Poorly Soluble Marketed Drugs Display Solvation Limited Solubility

Bergström, Christel A S; Wassvik, Carola M.; Johansson, Kajsa; Hubatsch, Ina

doi:10.1021/jm0706416

Cited by 158 publications

(108 citation statements)

References 14 publications

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“…Figure 19 is a plot of the above comparison. Notably, the logS 0 values from [118] are 1-3 (or more) log units lower than the average values reported from other published studies, with the exception of that of itraconazole. Although there may be a number of plausible explanations for the differences, it might be useful to consider the possibility that the double-centrifugation step led to under-estimated solubility, due to adsorption to the glass surfaces of the transfer vials.…”

Section: Surface Adsorption By "Just-saturated" Sample Solutioncontrasting

confidence: 67%

“…Although there may be a number of plausible explanations for the differences, it might be useful to consider the possibility that the double-centrifugation step led to under-estimated solubility, due to adsorption to the glass surfaces of the transfer vials. In the case of itraconazole, the value reported by Glomme et al [117] may have had more adsorption than even in [118]. The former group used plastic UniPrep filter vials: "Even with the UniPrep filters, a loss of drug can sometimes occur through adsorption on the filter membrane.…”

Section: Surface Adsorption By "Just-saturated" Sample Solutionmentioning

confidence: 98%

“…However, centrifugation as a method for separating solid from saturated solution is not free from similar adsorption effects. Consider the Bergström et al [118] Table 2 lists the intrinsic solubility values of twelve practically-insoluble drugs taken from the above study, and compares them to corresponding averaged intrinsic solubilities taken from other published studies (with all values normalized to 25 °C [26]). Figure 19 is a plot of the above comparison.…”

Section: Surface Adsorption By "Just-saturated" Sample Solutionmentioning

confidence: 99%

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Equilibrium solubility measurement of ionizable drugs – consensus recommendations for improving data quality

et al. 2016

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Section: Surface Adsorption By "Just-saturated" Sample Solutioncontrasting

confidence: 67%

Section: Surface Adsorption By "Just-saturated" Sample Solutionmentioning

confidence: 98%

Section: Surface Adsorption By "Just-saturated" Sample Solutionmentioning

confidence: 99%

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Equilibrium solubility measurement of ionizable drugs – consensus recommendations for improving data quality

et al. 2016

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“…In this paper, dissolution conditions were selected based on the following considerations: the barrier effect for diffusion caused by dialysis bags, which is a common method for dissolution testing, should be avoided; 28 the centrifugation method is used extensively for solid-liquid separation, but is not able to separate out small coenzyme Q 10 nanocrystals (a suspension of 139 nm nanocrystals was centrifuged at 30,000 rpm for one hour, and the size distributions of the top, middle, and bottom layers were all the same). There are also reports of using ultracentrifugation or centrifuging twice, 29,30 but this takes a considerably longer time and is conducted at a low temperature, which changes the drug dissolution conditions; submicron particles, eg, 80 nm, can easily pass through common filters ($0.1 µm), 4,31 and the three-layer filters described in the previous section are not appropriate for timely sampling. Although in vitro dissolution is often used to predict the in vivo behavior of drugs and experiments are usually carried out at 37°C, the temperature was set at 25°C considering the change in temperature during filtration with a 0.05 µm filter and the conditions being consistent with solubility measurement.…”

Section: In Vitro Dissolution Studymentioning

confidence: 99%

Effect of particle size on solubility, dissolution rate, and oral bioavailability: evaluation using coenzyme Q10 as naked nanocrystals

Sun¹,

Wang²,

Sui³

et al. 2012

IJN

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In this paper work, four naked nanocrystals (size range 80–700 nm) were prepared without any surfactant or polymer using the solvent/nonsolvent method. The effects of particle size on their solubility, dissolution, and oral bioavailability were investigated. Solubility and dissolution testing were performed in three types of dissolution medium, and the studies demonstrated that the equilibrium solubilities of coenzyme Q 10 nanocrystals and bulk drugs were not affected by the dissolution media but the kinetic solubilities were. Kinetic solubility curves and changes in particle size distribution were determined and well explained by the proposed solubilization model for the nanocrystals and bulk drugs. The particle size effect on dissolution was clearly influenced by the diffusion coefficients of the various dissolution media, and the dissolution velocity of coenzyme Q 10 increased as particle size decreased. The bioavailability of coenzyme Q 10 after oral administration in beagle dogs was improved by reducing the particle size. For 700 nm nanocrystals, the AUC 0–48 was 4.4-fold greater than that for the coarse suspensions, but a further decrease in particle size from 700 nm to 120 nm did not contribute to improvement in bioavailability until the particle size was reduced to 80 nm, when bioavailability was increased by 7.3-fold.

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“…However, an increasing number of new drug compounds exhibit poor aqueous solubility, a slow rate of dissolution and/or poor intestinal permeability, making effective oral drug delivery increasingly challenging (Bergstrom et al 2007;Newman et al 2008). Innovative drug delivery systems have the potential to facilitate an improvement in oral bioavailability compared to current drug formulations.…”

Section: Introductionmentioning

confidence: 99%