Add to ORKGChemicals, including some systemically administered xenobiotics and their biotransformations, can be detected noninvasively using skin swabs and untargeted metabolomics analysis. We sought to understand the principal drivers that determine whether a drug taken orally or systemically is likely to be observed on the epidermis by using a random forest classifier to predict which drugs would be detected on the skin. A variety of molecular descriptors describing calculated properties of drugs, such as measures of volume, electronegativity, bond energy, and electrotopology, were used to train the classifier. The mean area under the receiver operating characteristic curve was 0.71 for predicting drug detection on the epidermis, and the SHapley Add...
In recent years, a number of machine learning models for the prediction of the skin sensitization po...
We report for the first time label-free quantification of xenobiotic metabolizing enzymes (XME), tra...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
Chemicals, including some systemically administered xenobiotics and their biotransformations, can be...
Drug monitoring is crucial for providing accurate and effective care; however, current methods (e.g....
BACKGROUND: Human skin has the capacity to metabolise foreign chemicals (xenobiotics), but knowledge...
Clinical testing typically relies on invasive blood draws and biopsies. Alternative methods of sampl...
models of human skin have been developed for the purpose of safety assessment of chemicals. The sui...
Background: A great deal of in silico estimation methods were proposed for skin concentration and pe...
Skin has been paid attention as a site of application of prescription drugs, over-the-counter drugs ...
Human skin has the capacity to metabolise foreign chemicals (xenobiotics), but knowledge of the vari...
Assessing the bioavailability of drug molecules at the site of action provides better insight into t...
In recent years a number of machine learning models for the prediction of the skin sensitization pot...
The skin permeability (Kp) defines the rate of a chemical penetrating across the stratum corneum. Th...
In recent years, a number of machine learning models for the prediction of the skin sensitization po...
We report for the first time label-free quantification of xenobiotic metabolizing enzymes (XME), tra...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...
Chemicals, including some systemically administered xenobiotics and their biotransformations, can be...
Drug monitoring is crucial for providing accurate and effective care; however, current methods (e.g....
BACKGROUND: Human skin has the capacity to metabolise foreign chemicals (xenobiotics), but knowledge...
Clinical testing typically relies on invasive blood draws and biopsies. Alternative methods of sampl...
models of human skin have been developed for the purpose of safety assessment of chemicals. The sui...
Background: A great deal of in silico estimation methods were proposed for skin concentration and pe...
Skin has been paid attention as a site of application of prescription drugs, over-the-counter drugs ...
Human skin has the capacity to metabolise foreign chemicals (xenobiotics), but knowledge of the vari...
Assessing the bioavailability of drug molecules at the site of action provides better insight into t...
In recent years a number of machine learning models for the prediction of the skin sensitization pot...
The skin permeability (Kp) defines the rate of a chemical penetrating across the stratum corneum. Th...
In recent years, a number of machine learning models for the prediction of the skin sensitization po...
We report for the first time label-free quantification of xenobiotic metabolizing enzymes (XME), tra...
“This material is presented to ensure timely dissemination of scholarly and technical work. Copyrigh...