Improvement of dissolution rate of indomethacin by inkjet printing.

Henrika Wickström; Mirja Palo; Karen Rijckaert; Ruzica Kolakovic; Johan O Nyman; Anni Määttänen; Petri Ihalainen; Jouko Peltonen; Natalja Genina; Thomas de Beer; Korbinian Löbmann; Thomas Rades; Niklas Sandler

doi:10.1016/j.ejps.2015.03.009

Improvement of dissolution rate of indomethacin by inkjet printing.

Henrika Wickström, Mirja Palo, Karen Rijckaert, Ruzica Kolakovic, Johan O Nyman, Anni Määttänen, Petri Ihalainen, Jouko Peltonen, Natalja Genina, Thomas de Beer, Korbinian Löbmann, Thomas Rades, Niklas Sandler

45 Citations (Scopus)

Abstract

The aim of this study was to prepare printable inks of the poorly water soluble drug indomethacin (IMC), fabricate printed systems with flexible doses and investigate the effect of ink excipients on the printability, dissolution rate and the solid state properties of the drug. A piezoelectric inkjet printer was used to print 1×1cm² squares onto a paper substrate and an impermeable transparency film. l-arginine (ARG) and polyvinylpyrrolidone (PVP) were used as additional formulation excipients. Accurately dosed samples were generated as a result of the ink and droplet formation optimization. Increased dissolution rate was obtained for all formulations. The formulation with IMC and ARG printed on transparency film resulted in a co-amorphous system. The solid state characteristics of the printed drug on porous paper substrates were not possible to determine due to strong interference from the spectra of the carrier substrate. Yet, the samples retained their yellow color after 6months of storage at room temperature and after drying at elevated temperature in a vacuum oven. This suggests that the samples remained either in a dissolved or an amorphous form. Based on the results from this study a formulation guidance for inkjet printing of poorly soluble drugs is also proposed.

Original language	English
Journal	European Journal of Pharmaceutical Sciences
Volume	75
Pages (from-to)	91–100
Number of pages	10
ISSN	0928-0987
DOIs	https://doi.org/10.1016/j.ejps.2015.03.009
Publication status	Published - 30 Jul 2015

Keywords

Co-amorphous system
Indomethacin
Ink formulation
Inkjet printing
Personalized medicine

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10.1016/j.ejps.2015.03.009

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title = "Improvement of dissolution rate of indomethacin by inkjet printing.",

abstract = "The aim of this study was to prepare printable inks of the poorly water soluble drug indomethacin (IMC), fabricate printed systems with flexible doses and investigate the effect of ink excipients on the printability, dissolution rate and the solid state properties of the drug. A piezoelectric inkjet printer was used to print 1×1cm2 squares onto a paper substrate and an impermeable transparency film. l-arginine (ARG) and polyvinylpyrrolidone (PVP) were used as additional formulation excipients. Accurately dosed samples were generated as a result of the ink and droplet formation optimization. Increased dissolution rate was obtained for all formulations. The formulation with IMC and ARG printed on transparency film resulted in a co-amorphous system. The solid state characteristics of the printed drug on porous paper substrates were not possible to determine due to strong interference from the spectra of the carrier substrate. Yet, the samples retained their yellow color after 6months of storage at room temperature and after drying at elevated temperature in a vacuum oven. This suggests that the samples remained either in a dissolved or an amorphous form. Based on the results from this study a formulation guidance for inkjet printing of poorly soluble drugs is also proposed.",

keywords = "Co-amorphous system, Indomethacin, Ink formulation, Inkjet printing, Personalized medicine",

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T1 - Improvement of dissolution rate of indomethacin by inkjet printing.

AU - Wickström, Henrika

AU - Palo, Mirja

AU - Rijckaert, Karen

AU - Kolakovic, Ruzica

AU - Nyman, Johan O

AU - Määttänen, Anni

AU - Ihalainen, Petri

AU - Peltonen, Jouko

AU - Genina, Natalja

AU - de Beer, Thomas

AU - Löbmann, Korbinian

AU - Rades, Thomas

AU - Sandler, Niklas

PY - 2015/7/30

Y1 - 2015/7/30

N2 - The aim of this study was to prepare printable inks of the poorly water soluble drug indomethacin (IMC), fabricate printed systems with flexible doses and investigate the effect of ink excipients on the printability, dissolution rate and the solid state properties of the drug. A piezoelectric inkjet printer was used to print 1×1cm2 squares onto a paper substrate and an impermeable transparency film. l-arginine (ARG) and polyvinylpyrrolidone (PVP) were used as additional formulation excipients. Accurately dosed samples were generated as a result of the ink and droplet formation optimization. Increased dissolution rate was obtained for all formulations. The formulation with IMC and ARG printed on transparency film resulted in a co-amorphous system. The solid state characteristics of the printed drug on porous paper substrates were not possible to determine due to strong interference from the spectra of the carrier substrate. Yet, the samples retained their yellow color after 6months of storage at room temperature and after drying at elevated temperature in a vacuum oven. This suggests that the samples remained either in a dissolved or an amorphous form. Based on the results from this study a formulation guidance for inkjet printing of poorly soluble drugs is also proposed.

AB - The aim of this study was to prepare printable inks of the poorly water soluble drug indomethacin (IMC), fabricate printed systems with flexible doses and investigate the effect of ink excipients on the printability, dissolution rate and the solid state properties of the drug. A piezoelectric inkjet printer was used to print 1×1cm2 squares onto a paper substrate and an impermeable transparency film. l-arginine (ARG) and polyvinylpyrrolidone (PVP) were used as additional formulation excipients. Accurately dosed samples were generated as a result of the ink and droplet formation optimization. Increased dissolution rate was obtained for all formulations. The formulation with IMC and ARG printed on transparency film resulted in a co-amorphous system. The solid state characteristics of the printed drug on porous paper substrates were not possible to determine due to strong interference from the spectra of the carrier substrate. Yet, the samples retained their yellow color after 6months of storage at room temperature and after drying at elevated temperature in a vacuum oven. This suggests that the samples remained either in a dissolved or an amorphous form. Based on the results from this study a formulation guidance for inkjet printing of poorly soluble drugs is also proposed.

KW - Co-amorphous system

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KW - Ink formulation

KW - Inkjet printing

KW - Personalized medicine

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DO - 10.1016/j.ejps.2015.03.009

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JO - Norvegica Pharmaceutica Acta

JF - Norvegica Pharmaceutica Acta

ER -

Improvement of dissolution rate of indomethacin by inkjet printing.

Abstract

Keywords

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