27Al NMR Study of the pH Dependent Hydrolysis Products of Al2(SO4)3 in Different Physiological Media

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RESEARCH PRODUCT

27Al NMR Study of the pH Dependent Hydrolysis Products of Al2(SO4)3 in Different Physiological Media

Jürgen Nolde Wolfgang Tremel Timucin Yüksel Mihail Mondeshki Svend Berger

subject

0301 basic medicine Aluminium chloride Inorganic chemistry Pharmaceutical Science chemistry.chemical_element Nuclear Overhauser effect Aluminium sulfate 010402 general chemistry 01 natural sciences Article Analytical Chemistry lcsh:QD241-441 03 medical and health sciences chemistry.chemical_compound Hydrolysis lcsh:Organic chemistry Aluminium Drug Discovery medicine Physical and Theoretical Chemistry chemistry.chemical_classification Organic Chemistry NMR 0104 chemical sciences 030104 developmental biology hydrolysis chemistry Heteronuclear molecule Chemistry (miscellaneous)REACH Molecular Medicine Counterion aluminium sulfate; hydrolysis; NMR; REACH aluminium sulfate Two-dimensional nuclear magnetic resonance spectroscopy medicine.drug

description

Soluble inorganic aluminium compounds like aluminium sulfate or aluminium chloride have been challenged by the European Chemical Agency to induce germ cell mutagenicity. Before conducting mutagenicity tests, the hydrolysis products in water and in physiological solutions should be determined as a function of the concentration and pH. We used different 27Al NMR spectroscopic techniques (heteronuclear Overhauser effect spectroscopy (HOESY), exchange spectroscopy (EXSY), diffusion ordered (DOSY)) in this work to gain the information to study the aluminium species in solutions with Al2(SO4)3 concentrations of 50.0, 5.0, and 0.5 g/L and their pH and time dependent transformation. At low pH, three different species were present in all physiological solutions and water: [Al(OH)n(H2O)6 − n](3 − n)+ (n = 0–2), [Al(H2O)5SO4]+, and [Al2(OH)2(H2O)8]4+. Increasing pH reduced the amounts of the two monomer species, with a complete loss at pH 5 for solutions with a concentration of 50.0 g/L and at pH 4 for solutions with a concentration of 5.0 g/L. The dimer species [Al2(OH)2(H2O)8]4+ is present in a pH range between 3 and 6. Less symmetric oligomeric and probably asymmetric aluminium species are formed at pH of 5 and 6. The pH value is the driving force for the formation of aluminium species in all media, whereas the specific medium had only minor effect. No conclusive information could be obtained at pH 7 due to signal loss related to fast quadrupole relaxation of asymmetric aluminium species. A slight reduction of the content of the symmetric aluminium species due to the formation of oligomeric species was observed over a period of 6 weeks. Reference 27Al NMR experiments conducted on saturated water solutions of AlCl3 and those with a concentration of 50 g/L show that the type of salt/counter ion at the same concentration and pH influences the hydrolysis products formed.

year	journal	country	edition	language
2018-04-01	Molecules; Volume 23; Issue 4; Pages: 808

10.3390/molecules23040808 https://dx.doi.org/10.3390/molecules23040808