How to cite this paper
Siadati, S., Amin, M., Meghdad, M & Beheshti, A. (2021). Development and validation of a short runtime method for separation of trace amounts of 4-aminophenol, phenol, 3-nitrosalicylic acid and mesalamine by using HPLC system.Current Chemistry Letters, 10(3), 151-160.
Refrences
1 Bento-Silva A., Koistinen V. M., Mena P., Bronze M. R., Hanhineva K., Sahlstrom S., Aura A. M. (2019) Factors affecting intake, metabolism and health benefits of phenolic acids: do we understand individual variability?. Eur. J. Nutr. 59 (4) 1275-1293.
2 Wang L., Asimakopoulos A. G., Kannan K. (2015) Accumulation of 19 environmental phenolic and xenobiotic heterocyclic aromatic compounds in human adipose tissue, Environ. Int., 78, 45-50.
3 Zhang V., Xiaoqiu Y. U., Zhang Y., Cui X., Wang C. (2016) Determination of Aniline, 2-Aminophenol and 4-Aminophenol in Mesalazine Sustained Release Granules by Gas Chromatography, Herald Med., 2, 185-188.
4 Song D. M., Yang Y. H. (2007) Determination of related substances in mesalazine by HPLC-electrochemical detection, Chin. J. Pharm., 38, 442.
5 Payab M., Beheshti A., Siadati S. A. (2020) Development of a reversed-phase HPLC method for determination of related impurities of Lenalidomide, Chem. Rev. Lett., 3 (2) 61-64.
6 UNITED States Pharmacopeia 24. ed. Rockville, United States Pharmacopeial Convention, (2000). [CD-ROOM].
7 United States Pharmacopoeia Convention, The United States Pharmacopoeia 36th ed. (USP 36). 2014, Rockville, Maryland, USA: United States Pharmacopeial Convention, Incorporated.
8 a) Grondal Ch., Jeanty M., Enders D. (2010) Organocatalytic cascade reactions as a new tool in total synthesis, Nature chem., 2 (3) 167-178; b) Jasiński, R., Dresler, E. (2020) On the Question of Zwitterionic Intermediates in the [3+ 2] Cycloaddition Reactions: A Critical Review. Organics, 1(1) 49-69; c) Siadati, S. A. (2015) An example of a stepwise mechanism for the catalyst-free 1, 3-dipolar cycloaddition between a nitrile oxide and an electron rich alkene. Tetrahedron let., 56 (34) 4857-4863; d) Siadati, S. A. (2016) Beyond the alternatives that switch the mechanism of the 1, 3-dipolar cycloadditions from concerted to stepwise or vice versa: a literature review. Prog. React. Kinet. Mech., 41 (4) 331-344.
9 a) Bakherad M., Keivanloo A., Siavashi M., Omidian M. (2014) Three-component synthesis of imidazo [1, 2-c] pyrimidines using silica sulfuric acid (SSA), Chin. Chem. Lett., 25 (1) 149-151; b) Rostami-Charati F., Hossaini Z., Sheikholeslami-Farahani F., Azizi Z., Siadati, A. S. (2015) Synthesis of 9H-furo [2, 3-f] Chromene Derivatives by Promoting ZnO Nanoparticles. Comb. chem. high throughput screen., 18 (9) 872-880; c) Siadati, S. A. (2016) The Effect of Position Replacement of Functional Groups on the Stepwise character of 1, 3‐Dipolar Reaction of a Nitrile Oxide and an Alkene. Helv. Chim. Acta, 99 (4) 273-280.
10 a) Bakherad M., Keivanloo A., Omidian M., Samangooei S. (2014) Synthesis of pyrrolo [2, 3-b] pyrazines through Sonogashira coupling reaction of 5, 6-dichloropyrazine-2, 3-dicarbonitrile with hydrazine, phenylacetylene and various aldehydes, J Chem. Res., 38 (12) 762-764; b) Hossaini Z., Rostami-Charati F., Ghambarian M., Siadati S. A. (2015) Synthesis of a new class of phosphonate derivatives using a three component reaction of trialkyl phosphites or triaryl phosphites in water. Phosphorus Sulfur Silicon Relat. Elem., 190 (7) 1177-1182.
11 D'Hondt M., Gevaert B., Stalmans S., Van Dorpe S., Wynendaele E., Peremans K., De Spiegeleer B. (2013) Reversed-phase fused-core HPLC modeling of peptides. J. pharm. anal., 3 (2) 93-101.
12 Schellinger A. P., Carr P. W. (2006) Isocratic and gradient elution chromatography: A comparison in terms of speed, retention reproducibility and quantization, J Chromatogr. A 1109 (2) 253-266.
13 Snyder L. R., Dolan J. W. (1996) Initial experiments in high-performance liquid chromatographic method development I. Use of a starting gradient run, J. Chromatogr. A, 721 (1) 3-14.
14 Hou J. J., Wu W. Y., Da J., Yao S., Long H. L., Yang Z., Guo D. A. (2011) Ruggedness and robustness of conversion factors in method of simultaneous determination of multi-components with single reference standard. J. Chromatogr., 1218 (33) 5618-5627.
15 Armbruster D. A., Tillman M. D., Hubbs L. M. (1994) Limit of detection (LQD)/limit of quantitation (LOQ): comparison of the empirical and the statistical methods exemplified with GC-MS assays of abused drugs. Clinical chem., 40 1233-1238.
16 Ermer J., Arth C., De Raeve P., Dill D., Friedel H. D., Höwer-Fritzen H., Maegerlein M. (2005) Precision from drug stability studies: Investigation of reliable repeatability and intermediate precision of HPLC assay procedures. J. Pharm. Biomed. Anal. 38 (4) 653-663.
2 Wang L., Asimakopoulos A. G., Kannan K. (2015) Accumulation of 19 environmental phenolic and xenobiotic heterocyclic aromatic compounds in human adipose tissue, Environ. Int., 78, 45-50.
3 Zhang V., Xiaoqiu Y. U., Zhang Y., Cui X., Wang C. (2016) Determination of Aniline, 2-Aminophenol and 4-Aminophenol in Mesalazine Sustained Release Granules by Gas Chromatography, Herald Med., 2, 185-188.
4 Song D. M., Yang Y. H. (2007) Determination of related substances in mesalazine by HPLC-electrochemical detection, Chin. J. Pharm., 38, 442.
5 Payab M., Beheshti A., Siadati S. A. (2020) Development of a reversed-phase HPLC method for determination of related impurities of Lenalidomide, Chem. Rev. Lett., 3 (2) 61-64.
6 UNITED States Pharmacopeia 24. ed. Rockville, United States Pharmacopeial Convention, (2000). [CD-ROOM].
7 United States Pharmacopoeia Convention, The United States Pharmacopoeia 36th ed. (USP 36). 2014, Rockville, Maryland, USA: United States Pharmacopeial Convention, Incorporated.
8 a) Grondal Ch., Jeanty M., Enders D. (2010) Organocatalytic cascade reactions as a new tool in total synthesis, Nature chem., 2 (3) 167-178; b) Jasiński, R., Dresler, E. (2020) On the Question of Zwitterionic Intermediates in the [3+ 2] Cycloaddition Reactions: A Critical Review. Organics, 1(1) 49-69; c) Siadati, S. A. (2015) An example of a stepwise mechanism for the catalyst-free 1, 3-dipolar cycloaddition between a nitrile oxide and an electron rich alkene. Tetrahedron let., 56 (34) 4857-4863; d) Siadati, S. A. (2016) Beyond the alternatives that switch the mechanism of the 1, 3-dipolar cycloadditions from concerted to stepwise or vice versa: a literature review. Prog. React. Kinet. Mech., 41 (4) 331-344.
9 a) Bakherad M., Keivanloo A., Siavashi M., Omidian M. (2014) Three-component synthesis of imidazo [1, 2-c] pyrimidines using silica sulfuric acid (SSA), Chin. Chem. Lett., 25 (1) 149-151; b) Rostami-Charati F., Hossaini Z., Sheikholeslami-Farahani F., Azizi Z., Siadati, A. S. (2015) Synthesis of 9H-furo [2, 3-f] Chromene Derivatives by Promoting ZnO Nanoparticles. Comb. chem. high throughput screen., 18 (9) 872-880; c) Siadati, S. A. (2016) The Effect of Position Replacement of Functional Groups on the Stepwise character of 1, 3‐Dipolar Reaction of a Nitrile Oxide and an Alkene. Helv. Chim. Acta, 99 (4) 273-280.
10 a) Bakherad M., Keivanloo A., Omidian M., Samangooei S. (2014) Synthesis of pyrrolo [2, 3-b] pyrazines through Sonogashira coupling reaction of 5, 6-dichloropyrazine-2, 3-dicarbonitrile with hydrazine, phenylacetylene and various aldehydes, J Chem. Res., 38 (12) 762-764; b) Hossaini Z., Rostami-Charati F., Ghambarian M., Siadati S. A. (2015) Synthesis of a new class of phosphonate derivatives using a three component reaction of trialkyl phosphites or triaryl phosphites in water. Phosphorus Sulfur Silicon Relat. Elem., 190 (7) 1177-1182.
11 D'Hondt M., Gevaert B., Stalmans S., Van Dorpe S., Wynendaele E., Peremans K., De Spiegeleer B. (2013) Reversed-phase fused-core HPLC modeling of peptides. J. pharm. anal., 3 (2) 93-101.
12 Schellinger A. P., Carr P. W. (2006) Isocratic and gradient elution chromatography: A comparison in terms of speed, retention reproducibility and quantization, J Chromatogr. A 1109 (2) 253-266.
13 Snyder L. R., Dolan J. W. (1996) Initial experiments in high-performance liquid chromatographic method development I. Use of a starting gradient run, J. Chromatogr. A, 721 (1) 3-14.
14 Hou J. J., Wu W. Y., Da J., Yao S., Long H. L., Yang Z., Guo D. A. (2011) Ruggedness and robustness of conversion factors in method of simultaneous determination of multi-components with single reference standard. J. Chromatogr., 1218 (33) 5618-5627.
15 Armbruster D. A., Tillman M. D., Hubbs L. M. (1994) Limit of detection (LQD)/limit of quantitation (LOQ): comparison of the empirical and the statistical methods exemplified with GC-MS assays of abused drugs. Clinical chem., 40 1233-1238.
16 Ermer J., Arth C., De Raeve P., Dill D., Friedel H. D., Höwer-Fritzen H., Maegerlein M. (2005) Precision from drug stability studies: Investigation of reliable repeatability and intermediate precision of HPLC assay procedures. J. Pharm. Biomed. Anal. 38 (4) 653-663.