參考文獻 |
Summary of References
Chapter 1
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3. W. H. DeCamp, “The Impact of Polymorphism on Drug Development: A Regulator’s Viewpoint,” XVIII Congress of the International Union of Crystallography
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7. J. Berstein, R. J. Davey and Jan-Olav Henck, “Concomitant Polymorphs,” Angew.
Chem. Int. Ed. 38(23), 3440-3461 (1999).
8. W. L. McCabe, J. C. Smith, P. Harriott, “Crystallization”, Chapter 27 of Unit Operations of Chemical Engineering.” Sixth edition, Mc Graw-Hill, pp902-942,(2001)
9. S. L. Wang, S. Y. Lin, and Y. S. Wei, “Transformation of Metastable Forms of Acetaminophen Studied by Thermal Fourier Transform Infrared(FT-IR) Microspectroscopy,” Chem. Pharm. Bull., 50(2), 153-156 (2002)
10. H. A. Garekani, J. L. Ford, M. H. Rubinstein, and A. R. R. Siahboomi, “Formation and compression characteristics of prismatic polyhedral and thin plate-like crystals of paracetamol,” Int. J. Pharm., 187(1), 77-89 (1999)
11. G. Nichols and S. Frampton, “Physicochemical Characterization of the Orthorhombic Polymorph of Paracetamol Crystallized from solution,” J. Pharm. Sci., 87(6), 684-693 (1998)
12. www.accelrys.com, “C2. Polymorph”,Cerius2 Datasheet
13. M. Szelagiewicz, C. Marcolli, S. Cianferani, A. P. Hard, A. Vit, A. Burkhard, M. von Raumer, U. Ch. Hofmeier, A. Zilian, E. Francotte and R. Schenker, “In Situ Characterization of Polymorphic Forms The Potential of Raman Techniques,” J. Therm. Analy. Calor., 57(1), 23-43 (1999)
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18. R. I. Ristic, S. Finnie, D. B. Sheen, and J. n. Sherwood, “Macro- and Micromorphology of Monoclinic Paracetamol Grown from Pure Aqueous Solution,” J. Phys. Chem. B, 105(38), 9057-9066 (2001)
19. S. L. Morissette, O. Almarsson, M. L. Peteraon, J. F. Remenar, M. J. Read, A. V. Lemmon, S. Ellis, M. J. Cima, and C. R. Gardner, “High-Throughput Crystallization: Polymorphs, Salts Co-Crystals and Solvates of Pharmaceutical Solids,” Adv. Drug Del. Rev., 56(3), 275-300 (2004)
20. M. Lang, A. L. Grzesiak, and A. J. Matzgar, “The Use of Polymer Heteronuclei for Crystalline Polymorph Selection,” J. Am. Chem. Soc., 124(50), 14834-14835 (2002)
21. W. W. Wang and Y. J. Zhu, “Synthesis of PbCrO4 and Pb2CrO5 Rods via a Microwace-Assisted Ionic Liquid Methods,” Cryst. Growth Des., 5(2), 505-507 (2005)
22. J. L. Hilden, C. E. Ryeyes, M. J. Kelm, j. S. Tan, J. G. Stowell, and K. R. Morris, “Capillary Precipitation of a Highly Polymorphic Organic Compound,” Cryst. Growth Des., 3(6), 921-926 (2003)
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25. K. V. Saban, T. Jini, and G. Varghese, “Influence Of Magnetic Field on The Growth And Properties Of Calcium Tartrate Crystals,” J. Magn. Magn. Mater., 265(3), 296-304 (2003)
26. T. Graham and M. Sarikaya, “Growrh dynamics of red abalone shell: a biominetic model,” Mater. Sci. Eng., C11(2), 145-153 (2000)
Chapter 2
1. T. L. Threlfall, “Analysis of Organic Polymorphs : A Review,” The analyst, 120(10), 2435-2460 (1995)
2. D. Giron, “Thermal Analysis and Calorimetric Methods in the Characterization of Polymorphs and Solvate,” Thermochim. Acta, 248, 1-59 (1995)
3. D. Giron, “Applications of Thermal Analysis and Coupled Techniques in Pharmaceutical Industry,” J. Therm. Anal. Calorim., 68(2), 335-357 (2002)
4. C. Thompson, M. C. Davies, C. J. Roberts, S. J. B. Tendler, and M. J. Wikinson, “The Effects of Additives on the Growth and Morphology of Paracetamol (Acetaminophen) Crystals,” Int. J. Pharm., 280(1-2), 137-150 (2004)
5. S. D. Finnie, R. I. Ristic, J. N. Sherwood, and A. M. Zickic, “Morphological and Growth Rate Distributions of Small Self-Nucleated Paracetamol Crystals Grown fron Pure Aqueous Solutions,” J. Cryst. Growth, 207(4), 308-318 (1999)
6. H. Wen, T. Li, K. R. Mprris, and K. Park, “How Solvent Affect Acetaminophen Etching Pattern Formation: Interaction between Solvent and Acetaminophen at the Solid/Liguid Iterface,” J. Phys. Chem. B, 108(7), 2270-2278 (2004)
7. L. Yu, S. M. Reutzel, and G. A. Stephenson, “Physical Characterization of Polymorphic Drugs: An Integrated Characterization Strategy,” Pharm. Sci. Tech. Today, 1(3), 118-127 (1998)
8. P. J. Haines, and F. W. Wilburn, “Differential Thermal Analysis and Differential Scanning Calorimetry,” Chapter 3 of Thermal Methods of Analysis- Principles, Applications and Problems, edited by Peter J. Haines, Blackie Academic and Professional, New York, USA, pp.63- 89 (1995)
9. A. J. Pasztor, “Thermal analysis Techniques,” Chapter 50 of Handbook of Instrumental Techniques foe Analytical chemistry, edited by F. A. Settle, Prentice Hall PTR, New Jersey, USA, pp.909-917 (1997)
10. B. R. Spong, C. P. Price, A. Jayasankar, A. J. Matzger, and N. R. Horndo, “General Principles of Pharmaceutical Solid Polymorphism a Supramolecular Perspective,” Adv. Drug Del. Rev., 56(3), 241-274 (2004)
11. J. Formica, “X-Ray Diffraction,” Chapter 18 of Handbook of Instrumental Techniques foe Analytical chemistry, edited by F. A. Settle, Prentice Hall PTR, New Jersey, USA, pp.339-353 (1997)
12. W. Massa, “The Geometry of X-Ray Diffraction,” chapter 3 of Crystal Structure Determination, Springer-Verlag, Berlin, Germany, pp.13-16 (2000)
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15. H. Takahashi, R. Chen, H. Okamoto, and K. Danjo, “Acetaminophen Particle Design Using Chitosan and a Spray-Drying Technique,” Chem. Pharm. Bull., 53(1), 37-41 (2005)
16. D. L. Pavia, G. M. Lampman, and G. S. Kriz, “Infrared Spectroscopy,” Chapter 2 of Introduction to Spectroscopy: A Guide for students of Origanic Chemistry, third edition, Thomson Learning, Inc., USA, pp.45-68 (2001)
17. K. Durose, S. E. Asher, W. Jaegermann, D. Levi, B. E. McCandless, W. Metzger, H. Moutinho, P. D. Paulson, C. L. Perkins, J. R. Sites, G. Teeter, and M. Terheggen, “Physical Characterization of Thin-film Solar Cells,” Prog. Photovolt.: Res. Appl., 12(2-3), 177-217 (2004)
18. B. D. Ratner, and D. G. castner, “Electron Spectroscopy for Chemical Analysis,” Chapter 3 in Surface analysis, edited by J. C. Vickerman, John Wiley & Sons, New York, USA pp.43-45 (1997)
19. D. R. Chopra, and A. R. Chourasia, “X-ray photoelectron Spectroscopy, ” Chapter 43 of Handbook of Instrumental Techniques foe Analytical chemistry, edited by F. A. Settle, Prentice Hall PTR, New Jersey, USA, pp.809-812 (1997)
20. T. W. Adorno, “The Form of the Phonograph Record,” JSTOR Arts and Sciences October, 55, 56-61 (1990)
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23. D. L. Pavia, G. M. Lampman, and G. S. Kriz, “Ultraviolet Spectroscopy,” Chapter 7 of Introduction to Spectroscopy: A Guide for students of Origanic Chemistry, third edition, Thomson Learnin., USA, pp3535-354 (2001)
24. D. A. Skoog, F. J. Holler, and T. A. Nieman, “An Introduction to Ultraviolet/ Visible Molecular Absorption spectrometry,” Chapter 13 of Principles of Instrucmental Analysis, fifth edition, Thomson Learnin., USA, pp300-306 (2001)
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26. M. J. Ayora Cañada, M. I. P. Reguera, A. Mo. Diaz, and L. F. C.Vallvey, “Solid-phase UV spectroscopic multisensor for the simultaneous determination of caffeine, dimenhydrinate and acetaminophen by using partial least squares multicalibration,” Talanta, 49(3), 691-701 (1999)
27. T. C. Kriss, V. M. Kriss, and M.Vesna, “History of the Operating Microscope: From Magnifying Glass to Microneurosurgery,” Neurosurgery, 42(4), 899-907 (1998)
28. G. Binnig, C. F. Quate, and Ch. Gerber, “Atomic Force Microscope,” Phys. Rev. Lett., 56(9), 930-933 (1986)
29. A. D. Stefanis and A. A. G. Tomlinson, “Scanning Probe Microscopies-From Surface Structure to Nano-scale Engineering,” Trans Tech Publications LTD, New Hampshire, USA, pp.51, 44 (2001)
30. D. A. Skoog, F. J. Holler, and T. A. Nieman, “Surface Characterization by Spectroscopy and Microscopy,” Chapter 21 of Principles of Instrucmental Analysis, fifth edition, Thomson Learnin., USA, pp557-561 (2001)
31. C.B. Prater, P. G. Maivald, K.J. Kjoller, M.G. Heaton, “TappingMode Imaging
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Chapter 3
1. S. L. Morissette, O. Almarsson, M. L. Peterson, J. F. Remenar, M. J. Read, A. V. Lemmo, S. Ellis, M. J. Cima and C. R. Gardner, “High-Throughput crystallization: polymorphs, salts co-crystals and solvates of pharmaceutical solids,” Adv. Drug Del. Rev., 56(3), 275-300 (2004)
2. J. R. Fritch, O. S. Fruchey, T. Horlenko, D. A. Aguilar, C. B. Hilton, P. S. Snyder, and W.J. Seeliger, “Production of Acetaminophen,” United State Patent, NO. 5,155,273 (1992)
3. B. Tozkoparan, N. Gokhan, G. Aktay, E. Yesilada, and M. Ertan, “6-Benzylidenethiazolo[3,2-b]-1,2,4-triazole-5(6H)-ones substituted with ibuprofen: synthesis, characterization and evaluation of anti-inflammatory activity,” Eur. J. Med. Chem., 35(7-8), 743-750 (2000)
4. O. S. Fruchey, E. G. Zey, and L. O. Wheeler, “”Method for The Purification of Acetaminophen,” United State Patent, NO. US 6,277,783 B1 (2001)
5. S. Rohani, “Control of Product Quality in Batch Crystallization of Pharmaceuticals and Fine Chemicals. Part 1: Design of Crystallization Process and the Effect of Solvent,” Org. Process Res. Dev., 9(6), 858-872 (2005)
6. A. M. Railkar, and J. B. Schwartz, “Evaluation and Comprison of a Moist Granulation Technique to Conventional MMethods,” Drug Dev. Ind. Pharm., 26(8), 885-889 (2000)
7. H. Wen, K. R. Morris, K. Park, “Study on the interaction between Polyvinylpyrrolidone(PVP) and Acetaminophen Crystals: Partial Dissolution Pattern Change,” J. Pharm. Sci., 94(10), 2166-2174 (2005)
8. J. Burke, “Solubility Parameters: Theory and Application,” Appeared in the AIC Book and Paper Group Annual, 3, 13-58 (1984)
9. Q. Li, C. Zhong, Z. Zhang, and Q. Zhou, “Modeling of the Solubility of solid Solution in Supercritical CO2 with and without Cosolvent using Solution Theory,” Korean. J. Chem. Eng., 21(6), 1173-1177 (2004)
10. C. J. Price, “Take Some Solid Steps to Improve Crystallization,” Chem. Eng. Prog., 93(9), 34-43 (1997)
11. S. Pfeffer-Hennig, P. Piechon, M. Bellus, C. Goldbronn, and E. Tedesco, “Physico-Chemical Characterization of an Active Pharmaceutical Ingredient: Crystal Polyorphism and Structrual Analysis,” J. Therm. Analy. Calor., 77(2) 663-679 (2004)
12. N. Rasenaack and B. W. Muller, “Crystal habit and tableting behavior,” Int. J. Pharm., 244(1-2), 45-57 (2002)
13. F. Giordano, A. Rossi, R. Bettini, A. Savioli, A. Gazzaniga, and Cs. Novak, “Thermal Behavior of Paracetamol-Polymeric Excipients Mixtures,” J. Therm. Anal. Calorim., 68(2), 575-590 (2002)
14. H. Takahashi, R. Chen, H. Okamoto, and K. Danjo, “Acetaminophen Particle Design Using Chitosan and a Spryay-Drying Technique,” Chem. Pharm. Bull., 53(1), 37-41 (2005)
15. J. Berstein, R. J. Davey and Jan-Olav Henck, “Concomitant Polymorphs,” Angew.
Chem. Int. Ed. 38(23), 3440-3461 (1999).
16. D. J. W. Grant, chapter 1 :“Theory and Origin of polymorphism.” Table 3, “Polymorphism in Pharmaceutical Solids.” Edited by H. G. Brttain, Marcel Dekker, New Yourk, pp.7-21, pp.395-400 (1999)
17. W. H. DeCamp, “The Impact of Polymorphism on Drug Development: A Regulator’s Viewpoint,” XVIII Congress of the International Union of Crystallography
18. D. Giron, “Thermaal analysis and calorimetric methods in the characterization of polymorphs and solvates,” Thermochem. Acta, 248, 1-59 (1995)
19. T. Threfall, “Crystallization of polymorphs: Thermodynamic Insight into the Role of Solvent,” Org. Process Res. Dev., 4(5), 384-390 (2000)
20. J. W. Mullin, chapter 6.4 “Crystal habit modification.”, “Crystallization,” Paperback edition, Butterworth-Heinemann, pp93, pp248-250 (1997)
21. A. K. Tiwary, “Modification of Crystal Habit and Its Role in Dosage Form Performance,” Drug Dev. Ind. Pharm., 27(7), 699-709 (2001)
22. M. Lahav and L. Leiserowitz, “The effect of solvent on crystal growth and morphology,” Chem. Eng. Sci., 56(7), 2245-2253 (2001)
23. J. Hu, T. L. Rogers, J. Brown, T. Young, K. P. Johnston, and R. O. Williams III, “Improvement of Dissolution Rates of Poorly Water Soluble APIs Using Novel Spray Freezing into Liquid Technology,” Pharm. Res., 19(9), 1278-1284 (2002)
24. S. P. Hennig, P.Piechon, M. Bellus, C. Goldbronn, and E. Tedesco, “Physico-Chemical Characterization of an Active Pharmaceutical Ingredient Crystal Polymorphism and Structural analysis,” J. Therm. Analy. Calor., 77(2), 663-679 (2004)
25. N. Rasenack, and B. W. Muller, “Properties of Ibuprofen Crystallized Under Various Conditions: A Comparative Study,” Drug Dev. Ind. Pharm., 28(9), 1077-1089 (2002)
26. P. D. Martino, A-M. G. Hermann, P. Conflant, M. Drache, and J-C Guyot, “A new pure paracetamol for direct compression: the orthorhombic form,” Int. J. Pharm., 128(1), 1-8 (1996)
27. M. Sacchetti, “Thermodynamic analysis of DSC data for acetaminophen polymorphs,” J. Therm. Anal. Calorim., 63(2), 345-350 (2001)
28. N. A. Zoubi, J. E. Koundourellis, and S. Malamataris, “FT-IR and Raman spectroscopic methods for identification and quantitation of orthorhombic and monoclinic paracetamol in powder mixes,” J. Pharm. Biomed. Anal., 29(3), 459-467 (2002)
29. H. A. Garekani, J. L. Ford, M. H. Rubinstein, and A. R. R. Siahboomi, “Formation and compression characteristics of prismatic polyhedral and thin plate-like crystals of paracetamol,” Int. J. Pharm., 187(1), 77-89 (1999)
30. G. Nichols and S. Frampton, “Physicochemical Characterization of the Orthorhombic Polymorph of Paracetamol Crystallized from solution,” J. Pharm. Sci., 87(6), 684-693 (1998)
31. R. A. Granberg and A. C. Rasmuson, “Solubility of Paracetamol in Pure Solvents,” J. Chem. Eng. Data., 44(6), 1391-1395 (1999)
32. Y. Yi, D. Hatziavramidis, and A. S. Myerson, “Development of a Small-Scale Sutomated Solubility Measurement Apparatus,” Ind. Eng. Chem. Res., 44(15), 5427-5433 (2005)
33. K. Park, J. M. B. Evans, and S. Myerson, “Determination of Solubility of Polymoephs Using Differential Scanning Calormetry,” Cryst. Grow. Des., 3(6), 991-995 (2003)
34. M. L. Peterson, S. L. Morissette, C. McNulty, A. Goldsweig, P. Shaw, M LeQuesne, J. Monagle, N. Encina, J. Marchionna, A. Johnson, J. G. Zugasti, A. V. Lemmo, S. J. Ellis, M. J. Cima, and O. Almarsson, “Iterative High-Throughput Polymorphism Studies on Acetaminophen and an Experimentally Derived Structure for Form III,” J. Am. Chem. Soc., 124(37), 10958-10959 (2002)
35. M. Szlagiewicz, C. Marcolli, S. Cianferani, A. P. Hard, A. Vit, A. Burkhand, M. von Raumer, U. C. Hofmeier, A. Zilian, E. Francotte and R. Schenker, “In situ characterization of polymorphic forms : The Potential of Raman Techniques,” J. Therm. Anal. Calorim., 57(1), 23-43 (1999)
36. P. J. Haines, “Thermal Methods of Analysis – Principles, Applications and Problems,” Blackie Acadmic & Professional, p89 (1995)
37. M. A. Mikhailenko, “Growth of large single crystals of the orthorhombic paracetamol,” J. Cryst. Growth, 265(3-4), 616-618 (2004)
38. M. Lang, A. L. Grzesiak, and A. J. Matzger, “The Use of Polymer Heteronuclei for Crystalline Polymorph Selection,” J. Am. Chem. Soc., 124(50), 14834-14835, (2002)
39. J. M. E. Bunyan, N. Shankland, and D. B. Sheen, “Solvent Effect on The Morphology of Ibuprofen,” Particle Design via Crystallization AIChE Symp. Series, 87(284), 44-57 (1991)
Chapter 4
1. J. W. Mullin, “Crystallization,” Paperback edition, Butterworth-Heinemann, pp172-188 (1997)
2. R.I. Ristic, S. Finnie, D. B. Sheen, and J. N. Sherwood, “Macro- and Micromorphology of Monoclinic Paracetamol Grow from Pure Aqueous Solution,”, J. Phys. Chem. B 2001, 105(38), 9057-9066 (2001)
3. R. A. Granberg, D. G. Bloch, A. C. Rasmuson, “Crystallization of paracetamol in acetone-water mixtures,” J. Cryst. Growth, 198/199(2), 1287-1293 (1999)
4. M. Lang, A. L. Grzesiak, and A. J. Matzger, “The Use of Polymer Heteronuclei for Crystalline Polymorph Selection,” J. Am. Chem. Soc., 124(50), 14834-14835, (2002)
5. C. P. Price. L. Grzesiak, and A. J. Matzger, “Crystalline Polymorph Selection and Discovery with Polymer Heteronuclei,” J. Am. Chem. Soc., 127(15), 5512-5517 (2005)
6. T. Lee, “crystal nucleating chip,” United States Patent Application, NO. 20030068252 (2003)
7. D. J. W. Grant, chapter 1 :“Theory and Origin of polymorphism.” Table 3, “Polymorphism in Pharmaceutical Solids.” Edited by H. G. Brttain, Marcel Dekker, New Yourk, pp.25-26 (1999)
8. S. Pfeffer-Hennig, P. Piechon, M. Bellus, C. Goldbronn, and E. Tedesco, “Physico-Chemical Characterization of an Active Pharmaceutical Ingredient: Crystal Polyorphism and Structrual Analysis,” J. Therm. Analy. Calor., 77(2), 663-679 (2004)
9. T. Graham and M. Sarikaya, “Growrh dynamics of red abalone shell: a biominetic model,” Mater. Sci. Eng., C11(2), 145-153 (2000)
10. Gunnison, K. E., Sarikaya, M., and Aksay, I. A., “Structure-Mechanical Property Relationships in a Biological ceramic-Polymer Composite: Nacre,” Mat. Res. Soc. Proc. 255, 171-183 (1992)
11. S. L. Wang, S. Y. Lin, and Y. S. Wei, “Transformation of Metastable Forms of Acetaminophen Studied by Thermal Fourier Transform Infrared(FT-IR) Microspectroscopy,” Chem. Pharm. Bull., 50(2), 153-156 (2002)
12. E. Mangala, T. S. Kumar, S Baskar, and K. P. Rao, “Delvelopment of chitosan/poly(vinyl alcohol) blend membranes as burn dressings,” Trends Biomater. Artif. Organs., 17(1), 34-40, (2003)
13. H. Takahashi, R. Chen, H. Okamoto, and K. Danjo, “Acetaminophen Particle Design Using Chitosan and a Spray-Drying Technique,” Chem. Pharm. Bull., 53(1), 37-41 (2005)
14. M. Szelagiewicz, C. Marcolli, S. Cianferani, A. P. Hard, A. Vit, A. Burkhard, M. von Raumer, U. Ch. Hofmeier, A. Zilian, E. Francotte and R. Schenker, “In Situ Characterization of Polymorphic Forms The Potential of Raman Techniques,” J. Therm. Analy. Calor., 57(1), 23-43 (1999)
15. N. Al-Zoubi, J. E. Koundourellis, and S. Malamataris, “FT-IR and Raman spectroscopic methods for indentification and quantitation of orthorhombic and monoclinic paracetamol in powder mixes,” J. Pharm. Biomed. Analy., 29(3), 459-467 (2002)
16. B. D. Ratner and D. G. Castner, chapter 3“Electro Spectroscopy for Chemical Analysis,” “Surface Analysis: The principal Techniques,” edited by J. C. Vickerman, John Wiley and Sons, New York, pp.50-59, (1997)
17. A. Roychoudhury and P. P. DE, “Studies on Chemical Interactions Between Chlorosulphonated Polyethylene and Carboxylated Nitrile Rubber,” J. Appl. Poly. Sci., 63(13), 1761-1768, (1996)
18. G. Saraswathy, S. Pal, C. rose and T. P. Sastry, “A novel bio-inorganic bone implant containing deglued bone, chitosan and gelatin,” Bull. Mater. Sci., 24(4), 415-420 (2001)
19. N. B. Colthup, L. H. Daly and S. E. Wiberley, “Introduction to Infrared and Raman Spectroscopy,” Third Edition, Axademic Press, Inc., P.339, P.340, P.335-336 (1990)
20. D. T. Mcquade, S. L. Mckay, D. R. Powell and S. H. Gellman, “Indifference to hydrogen bonding in a family of secondary amides,” J. Am. Chem. Soc., 119(36), 8528-8532 (1997)
21. H. Lu, S. Zheng, B. Zheng and X. Tang, “Miscibility and Intermolecular Specific Interactions in Blends of Poly(hydroxyether sulfone) and Poly(N-vinylpyrrolidone),” Macromol. Chem. Phys. 205(6), 834-842 (2004)
22. www.accelrys.com, “C2. Polymorph”,Cerius2 Datasheet
Chapter 5
1. M. J. Habib, “Pharmaceutical Solid Dispersion Technology,” Technomic Publishing Company, Inc., Pennsylvania, USA, pp. ix,12,17-25,66-70 (2001)
2. S. Sethia, E. Squillante, ”Physicochemical Characterization of Solid Dispersions of Carbamazepine Formulated by Supercitical Carbon Dioxide and Conventional Solvent Evaporation Method,” J. Pharm. Sci., 91(9), 1948-1957 (2002)
3. A. T. M. Serajuddin, “Solid Dispersion of Poorly Water-Soluble Drugs: Early Promises, Subsequent Problems, and Recent Breakthroughs,” J. Pharm. Sci., 88(10), 1058-1066 (1998)
4. S. X. yin, M. Franchini, J. Chen, A. Hsieh, T. Lee, M. Hussain, and R. Smith, “Bioavailability Enhancement of a COX-2 Inhibitor, BMS-347070, from a Nanocrystalline Dispersion Prepared by Spray-Dring,” J. Pharm. Sci., 94(7), 1958-1607 (2005)
5. S. L. Wang, S. Y. Lin, and Y. S. Wei, “Transformation of Metastable Forms of Acetaminophen Studied by Thermal Fourier Transform Infrared(FT-IR) Microspectroscopy,” Chem. Pharm. Bull., 50(2), 153-156 (2002)
6. M. Heil, R. Buchler, and W. Boland, “Quantification of Invertase Activity in Ants under Field Conditions,” J. Chem. Ecol., 31(2), 431-437 (2005)
7. J. McMurry, “Biomolecules: Carbohydrates,” Chapter 25 of Organic Chemistry, Thomson Learning, Inc., Belmont, USA, p. 969 (2004)
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