Spectroscopic and thermal approaches to investigate the formation mechanism of piroxicam–saccharin co-crystal induced by liquid-assisted grinding or thermal stress

The use of co-crystal technology applied to pharmaceutical industry has recently attracted considerable interest. It is important to better understand the mechanism of co-crystal formation via specific intermolecular interactions. The objective of the present study was to evaluate a stepwise mechani...

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Published in	Journal of thermal analysis and calorimetry Vol. 123; no. 3; pp. 2345 - 2356
Main Authors	Lin, Hong-Liang, Huang, Yu-Ting, Lin, Shan-Yang
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.03.2016 Springer
Subjects	Analytical Chemistry Chemistry Chemistry and Materials Science Formations Grounds Heat treatment Hydrogen Hydrogen bonding Inorganic Chemistry Investigations Lubrication Measurement Science and Instrumentation Physical Chemistry Piroxicam Polymer Sciences Spectroscopy Thermal analysis Thermal stresses Thermal stress Co-crystal formation Piroxicam Saccharin DSC-FTIR Liquid-assisted grinding
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Abstract	The use of co-crystal technology applied to pharmaceutical industry has recently attracted considerable interest. It is important to better understand the mechanism of co-crystal formation via specific intermolecular interactions. The objective of the present study was to evaluate a stepwise mechanism of a co-crystal formation between piroxicam (PIR) and saccharin (SAC) after different grinding and thermal treatments by using spectroscopic and thermal analyses. The physical and ground mixtures of PIR–SAC (molar ratio = 1:1) and their preheated mixtures were analyzed using FTIR, DSC and DSC-FTIR techniques. Typical PIR–SAC co-crystal was prepared by solvent evaporation method. Various PIR–SAC ground mixtures after neat grinding process showed the same FTIR spectra as their physical mixtures, but these ground mixtures might be changed to co-crystals after further thermal treatment. By adding two drops of chloroform into PIR–SAC physical mixture, however, the PIR–SAC co-crystal was gradually formed with the increase in grinding time (>57 min) via inter-/intramolecular N–H···O and C–H···O hydrogen bonding between PIR and SAC. By preheating the PIR–SAC physical mixture over 170 °C, it was also gradually transformed into a co-crystal with temperature. The PIR–SAC co-crystal formation might be possibly attributed to a mobile phase formed between PIR and SAC, leading to a co-crystal formation. This mobile phase could be formed by either solution through a lubricating liquid added during grinding process or eutectic melt via thermal stress. A simultaneous DSC-FTIR technique also directly evidenced the PIR–SAC co-crystal formation via a one-step process. The present study concludes that the chloroform-assisted grinding process or thermal stress easily enhanced a PIR–SAC co-crystal formation via gradual induction of inter-/intramolecular hydrogen bonding between PIR and SAC.
AbstractList	The use of co-crystal technology applied to pharmaceutical industry has recently attracted considerable interest. It is important to better understand the mechanism of co-crystal formation via specific intermolecular interactions. The objective of the present study was to evaluate a stepwise mechanism of a co-crystal formation between piroxicam (PIR) and saccharin (SAC) after different grinding and thermal treatments by using spectroscopic and thermal analyses. The physical and ground mixtures of PIR–SAC (molar ratio = 1:1) and their preheated mixtures were analyzed using FTIR, DSC and DSC-FTIR techniques. Typical PIR–SAC co-crystal was prepared by solvent evaporation method. Various PIR–SAC ground mixtures after neat grinding process showed the same FTIR spectra as their physical mixtures, but these ground mixtures might be changed to co-crystals after further thermal treatment. By adding two drops of chloroform into PIR–SAC physical mixture, however, the PIR–SAC co-crystal was gradually formed with the increase in grinding time (>57 min) via inter-/intramolecular N–H···O and C–H···O hydrogen bonding between PIR and SAC. By preheating the PIR–SAC physical mixture over 170 °C, it was also gradually transformed into a co-crystal with temperature. The PIR–SAC co-crystal formation might be possibly attributed to a mobile phase formed between PIR and SAC, leading to a co-crystal formation. This mobile phase could be formed by either solution through a lubricating liquid added during grinding process or eutectic melt via thermal stress. A simultaneous DSC-FTIR technique also directly evidenced the PIR–SAC co-crystal formation via a one-step process. The present study concludes that the chloroform-assisted grinding process or thermal stress easily enhanced a PIR–SAC co-crystal formation via gradual induction of inter-/intramolecular hydrogen bonding between PIR and SAC. The use of co-crystal technology applied to pharmaceutical industry has recently attracted considerable interest. It is important to better understand the mechanism of co-crystal formation via specific intermolecular interactions. The objective of the present study was to evaluate a stepwise mechanism of a co-crystal formation between piroxicam (PIR) and saccharin (SAC) after different grinding and thermal treatments by using spectroscopic and thermal analyses. The physical and ground mixtures of PIR-SAC (molar ratio = 1:1) and their preheated mixtures were analyzed using FTIR, DSC and DSC-FTIR techniques. Typical PIR-SAC co-crystal was prepared by solvent evaporation method. Various PIR-SAC ground mixtures after neat grinding process showed the same FTIR spectra as their physical mixtures, but these ground mixtures might be changed to co-crystals after further thermal treatment. By adding two drops of chloroform into PIR-SAC physical mixture, however, the PIR-SAC co-crystal was gradually formed with the increase in grinding time (>57 min) via inter-/intramolecular N-H···O and C-H···O hydrogen bonding between PIR and SAC. By preheating the PIR-SAC physical mixture over 170 °C, it was also gradually transformed into a co-crystal with temperature. The PIR-SAC co-crystal formation might be possibly attributed to a mobile phase formed between PIR and SAC, leading to a co-crystal formation. This mobile phase could be formed by either solution through a lubricating liquid added during grinding process or eutectic melt via thermal stress. A simultaneous DSC-FTIR technique also directly evidenced the PIR-SAC co-crystal formation via a one-step process. The present study concludes that the chloroform-assisted grinding process or thermal stress easily enhanced a PIR-SAC co-crystal formation via gradual induction of inter-/intramolecular hydrogen bonding between PIR and SAC. The use of co-crystal technology applied to pharmaceutical industry has recently attracted considerable interest. It is important to better understand the mechanism of co-crystal formation via specific intermolecular interactions. The objective of the present study was to evaluate a stepwise mechanism of a co-crystal formation between piroxicam (PIR) and saccharin (SAC) after different grinding and thermal treatments by using spectroscopic and thermal analyses. The physical and ground mixtures of PIR-SAC (molar ratio = 1:1) and their preheated mixtures were analyzed using FTIR, DSC and DSC-FTIR techniques. Typical PIR-SAC co-crystal was prepared by solvent evaporation method. Various PIR-SAC ground mixtures after neat grinding process showed the same FTIR spectra as their physical mixtures, but these ground mixtures might be changed to co-crystals after further thermal treatment. By adding two drops of chloroform into PIR-SAC physical mixture, however, the PIR-SAC co-crystal was gradually formed with the increase in grinding time (>57 min) via inter-/intramolecular N-H...O and C-H...O hydrogen bonding between PIR and SAC. By preheating the PIR-SAC physical mixture over 170 degree C, it was also gradually transformed into a co-crystal with temperature. The PIR-SAC co-crystal formation might be possibly attributed to a mobile phase formed between PIR and SAC, leading to a co-crystal formation. This mobile phase could be formed by either solution through a lubricating liquid added during grinding process or eutectic melt via thermal stress. A simultaneous DSC-FTIR technique also directly evidenced the PIR-SAC co-crystal formation via a one-step process. The present study concludes that the chloroform-assisted grinding process or thermal stress easily enhanced a PIR-SAC co-crystal formation via gradual induction of inter-/intramolecular hydrogen bonding between PIR and SAC.
Audience	Academic
Author	Lin, Shan-Yang Huang, Yu-Ting Lin, Hong-Liang
Author_xml	– sequence: 1 givenname: Hong-Liang surname: Lin fullname: Lin, Hong-Liang email: hllin@mail.ypu.edu.tw organization: Department of Biotechnology and Pharmaceutical Technology, Yuanpei University of Medical Technology – sequence: 2 givenname: Yu-Ting surname: Huang fullname: Huang, Yu-Ting organization: Department of Biotechnology and Pharmaceutical Technology, Yuanpei University of Medical Technology – sequence: 3 givenname: Shan-Yang surname: Lin fullname: Lin, Shan-Yang email: sylin@mail.ypu.edu.tw organization: Department of Biotechnology and Pharmaceutical Technology, Yuanpei University of Medical Technology
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Keywords	Thermal stress Co-crystal formation Piroxicam Saccharin DSC-FTIR Liquid-assisted grinding
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Snippet	The use of co-crystal technology applied to pharmaceutical industry has recently attracted considerable interest. It is important to better understand the...
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SubjectTerms	Analytical Chemistry Chemistry Chemistry and Materials Science Formations Grounds Heat treatment Hydrogen Hydrogen bonding Inorganic Chemistry Investigations Lubrication Measurement Science and Instrumentation Physical Chemistry Piroxicam Polymer Sciences Spectroscopy Thermal analysis Thermal stresses
Title	Spectroscopic and thermal approaches to investigate the formation mechanism of piroxicam–saccharin co-crystal induced by liquid-assisted grinding or thermal stress
URI	https://link.springer.com/article/10.1007/s10973-015-5058-2 https://search.proquest.com/docview/1808077633
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