Potential of Immobilized Artificial Membranes for Predicting Drug Penetration Across the Blood−Brain Barrier
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[1] C. Marcus,et al. Immobilized Artificial Membrane Chromatography: Surface Chemistry and Applications , 1991 .
[2] C. Pidgeon,et al. Immobilized Artificial Membranes — screens for drug membrane interactions , 1997 .
[3] V A Levin,et al. Relationship of octanol/water partition coefficient and molecular weight to rat brain capillary permeability. , 1980, Journal of medicinal chemistry.
[4] Q. Smith. Methods of Study , 1992 .
[5] Subhash C. Basak,et al. Predicting Blood-Brain Transport of Drugs: A Computational Approach , 1996, Pharmaceutical Research.
[6] C. Pidgeon,et al. Immobilized Artificial Membrane Chromatography Prediction of Drug Transport across Biological Barriers , 1993 .
[7] M. Lagarde,et al. Fatty acid composition of brain capillary endothelial cells: effect of the coculture with astrocytes. , 1995, Journal of lipid research.
[8] S. Krämer,et al. The pH-Dependence in the Partitioning Behaviour of (RS)-[3H]Propranolol Between MDCK Cell Lipid Vesicles and Buffer , 1996, Pharmaceutical Research.
[9] I. Romero,et al. Transporting therapeutics across the blood-brain barrier. , 1996, Molecular medicine today.
[10] M. Khaledi,et al. Hydrophobicity estimations by reversed-phase liquid chromatography. Implications for biological partitioning processes. , 1993, Journal of chromatography.
[11] Harpreet S. Chadha,et al. Determination of solute lipophilicity, as log P(octanol) and log P(alkane) using poly(styrene–divinylbenzene) and immobilised artificial membrane stationary phases in reversed-phase high-performance liquid chromatography , 1997 .
[12] A. Leo,et al. Substituent constants for correlation analysis in chemistry and biology , 1979 .
[13] W. Pardridge. Transport of small molecules through the blood-brain barrier: biology and methodology. , 1995, Advanced drug delivery reviews.
[14] M. Bradbury. The blood‐brain barrier , 1993, Experimental physiology.
[15] A. Seelig,et al. A method to determine the ability of drugs to diffuse through the blood-brain barrier. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[16] W. Pardridge,et al. Transport of steroid hormones through the rat blood-brain barrier. Primary role of albumin-bound hormone. , 1979, The Journal of clinical investigation.
[17] R Griffiths,et al. Development of a new physicochemical model for brain penetration and its application to the design of centrally acting H2 receptor histamine antagonists. , 1988, Journal of medicinal chemistry.
[18] R. Kaliszan,et al. Chromatographic hydrophobicity parameter determined on an immobilized artificial membrane column: relationships to standard measures of hydrophobicity and bioactivity , 1994 .
[19] C. Pidgeon,et al. Membrane partition coefficients chromatographically measured using immobilized artificial membrane surfaces. , 1995, Analytical chemistry.
[20] A. Waseem Malick,et al. The use of the intestinal epithelial cell culture model, Caco-2, in pharmaceutical development , 1996 .
[21] W H Oldendorf,et al. Comparison of lipid-mediated blood-brain-barrier penetrability in neonates and adults. , 1982, The American journal of physiology.