In Silico Prediction of Blood Brain Barrier Permeability: An Artificial Neural Network Model
- 9 November 2005
- journal article
- research article
- Published by American Chemical Society (ACS) in Journal of Chemical Information and Modeling
- Vol. 46 (1), 289-297
- https://doi.org/10.1021/ci050303i
Abstract
This paper has two objectives: first to develop an in silico model for the prediction of blood brain barrier permeability of new chemical entities and second to find the role of active transport specific to the P-glycoprotein (P-gp) substrate probability in blood brain barrier permeability. An Artificial Neural Network (ANN) model has been developed to predict the ratios of the steady-state concentrations of drugs in the brain to those in the blood (logBB) from their molecular structural parameters. Seven descriptors including P-gp substrate probability have been used for model development. The developed model is able to capture a relationship between P-gp and logBB. The predictive ability of the ANN model has also been compared with earlier computational models.Keywords
This publication has 38 references indexed in Scilit:
- In silico ADME modelling: prediction models for blood–brain barrier permeation using a systematic variable selection methodBioorganic & Medicinal Chemistry, 2005
- TOPS‐MODE Approach for the Prediction of Blood–Brain Barrier PermeationJournal of Pharmaceutical Sciences, 2004
- Correlation and prediction of a large blood–brain distribution data set—an LFER studyEuropean Journal of Medicinal Chemistry, 2001
- High-Throughput Prediction of Blood−Brain Partitioning: A Thermodynamic ApproachJournal of Chemical Information and Computer Sciences, 2000
- P-Glycoprotein, a gatekeeper in the blood–brain barrierAdvanced Drug Delivery Reviews, 1999
- Drug transfer across the blood‐brain barrier and improvement of brain deliveryFundamental & Clinical Pharmacology, 1999
- Substituted 4-Acylpyrazoles and 4-Acylpyrazolones: Synthesis and Multidrug Resistance-Modulating ActivityJournal of Medicinal Chemistry, 1998
- Relationship between immobilised artificial membrane chromatographic retention and the brain penetration of structurally diverse drugsJournal of Pharmaceutical and Biomedical Analysis, 1997
- Electron Spin Resonance Study of Radiosterilization of Antibiotics: CeftazidimeJournal of Pharmaceutical Sciences, 1994
- Development of a new physicochemical model for brain penetration and its application to the design of centrally acting H2 receptor histamine antagonistsJournal of Medicinal Chemistry, 1988