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W2994493504 endingPage "118890" @default.
W2994493504 startingPage "118890" @default.
W2994493504 abstract "One of the main tasks of modern pharmaceutics is enhancing the solubility of drugs. The approaches for solving this problem include producing active pharmaceutical ingredients in the amorphous state. However, the use of amorphous drugs requires the determination of their kinetic stability. The latter is often assessed using isothermal techniques, which are time-consuming. Alternatively, non-isothermal methods can be employed, allowing to determine the kinetic triplet more rapidly. Also, such techniques can be used to develop predictive models for storage stability. The production of the amorphous state itself typically requires fast cooling rates, which may not be easily accessible. Fast scanning calorimetry is a promising tool for the investigation of amorphous drug systems. In the present work, the crystallization of the model drug dipyridamole was investigated using the fast scanning calorimetry method. The kinetic stability of the amorphous form of the drug was evaluated using both, isothermal and non-isothermal methods. The Nakamura crystallization model was found to be applicable for the prediction of the temporal stability of the amorphous drug forms. The obtained results may find applications in the investigation of the kinetic stability of amorphous drug systems." @default.
W2994493504 created "2019-12-13" @default.
W2994493504 creator A5014371658 @default.
W2994493504 creator A5047186380 @default.
W2994493504 creator A5075966988 @default.
W2994493504 creator A5079521636 @default.
W2994493504 date "2020-01-01" @default.
W2994493504 modified "2023-10-14" @default.
W2994493504 title "Kinetic stability of amorphous dipyridamole: A fast scanning calorimetry investigation" @default.
W2994493504 cites W1964575627 @default.
W2994493504 cites W1972529661 @default.
W2994493504 cites W1974756972 @default.
W2994493504 cites W1978005636 @default.
W2994493504 cites W1982817639 @default.
W2994493504 cites W1985152170 @default.
W2994493504 cites W1992262534 @default.
W2994493504 cites W1996028649 @default.
W2994493504 cites W1996852269 @default.
W2994493504 cites W1999392761 @default.
W2994493504 cites W2001102910 @default.
W2994493504 cites W2009938495 @default.
W2994493504 cites W2012257367 @default.
W2994493504 cites W2012658698 @default.
W2994493504 cites W2018272889 @default.
W2994493504 cites W2023668329 @default.
W2994493504 cites W2024908520 @default.
W2994493504 cites W2029330907 @default.
W2994493504 cites W2032268755 @default.
W2994493504 cites W2034002625 @default.
W2994493504 cites W2039039137 @default.
W2994493504 cites W2040669360 @default.
W2994493504 cites W2045465776 @default.
W2994493504 cites W2048360669 @default.
W2994493504 cites W2051055753 @default.
W2994493504 cites W2051543739 @default.
W2994493504 cites W2052450555 @default.
W2994493504 cites W2053904490 @default.
W2994493504 cites W2054943235 @default.
W2994493504 cites W2056211275 @default.
W2994493504 cites W2056320034 @default.
W2994493504 cites W2057638048 @default.
W2994493504 cites W2062596549 @default.
W2994493504 cites W2067957528 @default.
W2994493504 cites W2069291979 @default.
W2994493504 cites W2069635118 @default.
W2994493504 cites W2075179133 @default.
W2994493504 cites W2081314052 @default.
W2994493504 cites W2081577822 @default.
W2994493504 cites W2082704083 @default.
W2994493504 cites W2082724144 @default.
W2994493504 cites W2090732497 @default.
W2994493504 cites W2093947851 @default.
W2994493504 cites W2139298980 @default.
W2994493504 cites W2156829937 @default.
W2994493504 cites W2161558954 @default.
W2994493504 cites W2161915811 @default.
W2994493504 cites W2165532680 @default.
W2994493504 cites W2171834082 @default.
W2994493504 cites W2190949340 @default.
W2994493504 cites W2213046073 @default.
W2994493504 cites W2231517688 @default.
W2994493504 cites W2319910844 @default.
W2994493504 cites W2335434301 @default.
W2994493504 cites W2336523585 @default.
W2994493504 cites W2396696350 @default.
W2994493504 cites W2520541838 @default.
W2994493504 cites W2565819592 @default.
W2994493504 cites W2619817967 @default.
W2994493504 cites W2738226569 @default.
W2994493504 cites W2747945090 @default.
W2994493504 cites W2774881044 @default.
W2994493504 cites W2788027798 @default.
W2994493504 cites W2790487288 @default.
W2994493504 cites W2803606538 @default.
W2994493504 cites W2808757367 @default.
W2994493504 cites W2887775727 @default.
W2994493504 cites W2897480625 @default.
W2994493504 cites W2902272848 @default.
W2994493504 cites W2910753352 @default.
W2994493504 cites W2914681131 @default.
W2994493504 cites W2924434663 @default.
W2994493504 cites W3101380325 @default.
W2994493504 cites W3102566053 @default.
W2994493504 cites W4243317274 @default.
W2994493504 cites W4253039236 @default.
W2994493504 cites W591009670 @default.
W2994493504 doi "https://doi.org/10.1016/j.ijpharm.2019.118890" @default.
W2994493504 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31809857" @default.
W2994493504 hasPublicationYear "2020" @default.
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