic methods. Curr. Chem. Lett., 10 (4) 393-412.
(45) Tolba M. S., Sayed M., Abdel-Raheem Sh. A. A., Gaber T. A., Kamal El-Dean A. M., and Ahmed M. (2021) Synthesis and spectral characterization of some new thiazolopyrimidine derivatives. Curr. Chem. Lett., 10 (4) 471-478.
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(47) Fouad M. R., Shamsan A. Q. S., and Abdel-Raheem Sh. A. A. (2023) Toxicity of atrazine and metribuzin herbicides on earthworms (Aporrectodea caliginosa) by filter paper contact and soil mixing techniques. Curr. Chem. Lett., 12 (1) 185–192.
(48) Shamsan A. Q. S., Fouad M. R., Yacoob W. A. R. M., Abdul-Malik M. A., and Abdel-Raheem Sh. A. A. (2023) Performance of a variety of treatment processes to purify wastewater in the food industry. Curr. Chem. Lett., 12 (2) 431–438.
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(52) Al-Taifi E. A., Abdel-Raheem Sh. A. A., and Bakhite E. A. (2016) Some reactions of 3-cyano-4-(p-methoxyphenyl)-5-oxo-5,6,7,8-tetrahydroquinoline-2(1H)-thione; Synthesis of new tetrahydroquinolines and tetrahydrothieno[2,3-b]quinolines. Assiut University Journal of Chemistry (AUJC), 45 (1) 24-32.
(53) Abdel-Raheem Sh. A. A., Kamal El-Dean A. M., Hassanien R., El-Sayed M. E. A., and Abd-Ella A. A. (2020) Synthesis and biological activity of 2-((3-Cyano-4,6-distyrylpyridin-2-yl)thio)acetamide and its cyclized form. Alger. j. biosciences, 01 (02) 046-050.
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