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Physics and Chemistry of Liquids
An International Journal
Volume 58, 2020 - Issue 3
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Articles

Solubility of sulphadiazine in (acetonitrile + water) mixtures: measurement, correlation, thermodynamics and preferential solvation

Daniel Ricardo DelgadoFacultad de Ingeniería, Programa de Ingeniería Industrial, Grupo de Investigaciones GRIAUCC, Universidad Cooperativa de Colombia, Sede Neiva, Neiva-Huila, ColombiaORCID Iconhttps://orcid.org/0000-0002-4835-9739View further author information
ORCID Icon,
Diego Iván Caviedes-RubioFacultad de Ingeniería, Programa de Ingeniería Industrial, Grupo de Investigaciones GRIAUCC, Universidad Cooperativa de Colombia, Sede Neiva, Neiva-Huila, ColombiaView further author information
,
Claudia Patricia OrtizFundación Escuela Tecnológica de Neiva, Grupo de Investigaciones en Seguridad y Salud en el Trabajo (FET), Neiva-Rivera, ColombiaORCID Iconhttps://orcid.org/0000-0002-7977-701XView further author information
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Yarly Lizeth Parra-PavaPrograma de Odontología, Universidad Antonio Nariño, Sede Buganviles, Neiva, ColombiaView further author information
,
María Ángeles PeñaFacultad de Farmacia, Departamento de Ciencias Biomédicas, Universidad de Alcalá, Madrid, SpainORCID Iconhttps://orcid.org/0000-0002-0908-8286View further author information
ORCID Icon,
Abolghasem JouybanPharmaceutical Analysis Research Center and Faculty of Pharmacy, Tabriz University of Medical Sciences, Tabriz, Iran;Kimia Idea Pardaz Azarbayjan (KIPA) Science Based Company, Tabriz University of Medical Sciences, Tabriz, IranORCID Iconhttps://orcid.org/0000-0002-4670-2783View further author information
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Seyyedeh Narjes MirheydariDrug Applied Research Center, Tabriz University of Medical Sciences, Tabriz, IranView further author information
,
Fleming MartínezSede Bogotá, Facultad de Ciencias, Departamento de Farmacia, Grupo de Investigaciones Farmacéutico-Fisicoquímicas, Universidad Nacional de Colombia, Bogotá D.C., ColombiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-4008-7273View further author information
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William E. Acree JrDepartment of Chemistry, University of North Texas, Denton, TX, USAORCID Iconhttps://orcid.org/0000-0002-1177-7419View further author information
ORCID Icon show all
Pages 381-396 | Received 09 Jan 2019, Accepted 10 Mar 2019, Published online: 19 Mar 2019

References

  • Marcus Y. Preferential solvation of drugs in binary solvent mixtures. Pharm Anal Acta. 2017;8:1000537.
  • Marcus Y. On the preferential solvation of drugs and PAHs in binary solvent mixtures. J Mol Liq. 2008;140:61–67.
  • Jouyban A. Handbook of solubility data for pharmaceuticals. Boca Raton, FL: CRC Press; 2010.
  • Martinez F, Jouyban A, Acree WE Jr. Pharmaceuticals solubility is still nowadays widely studied everywhere (Editorial). Pharm Sci (Tabriz). 2017;23:1–2.
  • Avdeef A. Absorption and drug development, solubility, permeability and charge state. Hoboken, NJ: Wiley-Interscience; 2003.
  • Marcus Y. Solvent mixtures: properties and selective solvation. New York: Marcel Dekker, Inc.; 2002.
  • Marcus Y. Preferential solvation of drugs in binary solvent mixtures. Pharm Anal Acta. 2017;8:1000537.
  • Budavari S, O’Neil MJ, Smith A, et al. The Merck index, an encyclopedia of chemicals, drugs, and biologicals. 13th ed. Whitehouse Station (NJ): Merck & Co., Inc.; 2001.
  • Gelone S, O’Donell JA. Anti-infectives. In: editor, Gennaro AR. Remington: the science and practice of pharmacy. 21st ed. Philadelphia: Lippincott Williams & Wilkins; 2005;1630–1633.
  • Martínez F, Gómez A. Thermodynamic study of the solubility of some sulfonamides in octanol, water, and the mutually saturated solvents. J Solution Chem. 2001;30:909–923.
  • Bustamante P, Escalera B, Martin A, et al. A modification of the extended Hildebrand approach to predict the solubility of structurally related drugs in solvent mixtures. J Pharm Pharmacol. 1993;45:253–257.
  • Reillo A, Escalera B, Selles E. Prediction of sulfanilamide solubility in dioxane–water mixtures. Pharmazie. 1993;48:904–907.
  • Reillo A, Bustamante P, Escalera B, et al. Solubility parameter-based methods for predicting the solubility of sulfapyridine in solvent mixtures. Drug Dev Ind Pharm. 1995;21:2073–2084.
  • Reillo A, Cordoba M, Escalera B, et al. Prediction of sulfamethizole solubility in dioxane–water mixtures. Pharmazie. 1995;50:472–475.
  • Delgado DR, Romdhani A, Martínez F. Thermodynamics of sulfanilamide solubility in propylene glycol + water mixtures. Lat Am J Pharm. 2011;30:2024–2030.
  • Delgado DR, Romdhani A, Martínez F. Solubility of sulfamethizole in some propylene glycol+ water mixtures at several temperatures. Fluid Phase Equilib. 2012;322:113–119.
  • Delgado DR, Rodríguez GA, Martínez F. Thermodynamic study of the solubility of sulfapyridine in some ethanol + water mixtures. J Mol Liq. 2013;177:156–161.
  • Delgado DR, Martínez F. Solution thermodynamics of sulfadiazine in ethanol + water mixtures. J Mol Liq. 2013;187:99–105.
  • Delgado DR, Martínez F. Solubility and solution thermodynamics of sulfamerazine and sulfamethazine in some ethanol + water mixtures. Fluid Phase Equilib. 2013;360:88–96.
  • Delgado DR, Martínez F. Solubility and preferential solvation of sulfadiazine in methanol + water mixtures at several temperatures. Fluid Phase Equilib. 2014;379:128–138.
  • Delgado DR, Martínez F. Solubility and solution thermodynamics of some sulfonamides in 1-propanol + water mixtures. J Solution Chem. 2014;43:836–852.
  • Jiménez DM, Cárdenas ZJ, Delgado DR, et al. Solubility temperature dependence and preferential solvation of sulfadiazine in 1,4-dioxane + water co-solvent mixtures. Fluid Phase Equilib. 2015;397:26–36.
  • Muñoz MM, Delgado DR, Peña MA, et al. Solubility and preferential solvation of sulfadiazine, sulfamerazine and sulfamethazine in propylene glycol + water mixtures at 298.15 K. J Mol Liq. 2015;204:132–136.
  • Delgado DR, Martínez F. Solution thermodynamics and preferential solvation of sulfamerazine in some methanol + water mixtures. J Solution Chem. 2015;44:360–377.
  • Jiménez DM, Cárdenas ZJ, Martínez F. Solubility and solution thermodynamics of sulfadiazine in polyethylene glycol 400 + water mixtures. J Mol Liq. 2016;216:239–245.
  • Delgado DR, Almanza OA, Martínez F, et al. Solution thermodynamics and preferential solvation of sulfamethazine in (methanol + water) mixtures. J Chem Thermodyn. 2016;97:264–276.
  • Cárdenas ZJ, Jiménez DM, Almanza OA, et al. Solubility and preferential solvation of sulfanilamide, sulfamethizole and sulfapyridine in methanol + water mixtures at 298.15 K. J Solution Chem. 2016;45:1479–1503.
  • Cox BG, Natarajan R, Waghorne WE. Thermodynamic properties for transfer of electrolytes from water to acetonitrile and to acetonitrile + water mixtures. J Chem Soc Faraday Trans 1. 1979;75:86–95.
  • Barbosa J, Barrón D, Bergés R, et al. Preferential solvation in acetonitrile–water mixtures: relationship between solvatochromic parameters and pK values of carboxylic acids. J Chem Soc Faraday Trans. 1997;93:1915–1920.
  • Gekko K, Ohmae E, Kameyama K, et al. Acetonitrile-protein interactions: amino acid solubility and preferential solvation. Biochim Biophys Acta. 1998;1387:195–205.
  • Shin DN, Wijnen JW, Engberts JBFN, et al. On the origin of microheterogeneity: mass spectrometric studies of acetonitrile-water and dimethyl sulfoxide-water binary mixtures (Part 2). J Phys Chem B. 2002;106:6014–6020.
  • Wang G, Wang Y, Ma Y, et al. Determination and correlation of cefuroxime acid solubility in (acetonitrile + water) mixtures. J Chem Thermodyn. 2014;77:144–150.
  • Polatoğlu İ, Yürekli Y, Baştürk SB. Estimating solubility of parathion in organic solvents. AKU J Sci Eng. 2015;15(037101):1–5.
  • Yang Y, Yang P, Du S, et al. Solubility determination and thermodynamic modelling of allisartan isoproxil in different binary solvent mixtures from T = (278.15 to 313.15) K and mixing properties of solutions. J Chem Thermodyn. 2016;103:432–445.
  • Dali I, Aydi A, Alberto CC, et al. Correlation and semi-empirical modeling of solubility of gallic acid in different pure solvents and in binary solvent mixtures of propan-1-ol + water, propan-2-ol + water and acetonitrile + water from (293.2 to 318.2) K. J Mol Liq. 2016;222:503–519.
  • Li X, Cong Y, Li W, et al. Thermodynamic modelling of solubility and preferential solvation for ribavirin (II) in co-solvent mixtures of (methanol, n-propanol, acetonitrile or 1,4-dioxane) + water. J Chem Thermodyn. 2017;115:74–83.
  • Marcus Y. The properties of solvents. Chichester: John Wiley & Sons; 1998.
  • Marcus Y. The structure of and interactions in binary acetonitrile + water mixtures. J Phys Org Chem. 2012;25:1072–1085.
  • Delgado DR, Martínez F. Preferential solvation of sulfadiazine, sulfamerazine and sulfamethazine in ethanol + water solvent mixtures according to the IKBI method. J Mol Liq. 2014;193:152–159.
  • Delgado DR, Martínez F. Preferential solvation of some structurally related sulfonamides in 1-propanol + water co-solvent mixtures. Phys Chem Liq. 2015;53:293–306.
  • Delgado DR, Peña MA, Martínez F, et al. Further numerical analyses on the solubility of sulfapyridine in ethanol + water mixtures. Pharm Sci (Tabriz). 2016;22:143–152.
  • Cárdenas ZJ, Jiménez DM, Delgado DR, et al. Extended Hildebrand solubility approach applied to some sulphonamides in propylene glycol + water mixtures. Phys Chem Liq. 2015;53:763–775.
  • Delgado DR, Peña MA, Martínez F. Extended Hildebrand solubility approach applied to some structurally related sulfonamides in ethanol + water mixtures. Rev Colomb Quím. 2016;45:34–43.
  • Delgado DR, Peña MA, Martínez F. Extended Hildebrand solubility approach applied to some sulphapyrimidines in some {methanol (1) + water (2)} mixtures. Phys Chem Liq. 2018;56:176–188.
  • Delgado DR, Peña MA, Martínez F. Extended Hildebrand solubility approach applied to sulphadiazine, sulphamerazine and sulphamethazine in some {1-propanol (1) + water (2)} mixtures at 298.15 K. Phys Chem Liq. 2019;57:388-400.
  • Martin A, Bustamante P, Chun AHC. Physical chemical principles in the pharmaceutical sciences. 4th ed. Philadelphia, PA: Lea & Febiger; 1993.
  • Barton AFM. Handbook of solubility parameters and other cohesion parameters. 2nd ed. New York: CRC Press; 1991.
  • Connors KA. Thermodynamics of pharmaceutical systems: an introduction for students of pharmacy. Hoboken, NJ: Wiley-Interscience; 2002.
  • Kristl A, Vesnaver G. Thermodynamic investigation of the effect of 1-octanol-water mutual miscibility on the partitioning and solubility of some guanine derivatives. J Chem Soc Faraday Trans. 1995;91:995–998.
  • Jouyban A. Review of the cosolvency models for predicting solubility of drugs in water-cosolvent mixtures. J Pharm Pharmaceut Sci. 2008;11:32–58.
  • Machatha SG, Bustamante P, Yalkowsky SH. Deviation from linearity of drug solubility in ethanol/water mixtures. Int J Pharm. 2004;283:83–88.
  • Jouyban-Gharamaleki A, Valaee L, Barzegar-Jalali M, et al. Comparison of various cosolvency models for calculating solute solubility in water-cosolvent mixtures. Int J Pharm. 1999;177:93–101.
  • Jouyban-Gharamaleki A. The modified Wilson model and predicting drug solubility in water-cosolvent mixtures. Chem Pharm Bull (Tokyo). 1998;46:1058–1061.
  • Jouyban-Gharamaleki A, Acree WE Jr. Comparison of models for describing multiple peaks in solubility profiles. Int J Pharm. 1998;167:177–182.
  • Jouyban A, Khoubnasabjafari M, Chan HK, et al. Mathematical representation of solubility of amino acids in binary aqueous-organic solvent mixtures at various temperatures using the Jouyban-Acree model. Pharmazie. 2006;61:789–792.
  • Jouyban A, Chew NYK, Chan HK, et al. Solubility predicton of salicylic acid in water-ethanol-propylene glycol mixtures using the Jouyban-Acree model. Pharmazie. 2006;61:417–419.
  • Jouyban-Gharamaleki A, Dastmalchi S, Chan HK, et al. Solubility prediction for furosemide in watercosolvent mixtures using the minimum number of experiments. Drug Dev Ind Pharm. 2001;27:577–583.
  • Jouyban A, Chan HK, Chew NYK, et al. Solubility prediction of paracetamol in binary and ternary solvent mixtures using Jouyban-Acree model. Chem Pharm Bull (Tokyo). 2006;54:428–431.
  • Jouyban A, Soltanpour S, Soltani S, et al. Prediction of drug solubility in mixed solvents using computed Abraham parameters. J Mol Liq. 2009;146:82–88.
  • Krug RR, Hunter WG, Grieger RA. Enthalpy-entropy compensation. 1. Some fundamental statistical problems associated with the analysis of van’t Hoff and Arrhenius data. J Phys Chem. 1976;80:2335–2341.
  • Krug RR, Hunter WG, Grieger RA. Enthalpy-entropy compensation. 2. Separation of the chemical from the statistical effect. J Phys Chem. 1976;80:2341–2351.
  • Perlovich GL, Kurkov SV, Kinchin AN, et al. Thermodynamics of solutions III: comparison of the solvation of (+)-naproxen with other NSAIDs. Eur J Pharm Biopharm. 2004;57:411–420.
  • Romero S, Reillo A, Escalera B, et al. The behaviour of paracetamol in mixtures of aprotic and amphiprotic-aprotic solvents. Relationship of solubility curves to specific and nonspecific interactions. Chem Pharm Bull (Tokyo). 1996;44:1061–1066.
  • Mora CP, Martínez F. Thermodynamic quantities relative to solution processes of naproxen in aqueous media at pH 1.2 and7.4. Phys Chem Liq. 2006;44:585–596.
  • Bustamante P, Romero S, Peña A, et al. Nonlinear enthalpy-entropy compensation for the solubility of drugs in solvent mixtures: paracetamol, acetanilide and nalidixic acid in dioxane-water. J Pharm Sci. 1998;87:1590–1596.
  • Martínez F, Peña MA, Bustamante P. Thermodynamic analysis and enthalpy-entropy compensation for the solubility of indomethacin in aqueous and non-aqueous mixtures. Fluid Phase Equilib. 2011;308:98–106.
  • Ruidiaz MA, Delgado DR, Martínez F, et al. Solubility and preferential solvation of indomethacin in 1,4-dioxane + water solvent mixtures. Fluid Phase Equilib. 2010;299:259–265.
  • Jouyban A, Acree WE Jr, Martínez F. Modelling the solubility and preferential solvation of gallic acid in cosolvent + water mixtures. J Mol Liq. 2016;224:502–506.
  • Jiménez DM, Cárdenas ZJ, Delgado DR, et al. Solubility and solution thermodynamics of meloxicam in 1,4-dioxane and water mixtures. Ind Eng Chem Res. 2014;53:16550–16558.
  • Martínez F, Gómez A. Thermodynamics of partitioning of some sulfonamides in 1-octanol/buffer and liposome systems. J Phys Org Chem. 2002;15:874–880.

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