best practices in formulation analysis by x-ray diffractionŁfawcett, t. g., needham, f., faber, j.,...
TRANSCRIPT
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BEST PRACTICES IN FORMULATION ANALYSES BY X-RAY DIFFRACTION
T. G. Fawcett, S. N. Kabekkodu, S. D. Gates, A. M. Gindhart, J. R. Blanton and C.E. CrowderInternational Centre for Diffraction Data,
Newtown Square, PA, USA
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This document was presented at PPXRD -Pharmaceutical Powder X-ray Diffraction Symposium
Sponsored by The International Centre for Diffraction Data
This presentation is provided by the International Centre for Diffraction Data in cooperation with the authors and presenters of the PPXRD symposia for the express purpose of educating the scientific community.
All copyrights for the presentation are retained by the original authors.
The ICDD has received permission from the authors to post this material on our website and make the material available for viewing. Usage is restricted for the purposes of education and scientific research.
ICDD Website - www.icdd.comPPXRD Website – www.icdd.com/ppxrd
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About the Authors
� Suri Kabekkodu � editor in chief, pharmaceutical and excipients subfiles
� Stacy Gates � senior editor, polymers, non-crystalline materials
� Amy Gindhart � senior editor, pharmaceuticals� Justin Blanton � senior programmer, JAVA, data
mining, pattern simulations� Cyrus Crowder � principle scientist, embedded
software and method developments
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Determining Best Practices �Key References
� Fawcett, T. G., McDonnell, H., Higginson, R., (2006, 2009, 2012) �ICDD Global Customer Survey�, private communication, International Centre for Diffraction Data. Three separate surveys taken three years apart with over 2,000 responses from scientists working in the field of diffraction and material analysis.
� Fawcett, T. G., Needham, F., Faber, J., Crowder, C. E., (2010), �International Centre for Diffraction Data round robin on quantitative Rietveld phase analysis of pharmaceuticals�, Powder Diffraction, 25(1), pp 60-67.
� Fawcett, T. G., Hubbard, C. R., (2004), �Formulation Analyses of Off-the-shelf Pharmaceuticals�, American Pharmaceutical Review, Vol. 7, pp 80-83.
� Fawcett T. G., Faber, J., Needham F., Kabekkodu S. N., Hubbard C. R. and Kaduk J. A. , (2006), �Developments in formulation analyses by powder diffraction analysis�, Powder Diffraction, 21, pp 105-110.
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About the data
� Y. Ososkov and Z. Cherbanyk Beti, Exova, Mississauga, Canada� A. Patel, Bristol-Myer Squibb, New Brunswick, NJ, USA� J. Wright and A. Fitch, European Synchrotron Radiation Facility ESRF, Grenoble, France� P. Varlashkin GlaxoSmithKline, Durham, NC, USA� F. Needham, ICDD, Newtown Square, PA, USA� M. Ermrich, Roentgen Laboratory, Reinheim, Germany� X. Bokhimi, Universidad Nacional Autonoma De Mexico, Coyoacan District, Mexico� R. Suryanarayanan, University of Minnesota, College of Pharmacy, Minneapolis, MN, USA� J. Henao, Universidad Industrial de Santander, Columbia� E. Wachtel, Weizman Institute of Science, Rehovat, Israel� H. Brusova, Zentiva AS, Prague, Czech Republic
� C. Hubbard, Oak Ridge National Laboratory, TN, USA� N. Giuliani, Riddle Primary Care Associates (Riddle Hospital), Glen Mills, PA, USA� J. Kaduk, Illinois Institute of Technology, Il, USA
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Outline
Specimen Preparation-Round Robin, Experience
� General issues � low scattering power, absorption difference in ingredients, crystallinity
� Asymmetric Crystals
� Particle size
� Granularity
� Orientation
� Separation Techniques
Methods of Analysis �Customers Survey Data
� Experience� Databases� Noncrystalline Materials� Reference Quality� Elemental Filters� Subfiles� Pattern Simulations� Rietveld Analysis� Combined Techniques �
DXC/XRD� Complimentary Analytical
Techniques
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General Issues
Low scattering factor (Z) Low density
Vitamins B & C
Inorganic and OrganometallicExcipients � 6 phases
KCl � 30% of all intensity9 % concentration
Vitamin C � 13 % of all Intensity7.5 % conentration
Centrum Performance
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Consequences
In Formulation analyses the API is often a low scattering low densitymaterial that is masked by highly scattering higher density materialsoften used as excipients
Identify excipients first and then identify the API
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General Issue - CrystallinityAllegra
Massive Peak overlap issuesAll 8 phases are weakly scattering
ActivePharmaceuticalIngredient
Data from Tablet Core � redData from Tablet Shell -blue
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Experimental digital patters for Nanocrystalline and non-crystalline materials
Microcrystalline celluloseGelatinized StarchPovidone
Microcrystalline celluloseand Povidone
Microcrystalline celluloseMicrocrystalline cellulose
Starch
Allegra
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Assymmetric CrystalsPharmaceutical Round Robin
Acetaminophen & Si
Mannitol & Si
ICDD Round Robin Data
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Large grains � capillary mount
Large grains for acetaminophen
Pharmaceutical Round Robin
2D Detector 1D Detector
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Particle Size/Granularity
Grind the sample to eliminate the particle size effect in the originalmaterial
Only 4/8 Laboratoriesproduced a randomlyoriented powder � only 3/11produced the correct quantitative results.
Pharmaceutical Round Robin
Acetaminophen, D-mannitoland NIST silicon
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OrientationEffexor
Lactose monohydrate
Lactose MonohydrateSevere orientation along
040 direction
Oriented lactose monohydratewith microcrystalline cellulose
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Impact on IntensitiesPharmaceutical Round Robin
d-spacings relatively accurate, intensities and profiles vary considerablyIn poorly prepared samples
Severe orientation will prevent both identification and quantitation
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Best Practices
� Grind or attrite to product random oriented specimens without specimen damage
� Increase collection times and optimize S/N for low Z, low density materials
� Use zero background holders especially if you are analyzing amorphous and non-crystalline components
� Analyze peak shapes to detect granularity (know your instrumental peak shape by running a NIST standard)
� Analyze relative peak intensities to detect orientation� Run multiple specimens and /or separations
(compare or cluster the data)
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Tutorial � How to Analyze Drugs(www.icdd.com/resources/tutorials)
How to Analyze MineralsFor pharmaceuticals polymeric attrition media (Polystyrene, Polyethylene) usedfor soft materials
Kaptan capillaries for capillary mounts
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METHODS OF ANALYSIS
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ICDD Global User Surveys
Responses Queries
2012 Survey 1031 9956 10.3%
2009 Survey 811 6950 11.6 %
2006 Survey 220 1305 6 %
All survey data are in a relational database format for data mining purposes � We can correlate responses to methods used with responses to success in particular analyses
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Success in Material Identification
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Database Users Analyzing Organicsis more difficult
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Difficult Problems
Allegra- Complex Formulation- Heavy Peak Overlap- Contains amorphous and nano
crystalline materials
Effexor (and Lipitor)- Major phase (lactose monohydrate)
is heavily oriented- Nanocrystalline material
Pepcid ACDue to nano and amorphous contentthis is difficult to analyze with PDF-2,easy to analyze with PDF-4
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DatabaseTools for improved formulation
analysis
� Subfiles on Excipients and Pharmaceuticals� Elemental Filters - All data expressed in atomic
and weight %�s� Full experimental digital patterns for
mircocrystalline polymers and amorphous materials
� Common inorganic salts and oxides� Evaluate and correct disordered structures� Actively collect new pharmaceutical materials
through grants
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Use of Filters
Element
Pharmacuetical
and Excipients
Database
471,257 entries
6,967 entries
293 entries (Ca)
CaCO3 in Lipitor
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Use of Filters - Lipitor
CaCO3 in Lipitor
Ca Atorvastatin Trihydrate d-spacing filter � 9.66 Å293 Entries
8 Entries4 are Ca Atorvastatin
Subfile and ElementFilter
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Subfiles - Pharmaceuticals
ICDD data sourced from powderdiffraction experiments � manygrants and donations
ICDD data sourced from CSD single crystal data � primarilyliterature publications
Powder Data Source
Single Crystal Data Source
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Pattern Simulation
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Shao-Fan Lin Dropropizine
Original Data
Nano
Electron Diffraction (100 KeV)
2D XRD
Electron DiffractionSpot Pattern (001)
EBSD Pattern
53 % of PDF-4/Organics usershave a 2D detector
Original Data
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Synchrotron Analyses
10 Phase AnalysisCentrum Performance
~ 30% of PDF-4/Organics users use both a laboratory XRD unit and a synchrotron
Data from Argonne National Laboratory
Pattern simulation with synchrotronInstrument function
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Centrum Performance- Goodness of Merit (GOM)
High quality lab data Synchrotron Data
Vit C 6159 C 1Calcite 6145 I 2
Monetite 6143 I 3KCl 5884 I 4
Fe Fumarate 5334 B 5
Brushite 2640 S 8Nicotinamide 2517 I 15
Vit C 6159 C 1Calcite 6145 I 2
Monetite 6143 I 3KCl 5884 I 4
Fe Fumarate 5334 B 5
Brushite 2640 S 8Nicotinamide 2517 I 15
Calcite 7519 I 1Monetite 7477 I 2Brushite 7469 S 3
Vitamin C 7384 C 4KCl 7166 A 5
MgO 6779 I 12
MnSO4 Hydrate 5230 I 2Fe Fumarate 4321 R 8
Hydroxyapatite 4892 I 2Nicotinamide 3161 I 8
Calcite 7519 I 1Monetite 7477 I 2Brushite 7469 S 3
Vitamin C 7384 C 4KCl 7166 A 5
MgO 6779 I 12
MnSO4 Hydrate 5230 I 2Fe Fumarate 4321 R 8
Hydroxyapatite 4892 I 2Nicotinamide 3161 I 8
GOM GOM
More intensity and resolution203 d-spacings in the patternPeaks are well separated
95 d-spacings in the pattern
GOM maximum = 8000High scores better fit
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Success in Identification
Greater than 95 %Less than
75 %
Best Methods
Use elemental filtersUse subfiles
Use GOMUse pattern simulation
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Rietveld Refinementsfor improved phase identification
J. Kaduk, �A Rietveld Tutorial � mullite�
Powder Diffr., Vol. 24, No. 4, December 2009
T. G. Fawcett, C. E. Crowder, S. N. Kabekkodu, J. A. Kaduk,
�Improved Material Identification through Targeted Data Mining�
Advances in X-ray Analysis, 2010 (with on-line tutorial, icdd.com)
J. Kaduk, �Crystallographic Databases and Powder Diffraction�
Volume H, International Tables, IUCr, in progress.
Routinely identifies phases in 0.1-5 weight % concentrationwith good quality laboratory data
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Rietveld Refinementsfor improved phase identification
3 Phase Solution
J. Kaduk, A Rietveld Tutorial - mullitePowder Diffr., Vol. 24, No. 4, December 2009
Eight crystalline phasesand amorphous content
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Pattern Simulations(not a refinement)
Centrum Performance
Difference PlotNew in 2013
Summed componentPlot (New in 2012)
Lipitor
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Cluster Analyses
Fawcett, T. G., Needham, F., Faber, J., Crowder, C. E., (2010), �International Centre for Diffraction Data round robin on quantitative Rietveld phase analysis of pharmaceuticals�, Powder Diffraction, 25(1), pp 60-67.
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Cluster Analyses
Polymorphs Identified
CelluloseAZT
CarbamazepineHeroin
Calcium PhosphatesGlycineCodeine
FamotidineCocaine
Cimetidine
Cluster analysis doesn�t dependon the specimen being crystalline !
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Cluster Analyses
Declustering multiple data sets to get component contributions
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Outline � Best Practices� Specimen Preparation-� Round Robin, Experience
� General issues � low scattering power, absorption difference in ingredients, crystallinity
� Asymmetric Crystals� Particle size� Granularity� Orientation� Impact on Intensities� Separation Techniques
� Methods of Analysis �� Customers Survey Data
� Experience� Databases� Noncrystalline Materials� Reference Quality� Elemental Filters� Subfiles� Pattern Simulations� Rietveld Analysis� Combined Techniques �
DXC/XRD� Complimentary Analytical
Techniques
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Best Practices
� Focus on specimen preparation � good data lead to good analyses
� Formulation analyses are difficult � use all your tools
� Subfiles� Complimentary analytical data � Element filters� Data analysis tools � Figures of Merit, Reference quality,
Intensity and d-spacing matches� Data processing techniques (Rietveld reinteration, different
search/match algorithms, cluster analyses,simulations especially with non-crystalline materials)
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Vitamin C 120 mgNiacin (B3) 40 mgRoot Extracts (Celluloses) >100 mgRiboflavin (B2) 5.1 mgFolic Acid 400 mcg
K,Cl in KCl 147 mgCa in CaCO3,CaHPO4 100 mgP in CaHPO4 48 mgFe in Iron Fumarate 18 mgZn in ZnO 15 mgMg in MgO, MgStearate 40 mgSi in SiO2 4 mgMn in MnSO4 4 mgTiO2
4-10 mgVit B6 HClCalcium Pantothanate(overlap with Vit C)
60 mgBoron