Assembling the Puzzle of Taxifolin Polymorphism

Overview

Journal Molecules

Publisher MDPI

Specialty Biology

Date 2020 Nov 25

PMID 33233608

Citations 6

Authors

Roman P Terekhov

Irina A Selivanova

Nonna A Tyukavkina

Igor R Ilyasov

Anastasiya K Zhevlakova

Alexander V Dzuban

Anatoliy G Bogdanov

Georgiy N Davidovich

Gennadii V Shylov

Andrey N Utenishev

Dmitriy Yu Kovalev

Anatoliy A Fenin

Tatyana G Kabluchko

Affiliations

Soon will be listed here.

Abstract

A large amount of the current literature dedicated to solid states of active pharmaceutical ingredients (APIs) pays special attention to polymorphism of flavonoids. Taxifolin (also known as dihydroquercetin) is an example of a typical flavonoid. Some new forms of taxifolin have been reported previously, however it is still unclear whether they represent polymorphic modifications. In this paper, we tried to answer the question about the taxifolin polymorphism. Taxifolin microtubes and taxifolin microspheres were synthesized from raw taxifolin API using several methods of crystal engineering. All forms were described with the help of spectral methods, scanning electron microscopy (SEM), X-ray powder diffraction (XRPD), and thermal analysis (TA). SEM reveals that the morphology of the solid phase is very specific for each sample. Although XRPD patterns of raw taxifolin and microtubes look similar, their TA profiles differ significantly. At the same time, raw taxifolin and microspheres have nearly identical thermograms, while XRPD shows that the former is a crystalline and the latter is an amorphous substance. Only the use of complex analyses allowed us to put the puzzle together and to confirm the polymorphism of taxifolin. This article demonstrates that taxifolin microtubes are a pseudopolymorphic modification of raw taxifolin.

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