Approximately 40 % drugs in the market are having poor aqueous solubility related problems and 70
% molecules in discovery pipeline are being practically insoluble in water. Nanocrystals is a prominent tool to
solve the issue related to poor aqueous solubility and helps in improving the bioavailability of many drugs as
reported in the literature. Nanocrystals can be prepared by top down methods, bottom up methods and combination
methods. Many patented products such as Nanocrystals®, DissoCubes®, NANOEDGE® and SmartCrystals
®, etc., are available, which are based on these three preparation methodologies. The particle size reduction
resulted into unstable nanocrystalline system and the phenomenon of Ostawald ripening occurs. This instability
issue could be resolved by using an appropriate stabilizers or combination of stabilizers. The nanosuspensions
could be transformed to the solid state to prevent particle aggregation in liquid state by employing various unit
operations such as lyophilisation, spray drying, granulation and pelletisation. These techniques are well known
for their scalability and continuous nanocrystal formation advantages. Nanocrystals can be characterized by using
scanning electron microscopy, transmission electron microscopy, atomic force microscopy, differential scanning
calorimetry, fourier transform infrared spectroscopy, powdered x- ray diffraction and photon correlation spectroscopy.
The downscaling of nanocrystals will enable rapid optimization of nanosuspension formulation in parallel
screening design of preclinical developmental stage drug moieties. One of the most acceptable advantages of
nanocrystals is their wide range of applicability such as oral delivery, ophthalmic delivery, pulmonary delivery,
transdermal delivery, intravenous delivery and targeting (brain and tumor targeting). The enhancement in market
value of nanocrystals as well as the amount of nanocrystal products in the market is gaining attention to be used
as an approach in order to get commercial benefits.
A highly sensitive and selective liquid chromatography-tandem mass spectrometry method for the determination of tetrahydrocannabinol (THC), cannabidiol, and rimonabant in rat plasma was developed. Analytes and the internal standard were extracted from plasma using a combination of protein precipitation followed by liquid-liquid extraction. Chromatographic separation was done using Waters Symmetry C18, 4.6 × 150 mm, 5 um column using 10 mm ammonium formate buffer and methanol. The total run time was 6 min, and separation was achieved using isocratic elution at a flow rate of 1 mL/min using a 10:90 (aqueous: organic) ratio. The ionization of the analytes was optimized using electrospray ionization in positive mode, and multiple reaction mode was used for this analysis. This method showed linearity from 0.1 to 100 ng/ml for all the analytes and was validated according to FDA Bioanalytical Method Validation Guidance in terms of accuracy, precession, linearity, stability, matrix effect, recovery, and stability. This method was successfully applied to characterize the pharmacokinetics of THC in rats after continuous passive smoke exposure for 50 min when rimonabant was co-administered with cannabis smoke. Maximum concentration (C) for THC was observed immediately after rats were removed from the exposure chamber (10 min post completion) which declined with a terminal half-life of 3.7 h and clearance was calculated to be 1.1 (L/h). Rimonabant (i.p) at a dose of 3 mg/kg was rapidly absorbed and maximum concentration (Cmax) was seen at 11 min which declined with a terminal half-life of 5.4 h and clearance was calculated to be 2.0 (L/h). Exposure AUC (h* μg/L) for THC and rimonabant were 13.9 and 457.6 respectively. As this method was highly sensitive and required only 50 μL of plasma, it is applicable in rodent models that assess the exposure-response relationships of these drugs.
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