The major problem in understanding the therapeutically targeted drug delivery system in the
deeper airways of the human lung is the lack of adequate data of particle transport and …

The understanding of complex inhalation and transport processes of pollutant particles
through the human respiratory system is important for investigations into dosimetry and …

Quantitative data on aerosol deposition in the human respiratory tract are useful for
understanding the causes of certain lung diseases and for designing efficient drug delivery …

Understanding the transportation and deposition (TD) of inhaled aerosol particles in human
lung airways is important for health risk assessment and therapeutic efficiency of targeted …

Understanding nano-particle inhalation in human lung airways helps targeted drug delivery
for treating lung diseases. A wide range of numerical models have been developed to …

For respiratory health risk assessment, it is essential to evaluate the transportation and
deposition (TD) of pollutant particles in human lung airways, which are responsible for lung …

Simulation of the dynamics and disposition of inhaled particles within human lungs is an
invaluable tool in both the development of inhaled pharmacologic drugs and the risk …

The transport and deposition (TD) of inhaled aerosol particles in airways of human lungs are
important for therapeutically targeted drug delivery in respiratory tracts. The airflow and …

A representative human tracheobronchial tree has been geometrically represented with
adjustable triple-bifurcation units (TBUs) in order to effectively simulate local and global …

To evaluate the regional delivery of conventional aerosol medications, a new whole-lung
computational fluid dynamics modeling approach was applied for metered dose inhaler …