References
- Aguiar AJ, Krc J Jr, Kinkel AW, Samyn JC. Effect of polymorphism on the absorption of chloramphenicol from chloramphenicol palmitate. J Pharm Sci 1967;56:847–53.
- Lionberger RA, Lee SL, Lee L, et al. Quality by design: concepts for ANDAs. AAPS J 2008;10:268–76.
- Otsuka M, Kaneniwa N. Effect of grinding on the crystallinity and chemical stability in the solid state of cephalothin sodium. Int J Pharm 1990;62:65–73.
- Okumura T, Otsuka M. Evaluation of the microcrystallinity of a drug substance, indomethacin, in a pharmaceutical model tablet by chemometric FT-Raman spectroscopy. Pharm Res 2005;22:1350–7.
- Heinz A, Savolainen M, Rades T, Strachan CJ. Quantifying ternary mixtures of different solid-state forms of indomethacin by Raman and near-infrared spectroscopy. Eur J Pharm Sci 2007;32:182–92.
- Yoshioka M, Hancock BC, Zografi G. Crystallization of indomethacin from the amorphous state below and above its glass transition temperature. J Pharm Sci 1994;83:1700–5.
- McMahon LE, Timmins P, Williams AC, York P. Characterization of dihydrates prepared from carbamazepine polymorphs. J Pharm Sci 1996;85:1064–9.
- Grzesiak AL, Lang M, Kim K, Matzger AJ. Comparison of the four anhydrous polymorphs of carbamazepine and the crystal structure of form I. J Pharm Sci 2003;92:2260–71.
- Uchida H, Yoshinaga T, Mori H, Otsuka M. Application of a novel combination of near‐infrared spectroscopy and a humidity‐controlled 96‐well plate to the characterization of the polymorphism of imidafenacin. J Pharm Pharmacol 2010;62:1526–33.
- Uchida H, Otsuka M. Quantitative analysis of pseudopolymorphic transformation of imidafenacin by application of a novel combination of near‐infrared spectroscopy and a humidity‐controlled 96‐well plate. J Pharm Pharmacol 2011;63:911–17.
- Andrea CS. Solid-state characterization of falicaine hydrochloride and isomorphic dyclonine hydrochloride: part IV. Crystal polymorphism of local anaesthetic drugs. Eur J Pharm Sci 2005;25:407–16.
- Zhou D, Zhang GGZ, Law D, et al. Thermodynamics, molecular mobility and crystallization kinetics of amorphous griseofulvin. Mol Pharm 2008;5:927–36.
- Hédoux A, Guinet Y, Descamps M. The contribution of Raman spectroscopy to the analysis of phase transformations in pharmaceutical compounds. Int J Pharm 2011;417:17–31.
- Otsuka M, Kaneniwa N. Hygroscopicity and solubility of noncrystalline cephalexin. Chem Pharm Bull (Tokyo) 1983;31:230–6.
- Yu L. Amorphous pharmaceutical solids: preparation, characterization and stabilization. Adv Drug Deliv Rev 2001;48:27–42.
- Otsuka M, Nishizawa J, Fukura N, Sasaki T. Characterization of poly-amorphous indomethacin by terahertz spectroscopy. J Infrared Millim Terahertz Waves 2012;33:953–62.
- Shimomura O, Minomura S, Sakai N, et al. Pressure-induced semiconductor-metal transitions in amorphous Si and Ge. Philos Mag 1974;29:547–58.
- Fujii Y, Kowaka M, Onodera A. The pressure-induced metallic amorphous state of SnI4. I. A novel crystal-to-amorphous transition studied by X-ray scattering. J Phys C Solid State Phys 1985;18:789.
- Weeber AW, Bakker H. Amorphization by ball milling. A review. Phys B Condens Matter 1988;153:93–135.
- Richards TG, Johari GP. A study of amorphization of crystalline Ag0·5Cu0·5 during ball-milling. Philos Mag Part B 1988;58:445–54.
- Hemley RJ, Jephcoat AP, Mao HK, et al. Pressure-induced amorphization of crystalline silica. Nature 1988;334:52–4.
- Shen TD, Koch CC, McCormick TL, et al. The structure and property characteristics of amorphous/nanocrystalline silicon produced by ball milling. J Mater Res 1995;10:139–48.
- Gupta MK, Vanwert A, Bogner RH. Formation of physically stable amorphous drugs by milling with Neusilin. J Pharm Sci 2003;92:536–51.
- Descamps M, Willart Jf, Dudognon E, Caron V. Transformation of pharmaceutical compounds upon milling and comilling: the role of T(g). J Pharm Sci 2007;96:1398–407.
- Lefort R, De Gusseme A, Willart J-F, et al. Solid state NMR and DSC methods for quantifying the amorphous content in solid dosage forms: an application to ball-milling of trehalose. Int J Pharm 2004;280:209–19.
- Wildfong PLD, Hancock BC, Moore MD, Morris KR. Towards an understanding of the structurally based potential for mechanically activated disordering of small molecule organic crystals. J Pharm Sci 2006;95:2645–56.
- Descamps M, Aumelas A, Desprez S, Willart JF. The amorphous state of pharmaceuticals obtained or transformed by milling: sub-Tg features and rejuvenation. J Non-Cryst Solids 2015;407:72–80.
- Grant DJW, York P. Entropy of processing: a new quantity for comparing the solid state disorder of pharmaceutical materials. Int J Pharm 1986;30:161–80.
- Halasz I, Puškarić A, Kimber SAJ, et al. Real-time in situ powder X-ray diffraction monitoring of mechanochemical synthesis of pharmaceutical cocrystals. Angew Chem Int Ed Engl 2013;52:11538–41.
- Angell CA, Sare EJ. Glass‐forming composition regions and glass transition temperatures for aqueous electrolyte solutions. J Chem Phys 1970;52:1058–68.
- Mishima O, Calvert LD, Whalley E. An apparently first-order transition between two amorphous phases of ice induced by pressure. Nature 1985;314:76–8.
- Handa YP, Mishima O, Whalley E. High‐density amorphous ice. III. Thermal properties. J Chem Phys 1986;84:2766–70.
- Klug DD, Mishima O, Whalley E. High‐density amorphous ice. IV. Raman spectrum of the uncoupled O–H and O–D oscillators. J Chem Phys 1987;86:5323–8.
- Mishima O, Stanley HE. The relationship between liquid, supercooled and glassy water. Nature 1998;396:329–35.
- Koga K, Tanaka H, Zeng XC. First-order transition in confined water between high-density liquid and low-density amorphous phases. Nature 2000;408:564–7.
- Mishima O, Calvert LD, Whalley E. “Melting ice” I at 77 K and 10 kbar: a new method of making amorphous solids. Nature 1984;310:393–5.
- Loerting T, Fuentes-Landete V, Handle PH, et al. The glass transition in high-density amorphous ice. J Non Cryst Solids 2015;407:423–30.
- Grimsditch M. Polymorphism in amorphous SiO2. Phys Rev Lett 1984;52:2379–81.
- Majérus O, Cormier L, Itié J-P, et al. Pressure-induced Ge coordination change and polyamorphism in SiO2–GeO2 glasses. J Non-Cryst Solids 2004;345:34–8.
- Huang L, Duffrène L, Kieffer J. Structural transitions in silica glass: thermo-mechanical anomalies and polyamorphism. J Non-Cryst Solids 2004;349:1–9.
- Sonneville C, Deschamps T, Martinet C, et al. Polyamorphic transitions in silica glass. J Non-Cryst Solids 2013;382:133–6.
- Champagnon B, Martinet C, Coussa C, Deschamps T. Polyamorphism: path to new high density glasses at ambient conditions. J Non-Cryst Solids 2007;353:4208–11.
- Greaves GN, Wilding MC, Langstaff D, et al. Composition and polyamorphism in supercooled yttria–alumina melts. J Non-Cryst Solids 2011;357:435–41.
- Kieffer J. Structural transitions and polyamorphism in glass-forming oxides. J Non-Cryst Solids 2002;307:644–53.
- Kivelson D, Tarjus G. Apparent polyamorphism and frustration. J Non-Cryst Solids 2002;307:630–6.
- Buchner S, Pereira AS, de Lima JC, Balzaretti NM. X-ray study of lithium disilicate glass: high pressure densification and polyamorphism. J Non-Cryst Solids 2014;387:112–16.
- Hancock BC, Shalaev EY, Shamblin SL. Polyamorphism: a pharmaceutical science perspective. J Pharm Pharmacol 2002;54:1151–2.
- Burka JM, Bower KS, Vanroekel RC, et al. The effect of fourth-generation fluoroquinolones gatifloxacin and moxifloxacin on epithelial healing following photorefractive keratectomy. Am J Ophthalmol 2005;140:83–7.
- Hirotoshi M, Tsuneo T, Tetsuya S, et al. Chemical structure and physico-chemical properties of gatifloxacin hydrate. Iyakuhin Kenkyu 1998;29:885–94.
- Cazé C, Devaux E, Crespy A, Cavrot JP. A new method to determine the Avrami exponent by d.s.c. studies of non-isothermal crystallization from the molten state. Polymer 1997;38:497–502.
- Avrami M. Granulation, phase change, and microstructure kinetics of phase change. III. J Chem Phys 1941;9:177–84.
- Kissinger HE. Reaction kinetics in differential thermal analysis. Anal Chem 1957;29:1702–6.
- Akahira T, Sunose T. Method of determining activation deterioration constant of electrical insulating materials.Res Rep Chiba Inst Technol Sci Technol 1971;16:22–31.
- Taylor LS, Zografi G. Spectroscopic characterization of interactions between pvp and indomethacin in amorphous molecular dispersions. Pharm Res 1997;14:1691–8.