Water plays a key role in the co-crystallization of active
pharmaceutical ingredients
There is much more to drug
development than simply identifying a potent active pharmaceutical ingredient
(API). Scientists must ensure that the API can tolerate the production process,
remain stable during storage and distribution, and behave appropriately inside
the patient’s body after administration. One emerging technique for improving
the performance of APIs with non-ideal physicochemical properties is to
co-crystallize them with a second compound that modulates their behavior.
Srinivasulu Aitipamula and co-workers at the A*STAR Institute of Chemical and
Engineering Sciences have now developed a novel route for preparing such
co-crystals1.
The researchers have discovered
that adding water droplets can help to form co-crystals of caffeine, a compound
known to act as a central nervous system stimulant and a muscle relaxant.
Caffeine is inherently unstable to humidity — a property that can be improved
by forming co-crystals with biocompatible compounds such as 4-hydroxybenzoic
acid (4HBA). Computer models predict that co-crystals of caffeine and 4HBA in
the ratio of 1:1 should form the most stable structure. To date, however,
researchers have only been able to produce 2:1 and 1:2 co-crystals.
Aitipamula and his team have now
successfully formed 1:1 co-crystals of caffeine and 4HBA, in the form of a
monohydrate. By grinding together a 1:1 mixture of the two components along
with two drops of water, a crystal structure was formed in which each pair of
crystallization partners is partly held together by a water molecule.
According to Aitipamula, the key
to water’s ability to produce the 1:1 co-crystal is its capacity to both donate
and accept hydrogen bonds — the intermolecular force that holds co-crystals
components together. “In the case of the caffeine-4HBA co-crystal hydrate,
unused hydrogen bond acceptors and donors are satisfied by forming hydrogen
bonds with the water molecule,” he says. Without water, the number of hydrogen
bond donors and acceptors is unbalanced, resulting in the preferential
formation of the 2:1 and 1:2 crystals instead.
The process also works for other
APIs, as the researchers have found. They have generated a 1:1 co-crystal
hydrate of 4HBA with piracetam, a drug used to treat memory and balance
problems. The results suggest that forming hydrates offers an alternative way
to generate co-crystals with particular ratios of constituents, expanding the
options for forming pharmaceutical materials.
The researchers are currently
focused on developing new co-crystals for APIs and studying their
physicochemical properties. “Our primary emphasis is to target APIs that pose
problems in pre-formulation and dissolution,” Aitipamula says.
The A*STAR-affiliated researchers
contributing to this research are from the Institute of Chemical and Engineering
Sciences
References
- Aitipamula, S., Chow, P. S. & Tan, R. B. H.
Co-crystals of caffeine and piracetam with 4-hydroxybenzoic acid:
Unravelling the hidden hydrates of 1:1 co-crystals. CrystEngComm 14,
2381–2385 (2012). | article
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