How to cite this paper
Rhilassi, A & Ziatni, M. (2023). Studies of kinetic models and adsorption isotherms: application on the interaction of insulin with synthetic hydroxyapatite.Current Chemistry Letters, 12(2), 445-458.
Refrences
1 Billet K., Unlubayir M., Munsch T., Malinowska M. A., de Bernonville T. D., Marchal C., Dedet S., Oudin A., Courdavault V., Besseau S., Giglioli-Guivarc’h N., and Lanoue A. (2021) Correction to Postharvest Treatment of Wood Biomass from a Large Collection of European Grape Varieties : Impact for the Selection of Polyphenol-Rich Byproducts. ACS Sustainable Chem. Eng., 9 (9) 3509 -3517.
2 Billet K., Malinowska M. A., Munsch T., Unlubayir M., Adler S., Delanoue G., and Lanoue A. (2020) Semi-Targeted Metabolomics to Validate Biomarkers of Grape Downy Mildew Infection Under Field Conditions. Plants, 9 (8) 1008.
3 Staszewsky L., Baviera M., Tettamanti M., Colacioppo P., Robusto F., D'Ettorre A., Lepore V., Fortino I., Bisceglia L., Attolini E., Graps E. A., Caldo G., Roncaglioni M. C., Garattini S., and Latini R. (2022) Insulin treatment in patients with diabetes mellitus and heart failure in the era of new antidiabetic medications. BMJ Open Diab. Res. Care, 10 (2) e002708.
4 Abd-Ella A. A., Metwally S. A., Abd ul-Malik M. A., El-Ossaily Y. A., Abd Elrazek F. M., Aref S. A., Naffea Y. A., and Abdel-Raheem S. A. A. (2022) A review on recent advances for the synthesis of bioactive pyrazolinone and pyrazolidinedione derivatives. Curr. Chem. Lett., 11 (2) 157-172.
5 Elhady O. M., Mansour E. S., Elwassimy M. M., Zawam S. A., Drar A. M., and Abdel-Raheem S. A. A. (2022) Selective synthesis, characterization, and toxicological activity screening of some furan compounds as pesticidal agents. Curr. Chem. Lett., 11 (3) 285-290.
6 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.
7 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.
8 El Rhilassi A., and Bennani-Ziatni M. (2022) Experimental study on the interaction of insulin with apatitic calcium phosphates analogous to bone minéral : adsorption and release. Curr. Chem. Lett., 11 (4) 341–352.
9 Kandori K., Masunari A., and Ishikawa T. (2005) Study on adsorption mechanism of proteins onto synthetic calcium hydroxyapatites through ionic con- centration measurements. Calcif Tissue Int., 76, 194-206.
10 Ielo I., Calabrese G., De Luca G., and Conoci S. (2022) Recent Advances in Hydroxyapatite-Based Biocomposites for Bone Tissue Regeneration in Orthopedics. Int J Mol Sci., 23 (17) 9721.
11 Cheng L., Ye F., Yang R., Lu X., Shi Y., Li L., Fan H., and Bu H. (2010) Osteoinduction of hydroxyapatite/ β-tricalcium phosphate bioceramics in mice with a fractured fíbula. Acta Biomater., 6 (4) 1569-74.
12 Nawawi N. A., Alqap A. S. F., and Sopyan I. (2011) Recent Progress on Hydroxyapatite-Based Dense Biomaterials for Load Bearing Bone Substitutes. Recent Patents Mater. Sci., 4 (1) 63- 80.
13 Oguchi H., Ishikawa K., Mizoue K., Seto K., and Eguchi, G. (1995) Long-term histological evaluation of hydroxyapatite ceramics in humans. Biomater.16 (1) 33-38.
14 Yoon S. Y., Park Y. M., Park S. S., Stevens R., and Park H. C. (2005) Synthesis of hydroxyapatite whiskers by hydrolysis of A-tricalcium phosphate using microwave heating. Mater. Chem. Phys., 91 (1) 48- 53.
15 Ota Y., Iwashita T., Kasuga T., and Abe Y. (1998) Novel Preparation Method of Hydroxyapatite Fibers. J. Am. Ceram. Soc., 81 (6) 1665- 8.
16 Dorozhkin S. V. (2011) Calcium orthophosphates : Occurrence, properties, biomineralization, pathological calcification and biomimetic applications. Biomatter., 1 (2) 121-164.
17 Mavropoulos E., Rossi A. M., da Rocha N. C. C., Soares G. A., Moreira J.C., and Moure GT. (2003) Dissolution of calcium-deficient hydroxyapatite synthesized at different conditions. Mater Charact., 50 (2-3) 203-207.
18 Drouet C. (2013) Apatite formation : why it may not work as planned, and how to conclusively identify apatite compounds. Biomed. Res. Int., 490946, 1-12.
19 Yesilel O. Z., Olmez H., and Arici C. (2007) The first bis(orotato-N,O) cadmium complex with monodentate protonated ethylenediamine ligands: Synthesis, spectrothermal properties of a cadmium(II)-orotato complex with ethylenediamine – Crystal structure of trans-[Cd(HOr)2(enH)2]· 2H2O and cis-[Cd(H2O)2(phen)2](H2Or)2·2H2O. Polyhedron, 26, 3669-3674.
20 Dorkoosh F.A., Coos Verhoef J., Ambagts M.H.C., Rafiee-Tehrani M., Borchard G., and Junginger H.E. (2002) Peroral delivery systems based on super porous hydrogel polymers : release characteristics for the peptide drugs buserelin, octreotide and insulin. Eur. J. Pharm. Sci., 15 (5) 433- 439.
21 Rey C., Liam J., Grynpas M., Shapiro F., Zylerberg L., and Glimcher M. J. (1989) Non-apatitic environments in bone mineral, FT-IR detection, biological properties and changes in several disease states. Connect. Tissue Res., 21 (1-4) 267-273.
22 Brunauer S., Emmett P. H., and Teller E. (1938) Adsorption of Gases in Multimolecular Layers. J. Am. Chem. Soc., 60 (2) 309- 319.
23 Noh J.S., and Schwarz J.A. (1989) Estimation of the point of zero charge of simple oxides by mass titration. J. Colloid Int Sci., 130 (1) 157-164.
24 Markovic M., Fowler B.O. and Tung M.S. (2004) Preparation and Comprehensive Characterization of a Calcium Hydroxyapatite Reference Material. J. Res. Natl. Inst. Stand. Technol., 109 (6) 553- 568.
25 Von Euw S., Wang Y., Laurent G., Drouet C., Babonneau F., Nassif N., Azaïs T. (2019) Bone mineral : New insights into its chemical composition. Sci. Rep., 9 (1) 1–11.
26 Lagergren S., and Svenska K. (1898) About of the theory of so - called adsorption of soluble substances. Vetenskapsakad Handl, 24 (2) 1-39.
27 Ho Y.S., and McKay G. (1999) Pseudo-second order model for sorption processes. Process Biochem., 34 (5) 451- 465.
28 Chien S.H., and Clayton W.R. (1980) Application of Elovich Equation to the Kinetics of Phosphate Release and Sorption in Soils. Soil. Sci. Soc. Am. J., 44 (2) 265-268.
29 Weber W. J., and Morris J. C. (1963) Kinetics of adsorption on carbon from solution. J. Sanit. Eng. Div., Am. Soc. Civ. Eng., 89 (SA2) 31- 40.
30 Aharoni C., and Ungarish M., (1977) Kinetics of activated chemisorption. Part 2. Theoretical models. J. Chem. Soc. Faraday Trans., 73, 456-464.
31 Langmuir I. (1918) The adsorption of gases on plane surfaces of glass, mica and platinum. J. Am. Chem. Soc., 40 (9) 1361-1403.
32 Freundlich H. M. F. (1906) Über die adsorption in lösungen. Z. Phys. Chem., 57, 385-470.
33 Temkin M. J., and Pyzhev V. (1940) Recent modifications to Langmuir Isotherms. Acta. Physicochimie USSR., 12, 217-222.
34 Dubinin M. M., and Radushkevich L. V. (1947) Equation of the Characteristic Curve of Activated Charcoal. J. Proc. Acad. Sci. USSR, Phys. Chem., 55, 331-333.
35 Weber T. W., and Chakravorti R. K. (1974) Pore and solid diffusion models for fixed-bed adsorbers. Am. Inst. Chem. Eng. J., 20 (2) 228-238.
36 Ho Y. S. (2006) Isotherms for the sorption of lead onto peat: Comparison of linear and non-linear methods. Pol. J. Environ. Stud., 15 (1) 81–86.
37 Jiang L., Li S., Yu H., Zou Z., Hou X., and Shen F. (2016) Amino and thiol modified magnetic multi-walled carbon nanotubes for the simultaneous removal of lead, zinc, and phenol from aqueous solutions. Appl. Surf. Sci., 369, 398- 413.
38 Hall K. R., Eagleton L. C., Acrivos A., and Vermeulen T. (1966) Pore- and solid-diffusion kinetics in fixed-bed adsorption under constant-pattern conditions. Ind. Eng. Chem. Fund., 5(2) 212-223.
39 Helfferich F. (1962) Ion exchange. McGraw-Hill, New York, 335-360.