Islatravir Dimer: Crystal Form Dependence of a Radiation-Induced Degradation Product

Topolski, Josey E.; Confer, Alex M.; Hu, Mengwei; Brunskill, Andrew; Liu, Yong; Gunsch, Matthew; Wang, Xiao; DaSilva, Jimmy; Newman, Justin; Mozziconacci, Olivier; Ekladious, Iriny; Aggarwal, Pankaj

doi:10.1021/acs.molpharmaceut.3c00856

Mol. Pharmaceutics

2024

DOI: 10.1021/acs.molpharmaceut.3c00856

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Islatravir Dimer: Crystal Form Dependence of a Radiation-Induced Degradation Product

Josey E. Topolski,

Alex M. Confer,

Mengwei Hu

et al.

Abstract: A rare example of crystal form-dependent, gamma radiation-induced degradation is presented. Islatravir is known to exist in several polymorphic forms, but only one of these forms shows the generation of a specific dimer degradation product under gamma irradiation. Extended gamma irradiation studies demonstrated that only one of the known crystalline forms shows an appreciable rate of dimer formation. Additionally, this dimer is not observed to form under other forced stress conditions. We present the structura… Show more

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Interrogating the Solid–Solid Phase Transition Behavior of a Molecular Crystal with a Diverse Range of Solid-State Analytical Techniques and Computational Predictions

Zhu,

Kelly,

Cao

et al. 2024

Crystal Growth & Design

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The solid−solid phase transition behavior of 2-(4-(hydroxymethyl)phenyl)ethan-1-aminium chloride or HPEA-Cl was thoroughly investigated using thermal analytical techniques (differential scanning calorimetry (DSC) and hot-stage microscopy), single crystal X-ray diffraction, Raman microscopy, variable temperature synchrotron X-ray powder diffraction (VT-SXRPD), and crystal structure prediction (CSP). HPEA-Cl exists in at least three crystalline modifications: Forms 1, 2, and 3. Upon heating, Form 1 undergoes a solid−solid transition to Form 2 at ca. 151− 153 °C. The first-order transition is consistent with a nontopotactic or nucleation and growth mechanism. Form 3 is highly metastable and rapidly transforms to either Forms 1 or 2. To complicate matters, the nucleation of Form 3 is stochastic. These two observations made it extremely difficult to characterize this physical form. Utilizing ultrafast continuous in situ VT-SXRPD to monitor phase transition behavior, we also performed CSP and free energy calculations to comprehend significant enthalpy changes during the phase transition. This study highlights the necessity of combining various solid-state characterization techniques and computational predictions to interrogate the solid−solid transition behaviors of molecular crystals.

show abstract

Interrogating the Solid–Solid Phase Transition Behavior of a Molecular Crystal with a Diverse Range of Solid-State Analytical Techniques and Computational Predictions

Zhu,

Kelly,

Cao

et al. 2024

Crystal Growth & Design

View full text Add to dashboard Cite

show abstract

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Islatravir Dimer: Crystal Form Dependence of a Radiation-Induced Degradation Product

Cited by 1 publication

References 16 publications

Interrogating the Solid–Solid Phase Transition Behavior of a Molecular Crystal with a Diverse Range of Solid-State Analytical Techniques and Computational Predictions

Interrogating the Solid–Solid Phase Transition Behavior of a Molecular Crystal with a Diverse Range of Solid-State Analytical Techniques and Computational Predictions

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