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3/5/2016 U. Sailaja et al, Eur. J. Pharm. SCI 49 20131.

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1 3/5/2016 U. Sailaja et al, Eur. J. Pharm. SCI 49 20131

2 Dr. Sailaja U Department of Physics, M.E.S. Keveeyam College. Valanchery, Malppuram, Kerala, India. Relaxation dynamics of amorphous pharmaceuticals

3 3/5/2016 U. Sailaja- Indoglobal Health care 2015 Motivation Drug administration is better in the amorphous state than in the crystalline state. But shelf-life of the amorphous drugs are low because there is a greater chance for crystallization due to the molecular mobility present in the amorphous state. Aim Objective To investigate different relaxation processes (dielectric properties) present in glass-forming pharmaceuticals by BDS. To investigate different relaxation processes present in the amorphous pharmaceuticals and their role in the crystallization of drugs. Apply this to design amorphous drugs having better solubility, bioavailability and longer shelf-life.

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5 3/5/20165

6 API are classified accordingly Amorphous pharmaceuticals IIIIIIIV solubilityhigh low permeabilityhighlowhighlow amorphous route can give improved solubility for water insoluble solid APIs

7 mixing of solid API in the oral route Amorphous pharmaceuticals mixing – escape of individual molecule from the Madelung bond of crystalline API. Getting energy to overcome this barrier from thermal fluctuations is less probable. amorphous state –only very weak van der Waal’ s interaction. molecules are at higher free energy. Hence can mix better and quicker

8 Vitrification of solid API cooling faster can bypass this ordering to retain disorder and reach glassy state glass specific heat

9 amorphous API can gradually transform to crystalline phase Vitrification of API – issues to be addressed 100 s & above 100 s – 10 -9 10 -9 and lower Glass supercooled liquid liquid

10 amorphous API can gradually transform to crystalline phase Vitrification of API – issues to be addressed shelf-life needed is more than 2 years stability of API against degradation is yet to be systematically investigated. systematic investigation is needed for taking this to application front.

11 3/5/2016 U. Sailaja et al, EUR. J. Pharm. SCI 49 201311

12 3/5/2016 U. Sailaja et al, EUR. J. Pharm. SCI 49 201312 Theory: The polarization studied by dielectric spectroscopy is the orientational polarizability which is due to dipole relaxation. The important function that is measured from dielectric spectroscopy is the complex dielectric function ε * ( ω )= ε ′ ( ω )-i ε ′′ ( ω ) ( ε ′ -real part, ε ′′ -imaginary or loss part).

13 Broadband dielectric spectrometer Novocontrol (10 -3 -10 7 Hz)

14 Data analysis The analysis time was 18 hours in BDS Frequency range is between 10 -2 to 10 7 Hz Temperature range is from -150 to 100 degree The spectra is analyzed by using Win-fit software Frequency corresponding to maximum dielectric loss in alpha process can be represented in Arrhenius diagram VFT Fit is done for alpha process to calculate Tg and fragility(m) and T 0

15 Ketoprofen Dielectric loss curves obtained for ketoprofen during heating U. Sailaja et al, Eur. J. Pharm.Sci, 49 (2013) 15 From 291.15 K (18degree) onwards the dielectric strength of α-process starts decreasing shows tendency for crystallization of ketoprofen. ( Orudis/Oruvail)

16 HN fitted curves 3/5/2016 U. Sailaja et al, Eur. J. Pharm.Sci 49 2013 16

17 3/5/2016 U. Sailaja et al, Eur. J. Pharm.Sci 49 201317 Fenofibrate Primary relaxation above T g Secondary relaxation below T g.

18 3/5/2016 U. Sailaja et al, Eur. J. Pharm.Sci 49 201318 HN fitted Spectra of Fenofibrate

19 Master plot of ketoprofen formed by shifting several spectra near T g to overlap the spectrum at 273.15K 3/5/2016 U. Sailaja et al, Eur. J. Pharm.Sci 49 2013 19 Tramadol monohydrate (Kaminski 2010) Glibenclamide (Wojnarowska 2010)

20 Relaxation map of ketoprofen T 0 = 222K (Hancock1997) 3/5/2016 U. Sailaja et al, Eur. J. Pharm.Sci 49 2013 20 Yu et al., 2001, pointed out that if m 75 the liquids belongs to fragile group

21 3/5/2016 U. Sailaja et al, Eur. J. Pharm.Sci 49 201321 Relaxation map of Fenofibrate

22 Strong and fragile glasses Strong systems: Strong resistance against structural degradation Fragile systems: Shows large deviation from Arrhenius law VFT equation R. Boehmer et al 1993 =τ VF exp[B/(T—T 0 )] m=16, 200 Angell, C.A. 1991

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26 3/5/2016 U. Sailaja IGHC 2015 26 Dielectric studies: Molecular mobility is found to be responsible for the crystallization of the APIs and JG relaxation is one of the main reasons for devitrification and found to universal. To prevent devitrification of the drugs we have to understand the complete factors responsible for devtrification so that the drugs can attain maximum shelf-life in the amorphous form. Binary mixture of these APIs with different excipients can be done to check the miscibility of the drugs and thereby avoiding crystallization during processing, handling and storage in the amorphous phase for getting maximum shelf-life and stability.

27 References [1] Tripathi KD (MD) Essentials of Medical Pharmacology 2008. [2] Alie J,Menegotto J, Cardon P, Dupla H, Caron A, Lacabanne C, Bauer M. J.Pharm.sci 93: (2003) 218-233. [3] Boehmer R, Ngai KL, Angel CA, Plazek DJ. J. Chem. Phys 99: (1993) 4201-4209. [4] B.C. Hancock, G. Zografi. J.Pharm.sci. 7 (1997) 795-804 [5] Angell, C.A. Relaxation in liquids, polymers andplastic crystals -strong/fragile patterns and problems. J. Non-Cryst. Solids. 1991, 131-133, 13-31.

28 3/5/2016 U. Sailaja IGHC 2015 28  Dr. Shahn Thayyil, University of Calicut, India  Dr. G. Govindaraj & Mr. Krishnakumar, Pondicherry University  Dr. Jayanthi, Sr. Scientist, CMPR, AVS, Kottakkal, Kerala, India  Mr. Mohit Aggarwal, IIT Powai, Mumbai, India  Mr. A. Arun Sr. Manager, Product development, AVS, Kottakkal  Dr. Ashok Aggarwal, NIPER, Mohali, Punjab, India  Cochin University, India  To MES management, Principal, and all members  of MES Keveeyam College, Kerala, India Acknowledgments

29 3/5/2016 U. Sailaja et al, Eur. J. Pharm.Sci 49 201329

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