Effect of different variables in the solubility of ampicillin and corresponding solid phase

Effect of different variables in the solubility of ampicillin and corresponding solid phase

Ampicillin belongs to the class of beta-lactam antibiotics, which corresponds the most prescribed antibiotics in medicine. This justifies the importance of elucidating the effect of several variables for the synthesis process (pH, temperature, co-solvent) on the behavior of the compounds involved in...

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Bibliographic Details
Published in:Fluid phase equilibria Vol. 459; pp. 18 - 29
Main Authors: Bezerra, I.M., Moreira, L.C., Chiavone-Filho, O., Mattedi, S.
Format: Journal Article
Language:English
Published: Elsevier B.V 15-03-2018
Subjects:
Dissociation constant
Ethanol
Solid composition
Solid-liquid equilibrium
β-Lactam antibiotic
Dissociation constant
Solid composition
Solid-liquid equilibrium
Ethanol
β-Lactam antibiotic
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Summary:Ampicillin belongs to the class of beta-lactam antibiotics, which corresponds the most prescribed antibiotics in medicine. This justifies the importance of elucidating the effect of several variables for the synthesis process (pH, temperature, co-solvent) on the behavior of the compounds involved in the enzymatic reaction. This paper aims to present new ampicillin solubility data in aqueous medium and the characterization of the solid phase of the antibiotic. In the phase equilibrium experiments it was considered the effect of pH (3 up to 7.5), temperature (283.15 K up to 298.15 K) and the ethanol concentration in the aqueous solution (varying between 0 and 70 wt% ethanol). The solubility curves deviate from U-shape solubility curves with respect to pH in the range of 0–70 wt%. This is due to ampicillin anhydrous becomes trihydrated molecule in the solid phase at alkaline pH region, changing the antibiotic properties significantly. This change in crystalline structure was confirmed by characterization of antibiotic solid phase carried out from thermogravimetric (TGA), Fourier Transform Infrared (FTIR) spectroscopy, Scanning Electron Microscopy (SEM) and X-ray Diffraction (XRD) analyses. Dissociation constants have also been measured at the studied values of temperature and ethanol composition, using potentiometric titration. Finally, a thermodynamic model considering the ideal solution was applied to describe mathematically the solubility curves measured close to experimental uncertainties. •Effect of pH, temperature and ethanol composition on ampicillin solubility.•Dissociation constants data by potentiometria for ampicillin in water and ethanol.•Changes in the solid phase composition of ampicillin modify solubility profile.•Ideal solution approach describes ampicillin solubilities with pH and composition.
ISSN:0378-3812
1879-0224
DOI:10.1016/j.fluid.2017.11.033