An investigation into the thermal behaviour of an amorphous drug using lowfrequency dielectric spectroscopy and modulated temperature differential scanning calorimetry

The objective of the study was to investigate the use of low frequency diel ectric spectroscopy as a means of characterizing the thermal transitions of an amorphous drug substance, indometacin, with particular emphasis on mode lling the response using the Dissado-Hill function. The low frequency dielectric behaviour of indometacin was measured over a t emperature range of 10-160 degreesC and a frequency range of 10(-3)-10(6) H z. Modulated temperature differential scanning calorimetry (MTDSC) studies were also performed on equivalent samples, showing a glass transition, recr ystallization and melting. Isothermal low frequency dielectric spectra of t he sample at temperatures below recrystallization showed the dynamic dielec tric relaxation associated with the amorphous phase, while changes in the r eal and imaginary permittivities were observed that were associated with re crystallization and subsequent melting. A small discontinuity was observed immediately above the recrystallization process in the MTDSC and dielectric data, suggested to correspond to a solid state transformation. The use of the Dissado-Hill function as a means of modelling the dielectric behaviour has also been described. The study suggests that low frequency dielectric spectroscopy, used in conj unction with MTDSC and Dissado-Hill modelling, may he a useful tool for the characterization of amorphous and crystalline drugs.