Olfactory targeting of microparticles through inhalation and bi-directional airflow: effect of particle size and nasal anatomy
Background: Targeting drugs to the olfactory region in the nasal cavity can bypass the
restrictive blood–brain barrier and enhance their direct delivery to the brain. However …
restrictive blood–brain barrier and enhance their direct delivery to the brain. However …
Olfactory Targeting of Microparticles Through Inhalation and Bi-directional Airflow: Effect of Particle Size and Nasal Anatomy.
SB Yarragudi, H Kumar, R Jain, M Tawhai… - Journal of Aerosol …, 2020 - europepmc.org
Background: Targeting drugs to the olfactory region in the nasal cavity can bypass the
restrictive blood-brain barrier and enhance their direct delivery to the brain. However …
restrictive blood-brain barrier and enhance their direct delivery to the brain. However …
Olfactory Targeting of Microparticles Through Inhalation and Bi-directional Airflow: Effect of Particle Size and Nasal Anatomy
SB Yarragudi, H Kumar, R Jain… - Journal of aerosol …, 2020 - pubmed.ncbi.nlm.nih.gov
Background: Targeting drugs to the olfactory region in the nasal cavity can bypass the
restrictive blood-brain barrier and enhance their direct delivery to the brain. However …
restrictive blood-brain barrier and enhance their direct delivery to the brain. However …