The sole participation of MDR1 in digoxin net secretory transport in Calu-3 layers could not be demonstrated and the contribution of an ATP-independent transporter such as a basolaterally located member of the OATP www.selleckchem.com/products/blu9931.html family was therefore hypothesised. Identification of this unknown transporter might provide a better understanding of the distribution of drugs in the pulmonary tissue. This work was carried out under the Targeted
Therapeutics, Centre for Doctoral Training at the University of Nottingham (Grants EP/D501849/1 and EP/I01375X/1) and AstraZeneca. The authors would like to thank AstraZeneca, the Engineering and Physical Science Research Council (EPSRC, UK) and the University of Nottingham for their financial support. “
“Active pharmaceutical ingredients (API) commonly exist in various crystalline forms, known as polymorphs, with different molecular arrangements and/or conformations. Multi-component crystals, where one or more additional compounds are incorporated into the crystal lattice, may also be formed and include salts, co-crystals, and solvates. A widely observed solvate is the hydrate, where water molecules have been incorporated into the API’s crystal lattice. Single and multi-component API solids may also exist in a higher energy, disordered amorphous form. The solid-state
form PI3K Inhibitor high throughput screening of an API is an important parameter in the development of oral dosage formulations. It has an effect on the chemical and physical stability, processibility, solubility, dissolution rate, and potentially Libraries bioavailability of the API. In dynamic environments, solid-state changes in pharmaceutical materials are common: there have been numerous reports on solid-state forms undergoing changes during processing [1], [2] and [3]
and storage and dissolution [4], [5] and [6]. Solid-state changes that occur during dissolution when a metastable form (higher solubility) converts to a stable form (lower solubility) through precipitation from a supersaturated solution are called solvent-mediated phase transformations [7]. The kinetics of a solvent-mediated phase transformation are determined by the relative rates of dissolution and growth of the two phases [7] and [8]. Solution-mediated transformations of APIs are well documented. science Murphy et al. [5] studied the conversion of carbamazepine (CBZ) form III to the dihydrate form in samples undergoing dissolution testing. They found that the conversion time depended on grinding and storage conditions of the form III [5]. Savolainen et al. [9] studied the dissolution of amorphous indomethacin (IMC) and compared this to the dissolution of α and γ forms of IMC. As expected, they found that the initial intrinsic dissolution rate for amorphous IMC was faster than for either crystalline form. However, the dissolution rate decreased as the sample surfaces began to crystallize to α-IMC during dissolution. Aaltonen et al.
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