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Optimizing Experimental Conditions Solubility and BSA

Several attempts have been made to estimate the dose required in humans in relation to a drug s potency, and to put this into the context of solubility and permeability for an optimal oral drug [2, 3]. A relatively simple example of this is where a 1.0 mg kg-1 dose is required in humans, then 52 pg mL 1 solubility is needed if the permeability is intermediate (20-80%) [3]. This solubility corresponds approximately to 100 pM of a compound with a MW of 400 g mol-1. Most screening activities for permeability determinations in, e.g., Caco-2, are made at a concentration of 10 pM or lower due to solubility restrictions. The first implication of this is that the required potency for these compounds needs to correspond to a dose of 0.1 mg kg-1 in humans if the drug should be considered orally active. Another implication would be the influence of carrier-mediated transport (uptake or efflux), which is more evident at low concentrations. This could result in low permeability coefficients for compounds interacting with efflux transporters at the intestinal membrane and which could either be saturated or of no clinical relevance at higher concentrations or doses. [Pg.110]

There are several positive factors using BSA in the basolateral medium. First, it mimics the in vivo situation where the circulating blood provides an excellent base for sink conditions due to a large volume and content of serum proteins such as albumin (serum protein content and alpha-glycoproteins) [108]. Second, serum albumin hinders adsorption onto plastic surfaces and filters and thereby stops the [Pg.110]


See other pages where Optimizing Experimental Conditions Solubility and BSA is mentioned: [Pg.109]    [Pg.145]   


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