posted on 2013-05-06, 00:00authored bySophia
Y. K. Fong, Mary Liu, Hai Wei, Raimar Löbenberg, Isadore Kanfer, Vincent H. L. Lee, Gordon L. Amidon, Zhong Zuo
The Biopharmaceutical Classification
System (BCS), which is a scientific
approach to categorize active drug ingredient based on its solubility
and intestinal permeability into one of the four classes, has been
used to set the pharmaceutical quality standards for drug products
in western society. However, it has received little attention in the
area of Chinese herbal medicine (CHM). This is likely, in part, due
to the presence of multiple active components as well as lack of standardization
of CHM. In this report, we apply BCS classification to CHMs provisionally
as a basis for establishing improved in vitro quality
standards. Based on a top-200 drugs selling list in China, a total
of 31 CHM products comprising 50 official active marker compounds
(AMCs) were provisionally classified according to BCS. Information
on AMC content and doses of these CHM products were retrieved from
the Chinese Pharmacopoeia. BCS parameters including solubility and
permeability of the AMCs were predicted in silico (ACD/Laboratories). A BCS classification of CHMs according to biopharmaceutical
properties of their AMCs is demonstrated to be feasible in the current
study and can be used to provide a minimum set of quality standards.
Our provisional results showed that 44% of the included AMCs were
classified as Class III (high solubility, low permeability), followed
by Class II (26%), Class I (18%), and Class IV (12%). A similar trend
was observed when CHMs were classified in accordance with the BCS
class of AMCs. Most (45%) of the included CHMs were classified as
Class III, followed by Class II (16%), Class I (10%), and Class IV
(6%); whereas 23% of the CHMs were of mixed class due to the presence
of multiple individual AMCs with different BCS classifications. Moreover,
about 60% of the AMCs were classified as high-solubility compounds
(Class I and Class III), suggesting an important role for an in vitro dissolution test in setting quality control standards
ensuring consistent biopharmaceutical quality for the commercially
available CHM products. That is, provisionally, more than half of
the AMCs of the top-selling CHMs included in this study would be candidates
for a bioequivalence (BE) biowaiver, based on WHO recommendations
and EMEA guidelines. Thus a dissolution requirement on these AMCs
would represent a significant advance in the pharmaceutical quality
of CHM today.