The use of inverse gas chromatography and gravimetric vapour sorption to study transitions in amorphous lactose

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The use of inverse gas chromatography and gravimetric vapour sorption to study transitions in amorphous lactose
April 27, 2005
Ameet V. Ambarkhane, a, Kim Pincott b, and Graham Buckton a
aDepartment of Pharmaceutics, School of Pharmacy, University of London, 29/39 Brunswick Square, London WC1N 1AX, UK
bWW Physical Properties, Glaxo SmithKline, Tonbridge, UK
International Journal of Pharmaceutics Volume 294, Issues 1-2 , 27 April 2005, Pages 129-135
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Abstract
The aim of this study was to measure the glass transition of amorphous lactose under well-controlled temperature and humidity, using inverse gas chromatography (IGC) and to relate these data to gravimetric vapour sorption experiments. Amorphous lactose (spray-dried) was exposed to a stepwise increment in the relative humidity (%RH) under isothermal conditions in an IGC. At the end of each conditioning step a decane injection was made, and the retention volumes were calculated using the maximum peak height (Vmax) method. The pressure drop across the column was recorded using the pressure transducers. These measurements were performed at various temperatures from 25 to 40 ?C. The extent of water sorption at identical humidity (%RH) and temperature conditions was determined gravimetrically using dynamic vapour sorption (DVS). At each T, it was possible to determine: (1) a transition at low RH relating to the onset of mobility; (2) changes in retention volume relating to the point, where Tg = T; (3) changes in pressure drop, which were related to the sample collapse. The rate and extent of water sorption was seen to alter at Tg and also at a collapse point. Combinations of temperature and critical %RH (%cRH required to lower the dry glass transition temperature to the experimental temperature) obtained from IGC were comparable to those obtained from DVS. It was shown that at each T, the sample spontaneously crystallised, when Tg was 32 ?C below T. Inverse gas chromatograph can be used in this novel way to reveal the series of transitions that occur in amorphous materials.