Add to ORKGAbstract The following chapter gives an overview of instrumented approaches to investigate the interactions of orally or pulmonary administered formulations with epithelial cell cultures in vitro. The first section is focused on the combined assessment of drug release/dissolution and subsequent absorp-tion/permeation for solid oral dosage forms. Experimental approaches to mimic the complex physiologically surroundings in the gastrointestinal tract are pre-sented as well as combinations of dissolution and permeation apparatus. The second part describes different experimental approaches to simultane-ously assess deposition and subsequent absorption of pharmaceutical aerosol formulations, typically by adapting some existing impactor/impinger d...
Studies centered on pulmonary drug delivery have primarily focused on new device technologies to imp...
Background: The use of non-invasive inhaled aerosols for pulmonary drug delivery continues to grow. ...
AbstractA rat respiratory epithelial cell culture system for in vitro prediction of drug pulmonary a...
Background Pulmonary drug delivery is characterized by short onset times of the effects and an incre...
© 2014 Elsevier Inc. During the process of inhalable formulation development a deep knowledge of the...
Pulmonary drug delivery is characterized by short onset times of the effects and an increased therap...
Pulmonary drug delivery is characterized by short onset times of the effects and an increased therap...
Although the mucus layer is the first biological barrier encountered by inhaled drugs upon their dep...
© 2018, American Association of Pharmaceutical Scientists. The purpose of this study was to present ...
BACKGROUND: The lung comprises an interesting route of administration not only for topical drugs but...
A modified Astra type multistage liquid impinger (MSLI) with integrated bronchial cell monolayers wa...
The respiratory route is an important portal for human exposure to a large variety of substances. Co...
The lung is more and more of interest for local as well as for systemic administration of drugs. Nev...
The development of new formulations for pulmonary drug delivery is a challenge on its own. New in vi...
To effectively predict the fate of formulated inhalation compounds delivered to the lung, a model of...
Studies centered on pulmonary drug delivery have primarily focused on new device technologies to imp...
Background: The use of non-invasive inhaled aerosols for pulmonary drug delivery continues to grow. ...
AbstractA rat respiratory epithelial cell culture system for in vitro prediction of drug pulmonary a...
Background Pulmonary drug delivery is characterized by short onset times of the effects and an incre...
© 2014 Elsevier Inc. During the process of inhalable formulation development a deep knowledge of the...
Pulmonary drug delivery is characterized by short onset times of the effects and an increased therap...
Pulmonary drug delivery is characterized by short onset times of the effects and an increased therap...
Although the mucus layer is the first biological barrier encountered by inhaled drugs upon their dep...
© 2018, American Association of Pharmaceutical Scientists. The purpose of this study was to present ...
BACKGROUND: The lung comprises an interesting route of administration not only for topical drugs but...
A modified Astra type multistage liquid impinger (MSLI) with integrated bronchial cell monolayers wa...
The respiratory route is an important portal for human exposure to a large variety of substances. Co...
The lung is more and more of interest for local as well as for systemic administration of drugs. Nev...
The development of new formulations for pulmonary drug delivery is a challenge on its own. New in vi...
To effectively predict the fate of formulated inhalation compounds delivered to the lung, a model of...
Studies centered on pulmonary drug delivery have primarily focused on new device technologies to imp...
Background: The use of non-invasive inhaled aerosols for pulmonary drug delivery continues to grow. ...
AbstractA rat respiratory epithelial cell culture system for in vitro prediction of drug pulmonary a...