high-throughput crystallization: processes and applications sherry l. morissette diversity amidst...
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High-throughput Crystallization: Processes and Applications
Sherry L. Morissette
Diversity Amidst Similarity
A Multi-disciplinary Approach to
Polymorphs, Solvates and Phase Relationships 35th Crystallography Course, Erice, Italy
June 19, 2004
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The MissionThe Mission
CompoundCompound Discovery Discovery
PreclinicalPreclinicalDevelopmentDevelopment
Clinical Clinical Development Development
RegulatoryRegulatoryApprovalApproval
Marketing Marketing and Salesand Sales
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The QuestionsThe Questions
1) Why is solid form important in pharmaceutical development?
2) How is it typically investigated?
3) What do high-throughput (HT) crystallization techniques have to offer?
4) How does the HT process work?
5) Does it really work?
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Why is Solid Form Important?Why is Solid Form Important?
diamond graphite fullerenes nanotubes
Solid Forms of Carbon
The crystal structure of a compound impacts the physicochemical and performance properties, as well as the value/utility of a material
Crystal Structure
Physicochemical/Performance
Properties $Value/Utility
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Why is Solid Form Important?Why is Solid Form Important?
Thermal Mechanical Electrical Optical
Crystal Structure
Solubility Dissolution rate Hygroscopicity Stability Flowability Compaction
Performance Properties
The crystal structure of a compound impacts the physicochemical and performance properties, as well as the value/utility of a material
Physicochemical/Performance
Properties $Value/Utility
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Why is Solid Form Important?Why is Solid Form Important?
Crystal Structure $Value/Utility
Enable a product Reduce dose Improve onset of action Better storage conditions Patent protection
Physicochemical/Performance
Properties
The crystal structure of a compound impacts the physicochemical and performance properties, as well as the value/utility of a material
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What are Pharmaceutical Solids?What are Pharmaceutical Solids?
Active pharmaceutical ingredients (API) can exist in a variety of solid forms, including:
Polymorphs Solvates Hydrates
Salts Co-crystals Amorphous forms
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Solubility
Bioavailability
Stability
Processability
The Challenge: Solid Form SelectionThe Challenge: Solid Form Selection
The solid form selected for development must exhibit an appropriate balance of important physicochemical properties
Crystalline solid (preferred) Adequate solubility and/or dissolution behavior Physically stable (processing & storage) Non-hygroscopic (or minimally hygroscopic) Chemically stable
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Crystallization – So Many Variables!Crystallization – So Many Variables!
Composition Type Process Variables*
Polymorphs & Solvates
Salts & Co-crystals
Thermal Anti-solvent Evaporation Slurry conversion
Other variables
Solvent/solvent combinations
Degree of supersaturation
Additive type Additive con-
centration
Counter ion type Acid/base ratio Solvent/solvent
combinations Degree of super-
saturation Additive type
and concent. pH (aqueous) Ionic strength
Heating rate Cooling rate Maximum
temperature Incubation
temperature(s) Incubation time
Anti-solvent type Rate of anti-
solvent addition Temperature of
anti-solvent addition
Time of anti-solvent addition
Rate of evaporation
Evaporation time
Carrier gas Surface-
volume ratio
Solvent type Incubation
temperature Incubation time Thermal
cycling and gradients
Mixing rate Impeller design Crystallization
vessel design (including capillaries, etc.)
The form outcome of a crystallization experiment is influenced by both composition and process parameters
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Identify and characterize the solid forms of an API Evaluate performance properties of different forms
Staged approach often used Determine stability relationships between forms (identify stable form) Investigate processing effects on form
Crystallization Drying Granulation/Milling Storage
Select optimal form for development
Satisfy regulatory requirements
Generate & secure intellectual property
Solid Form Screening: GoalsSolid Form Screening: Goals
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How is solid form of an API typically investigated?How is solid form of an API typically investigated?
Set-up exp. Pray for crystals Look for crystals
Change dieties!
Guess new conditions
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Form Discovery ApproachesForm Discovery Approaches
Thermal microscopy
Slurry conversion
Recrystallization
Exploration of a few salts
Traditional Major drawback:
Slow, manual process
Manual, bench - top process Average number of experiments ~ 10 -20 Turnaround time ~ 1-2 months Compound available ~ 1g Limited exploration of experimental
space
[API]
Solvent
Process
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Form Discovery ApproachesForm Discovery Approaches
Thermal microscopy
Slurry conversion
Recrystallization
Exploration of a few salts
Polymorph prediction Progress has been made but still challenging
Salt structure prediction computationally intractable
More recent
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Form Discovery ApproachesForm Discovery Approaches
Thermal microscopy
Slurry conversion
Recrystallization
Exploration of a few salts
Polymorph prediction Progress made but challenging
Salt structure prediction computationally intractable
High throughput (HT) crystallization
Now
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Miniaturization of crystallization exp. Large numbers of experiments Reduced compound use Automation of tedious operations Multiple processing options (in parallel or serially)
Execution and analysis bottlenecks solved Informatics software
Improved experimental design Sample tracking Mining of resulting data: detection of trends, learning
Streamlined end-to-end process
Benefits of HT CrystallizationBenefits of HT Crystallization
HT
High-throughput offers the ability to explore solid form space more comprehensively than ever before possible
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HT Process Flow: CrystalMax® HT Process Flow: CrystalMax®
Design Execution Analysis
Data mining & modeling
Secondary solids
characterization Functional characterization
Design of experiment
Streamlined end-to-end process
Sample preparation Solids
generationSolids
detection Sample isolation Primary solids
analysis Initial informatics classification
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Generic Functional Process FlowGeneric Functional Process Flow
PREPAREMATERIALS
REMOVESOLVENT
ADDCOUNTER-ION
SEALVIAL
HEAT/COOL/STIR CONTENTS
ADDADDITIVE/
ANTISOLVENT
EVAPORATELIQUIDS
ANALYZE MATERIAL
RECORDSINSTRUCTIONS
SOLIDS
SUPERNATANT
(FOR FURTHERPROCESSING)
REMAININGSAMPLE
SAMPLES FORINCUBATION
CRYSTALS ORAMORPHOUS
SEALEDSAMPLES
COLLECT MATERIAL
ADDSOLVENTS
PREPAREINFORMATION
(DoE)DB
DISPENSEAPI
RE-ARRAY
CRYSTAL CHECK
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Thermal Recrystallization Process Thermal Recrystallization Process
PREPAREMATERIALS
REMOVESOLVENT
ADDCOUNTER-ION
SEALVIAL
HEAT/COOL/STIR CONTENTS
ADDADDITIVE/
ANTISOLVENT
EVAPORATELIQUIDS
ANALYZE MATERIAL
RECORDSINSTRUCTIONS
SOLIDS
SUPERNATANT
(FOR FURTHERPROCESSING)
REMAININGSAMPLE
SAMPLES FORINCUBATION
CRYSTALS ORAMORPHOUS
SEALEDSAMPLES
COLLECT MATERIAL
ADDSOLVENTS
PREPAREINFORMATION
(DoE)DB
CRYSTAL CHECK
DISPENSEAPI
RE-ARRAY
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Design of Experiment (DoE)Design of Experiment (DoE)
DoE goals: Design a diverse experiment covering a large multi-factorial parameter space, with the goal of determining which experimental factors affect the desired outcome
In practice, it is necessary to place constraints on the experimental space
Hardware limitations Minimum and maximum dispense volumes or masses Accessible temperature ranges
Chemical compatibility Reactivity of components Miscibility Tolerablility/toxicology limits of components (if appropriate)
AnalysisExecutionDesign
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AnalysisExecutionDesign
Each as-received compound is first characterized to determine solid form & properties
Software tools are used to specify the components of each individual experiment in the large array of experiments
Number of experiments Amount of API per well (levels of supersaturation) Solvent composition (unary, binary, ternary, etc.) Additive type and amount (counter ion, anti-solvent, etc.) Processing conditions (recrystallization, evaporation, etc.)
The specific design of a given experiment depends on the type of experiment being conducted
Design of Experiment (DoE)Design of Experiment (DoE)
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AnalysisExecution
DoE Tools: Diversity GeneratorDoE Tools: Diversity Generator
Design
Diversity generator: software tool that uses a set of pertinent chemical properties selected by the experimentalist to define the experimental space (e.g., chemical mixture space)
Experimental points are then evenly spaced over the chosen property space
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AnalysisExecution
DoE Tools: Solubility EstimatorDoE Tools: Solubility Estimator
Design
Solubility estimator: software is used to estimate the solubility of the API in the given solvent/additive mixture at a specified temperature
Upper and lower limits on API concentration established for temperature range of experiment
Experiments normalized with respect to driving force for crystallization
Possible to gain insight into the role of solvents and/or supersaturation on the resulting solid form
With DOE tools, experiments may be designed to effectively and simultaneously explore diverse composition and process spaces
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HT Crystallization ProcessHT Crystallization Process
Initial informatics classification
Design AnalysisExecution
Sample preparation Solids
generation Solids detection Sample
isolation Primary solids analysis
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HT Crystallization ProcessHT Crystallization Process
Design AnalysisExecution
Sample preparation
Each component is dispensed as specified by the DoE into an individually addressable vial
Each vial is immediately sealed to ensure composition control
Deposit API(0.2 – 2mg)
Remove carrier solvent
Dispense solvent(s) &
additives
Immediately seal each vial
Transfer to incubation
station
DoE input from database
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HT Crystallization ProcessHT Crystallization Process
Design AnalysisExecution
Solids generation
Solids can be generated by a number of methods Thermal cooling (recrystallization) Anti-solvent addition Evaporative crystallization Melt crystallization Flash/quench cooling Template-directed crystallization
Multiple process modes should be used to ensure generation of
maximal solid form diversity
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HT Crystallization ProcessHT Crystallization Process
Design AnalysisExecution
Solids detection
Machine vision system used to intermittently inspect vials for solids formation
State changes in the crystallization vessels are recorded in database, signaling a particular vessel or set of vessels is ready for isolation & analysis
Solids detection process is automated, rapid and non-destructive
Optical inspection
Birefringence detection
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HT Crystallization ProcessHT Crystallization Process
Design AnalysisExecution
Sample isolation
Vials containing solids are re-arrayed; remaining samples are returned to the incubation station for further incubation or processing
Re-arrayed samples are optionally quenched by aspiration of the solution phase and dried using flowing nitrogen
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HT Crystallization ProcessHT Crystallization Process
Design AnalysisExecution
Primary solids analysis
HT- Raman Spectroscopy HT- pXRD
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HT Crystallization ProcessHT Crystallization Process
Design AnalysisExecution
Primary solids analysisIn-situ Raman Spectroscopy
Rapid, in-situ measurement > 1000 samples per day
Highly selective to crystal structure Meas. independent of sample size Orientation effects minimized by
sample rotation
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HT Crystallization ProcessHT Crystallization Process
Design AnalysisExecution
Primary solids analysis
HT-pXRD carried out on arrays of samples
Aliquots of samples re-arrayed to pXRD format
Sampling method minimizes preferred orientation
Acquisitions times are short (typically ~ 1- 3 mins) Approximately 300-400 samples per day
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HT Crystallization ProcessHT Crystallization Process
Initial informatics
classification
Design AnalysisExecution
Manual comparison of data impractical
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Similar
Dissimilar
HT Crystallization ProcessHT Crystallization Process
Raman/pXRD acquisition Correction (filtering) Peak picking Comparison Classification
Proprietary software used to compare and cluster spectra/diffractograms
Initial informatics
classification
Design AnalysisExecution
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HT Crystallization ProcessHT Crystallization Process
Initial informatics
classification
Design Analysis
Raman and pXRD, as well as other data types, can be co-binned, allowing cross-referencing of multiple data types
Software used to aid selection of representatives from each cluster of like samples on which to perform secondary characterization
Execution
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HT Crystallization ProcessHT Crystallization Process
Design AnalysisExecution
Secondary solids analysis
DSC, TGA, optical microscopy, HPLC, KF
single crystal structure (if possible)
Melting point, crystal habit, stoichiometry
Dissolution, DVS, slurry conversion
Solubility, dissolution, hygroscopicity, stoich.,
phys./chem. stability
Functional analyses
Scale-up required
Descriptor-based analysis
Mapping of exp. conditions to crystal form produced
Data mining & modeling
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CrystalMax® Process OverviewCrystalMax® Process Overview
Fully automated & integrated Flexible operation: process mode(s), amount material, etc. Parallel experimentation: capable > 10,000 crystallization
experiments / week More comprehensive examination of form space
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Selection of materials for crystallization vessels & seals Compatible with solvents, temperature Must allow inspection of and sampling from vessels; avoid wetted seals Low cost, disposables
System flexibility Amount of material required (for individual experimental well & total) Types of experimental designs How and when processes are applied Individually addressable samples (control of isolation time) Selection of primary and secondary analysis methods to be used
Sample & process tracking Unique identifiers for individual samples All steps tracked and recorded to DB Tracking of off-line experimental work
Sample analysis Primary classification must be rapid and selective Multiple solid-state characterization methods preferred
Data handling Analyses tools should allow evaluation of partial data sets Data mining & models feed DoE
Technology Design ConsiderationsTechnology Design Considerations
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CrystalMax® Application ExamplesCrystalMax® Application Examples
Sertraline HCl: Highly polymorphic
Sertraline: Salt selection
Ritonavir: Latent polymorphism
Polymorph/solvate screening
Crystallization of amorphous compounds
Salt selection
Co-Crystal discovery
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Case Study: Sertraline HClCase Study: Sertraline HCl
Active ingredient in Zoloft®
Multiple crystal forms disclosed Highly polymorphic 17 discrete
forms reported Multiple hydrate (6) and solvate (4)
forms known
Most stable polymorph of the HCl salt is in the marketed product
Cl
Cl
NHCH3 HCl
GOALS Assess solid-form diversity of the HCl salt
Investigate alternative salt forms & propensity for polymorphism
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HT Crystallization Sertraline HClHT Crystallization Sertraline HCl
Experimental Design ~ 3,100 experiments 2 supersaturation levels
1.0 – 2.5 mg compound/well
24 diverse solvents Unary, binary and ternary mixtures
Varying process methods Thermal recrystallization at 2
incubation temperatures (5 and 25°C)
Slurry conversion using solvent array
Melt crystallization using varying temperature profiles
Varying desolvation methodologies
Results 10 distinct forms identified
from solvent-based recrystallization
4 additional forms were generated from desolvation & melt crystallizations
2 novel solvates identified Acetic acid (1:1) Ethyl acetate (2:1)
8 reported forms shown to be unstable (transient) or occur only in mixtures
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Crystal Forms Identified in ScreenCrystal Forms Identified in Screen
Found by Follow-up to HT-Screen
Found by HT-Screen Mixtures & Transient Species
Multiple processing methods needed for more comprehensive form discovery
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HT Crystallization Sertraline HCl: SummaryHT Crystallization Sertraline HCl: Summary
All but 1 known non-transient form of the HCl salt were found in ~ 6 weeks
2 novel forms of the HCl salt were discovered, one of which is pharmaceutically acceptable
Almarsson et al. Crystal Growth & Design. Published on the web 9/10/2003.
Sertraline HCl Form I. 20x
Varied process conditions and follow-on experimentation critical to understanding crystal form diversity
Several duplications and errors in existing patent disclosures were found
Acetic acid solvate of Sertraline HCl
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HT Salt Selection: SertralineHT Salt Selection: Sertraline
Experimental Design ~ 3,600 experiments Variety of
pharmaceutically acceptable counter ions Mono-, di- and tri-acidic
Range of stoichiometries Monoacidic: 1.05 equivalents Polyprotic: 0.55 and 1.05
Focused solvent array Thermal process method
Samples were heated to 65 °C for
2 h & cooled at 1 °C/min. to 25 °C
Results
18 crystalline salt forms identified
Multiple modifications of several of the salt forms were identified in this limited screen
Besylate
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Partial Results: Sertraline SaltsPartial Results: Sertraline Salts
Fo
rm A
Fo
rm B
PXRD patterns of samples from benzoate clusters
Bromide salt not overtly polymorphic
> 140 discrete samples from different conditions analyzed
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Bromide Salt of Sertraline: Crystal StructureBromide Salt of Sertraline: Crystal Structure
Study highlights the value of parallel polymorph and salt selection to elucidate optimal forms
View along the a axis of the single-crystal structure of sertraline HBr
Non centrosymmetric orthorhombic space group: P212121 2-D hydrogen-bonded network Primary motif: H-bonded chains (N-
H···Br) propagating along the b axis Secondary hydrogen bonds (C-H···Cl-C)
complete the two-dimensional network
Four molecules of the salt in the unit cell
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18 crystalline salt forms found 7 previously undisclosed crystalline salt forms
3 are not overtly polymorphic
Polymorphic behavior of pharmaceuticals is not readily predictable
even when seemingly minor changes to the composition are made
HT crystallization provides for a more comprehensive understanding of solid form diversity to enable selection of the optimal form for development
Remenar et al. Org. Proc. Res. Dev. in press (2003)
HT Salt Selection Sertraline: SummaryHT Salt Selection Sertraline: Summary
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NORVIR®: A ‘Real’ ProblemNORVIR®: A ‘Real’ Problem
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Excerpt from new product label: Store soft gelatin capsules in the refrigerator between 36-46°F (2-8°C) until dispensed.
Ritonavir BackgroundRitonavir Background
Case history: ABT-538 discovered Launch of semi-solid capsule/polymorph I Polymorph II appears, <50% solubility Massive effort to ‘recover’ the oral capsule Reformulated softgel capsule launched
1992199619981998 - 19991999
ONH
HN
NH
N
CH3
O
OHO
CH3H3CO
N
SS
NH3C
H3C
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Known polymorphs found 2 new forms found in the screen Reproducible methods of making
2000 conditions 32 solvents
Unary, binary and ternary mixtures
Varying super-saturation levels
> 50 solids formed
A: Form I (PXRD)
B: “Form III”
C: Form II (PXRD)
D: “Form IV”
Ritonavir HT ExperimentRitonavir HT ExperimentSimilarity
High
Low
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Ritonavir PXRD and Thermal AnalysisRitonavir PXRD and Thermal Analysis
I
II
III
V
IV
mp (oC) Hfus, J/g
122 78.2
125 87.8
78-82 60.3
97 32.0
116 59.6
* Chemburkar et al. Org. Proc. Res. Dev. 4, 413 (2000)
*
*
Formamide solvate
Hydrated
Form V hydrate isolated after slurrying in water All new forms comvert to Form I (initially) when
incubated in water
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Summary of Ritonavir Crystal FormsSummary of Ritonavir Crystal Forms
Form III: formamide solvate Form IV: obtained from acetonitrile and acetate solvents Form V: derived from III with moisture exposure
Forms IV and V eventually transform to form I
TransForm 2002 – 6 week effort
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Concluding RemarksConcluding Remarks
HT crystallization technologies enable a more comprehensive understanding of the solid forms of a compound
Multiple methods should be employed to make & characterize different solid forms
HT should be coupled with bench-top studies for full characterization & discovery of novel forms
Scientific validation for the approach continues to grow
HT should not be considered a substitute for good science but rather a complement to it
The HT process is automated, not automatic!
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AcknowledgementsAcknowledgements
S. Morissette, et al., “High- throughput Crystallization: Polymorphs, Salts, Co-crystals and Solvates of Pharmaceutical Solids,” Adv. Drug Delivery Rev., 56[3] 235-418 (2004).
TransForm Colleagues
Colin GardnerÖrn AlmarssonJulius RemenarMatt PetersonMike McPheeStephen SoukaseneHector Guzman Chris McNultyCameron OlbertTony LemmoSteve Ellis
Scientific Advisors
Michael Cima Joel BernsteinRoger DaveyLeslie LeiserowitzMoungi Bawendi
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“…the number of forms known for a given compound is proportional to the time and energy spent in research on that compound.” (McCrone, 1963)
How many experiments do you have to do?
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Sertraline HCl Acetic Acid Solvate Sertraline HCl Acetic Acid Solvate
a=9.1599Åb=8.8275Å =93.196ºc=12.0714Å
Monoclinic: P21
Acetic acid propagates a 1-D hydrogen bonded network with sertraline HCl between the carboxylic acid group and protonated secondary amine of the drug via the chloride ions
At room temperature, solvate converts to form V on desolvation at %RH > 35%
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Thermal microscopy Slurry conversion Recrystallization Exploration of a few salts
Typical methodologies Manual, bench-top process Average number of experiments ~ 10 -20 Turnaround time ~ 1-2 months Compound available ~ 1g Limited exploration of experimental space
[API]
Solvent
Process
Traditional Form ScreeningTraditional Form Screening
Polymorph Prediction Progress made but still a challenge Salt structure prediction currently computationally
intractable
Alternative approach needed to address shortcomings of existing solid form screening methods
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HT Analysis StrategyHT Analysis Strategy
I
II
III
IMPRACTICAL
IMPRACTICAL