2014
DOI: 10.1016/j.powtec.2014.03.032
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A control strategy for bioavailability enhancement by size reduction: Effect of micronization conditions on the bulk, surface and blending characteristics of an active pharmaceutical ingredient

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Cited by 39 publications
(28 citation statements)
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“…See [50] frequently applied in the pharmaceutical field for dissolution enhancement of poorly water-soluble drugs. Using this technique, microparticles are produced by reducing large drug crystals down to the micron (<10 μm) range [45][46][47]. Because the dissolution rate of a drug is proportional to its surface area, a major benefit of microcrystallization is enhanced rate of dissolution [48].…”
Section: Resolution Of Inflammation: Capitalizing On Nature's Defensementioning
confidence: 99%
“…See [50] frequently applied in the pharmaceutical field for dissolution enhancement of poorly water-soluble drugs. Using this technique, microparticles are produced by reducing large drug crystals down to the micron (<10 μm) range [45][46][47]. Because the dissolution rate of a drug is proportional to its surface area, a major benefit of microcrystallization is enhanced rate of dissolution [48].…”
Section: Resolution Of Inflammation: Capitalizing On Nature's Defensementioning
confidence: 99%
“…Properties of the API, such as small particle size [8, 9] and needle-like morphology [10, 11] can lead to processing limitations such as poor flowability [12], difficulties with blending [9] as well as undesirable adhesion [13] to surfaces such as tablet punches or feeder walls [14]. These issues are addressed by selecting an appropriate processing route and/or by adding agents like glidants, lubricants or surfactants [15–18].…”
Section: Introductionmentioning
confidence: 99%
“…Incomplete de-aggregation has previously been observed despite the use of much higher mixing speeds (Kale et al, 2009) and significantly longer mixing durations , Olusanmi et al, 2014. Very long blending times may indeed be necessary to fully remove such aggregates in formulations containing poorly water-soluble drug compounds (Nystrom & Westerberg, 1986) which would dramatically reduce the efficiency of the manufacturing process.…”
Section: Blendingmentioning
confidence: 99%
“…Whilst longer mixing times (Kale et al, 2009), higher mixing speeds (De Villiers, 1997, Chaudhuri et al, 2006 and lower fill levels (Sudah et al, 2002, Llusa & Muzzio, 2008 can lead to improvements in the blend homogeneity of cohesive powders, incomplete dispersion of loosely bound aggregates has previously been reported (Olusanmi et al, 2014, Kale et al, 2009. This suggests that the blending process may not be sufficiently aggressive to ensure complete dispersion of aggregates of cohesive APIs within formulated systems.…”
Section: Introductionmentioning
confidence: 99%