Purpose Nose-to-brain drug administration along the olfactory and trigeminal nerve
pathways offers an alternative route for the treatment of central nervous system (CNS) …

Purpose Aerosol particle deposition in the human nasal cavity is of high interest in particular
for intranasal central nervous system (CNS) drug delivery via the olfactory cleft. The …

The nasal olfactory region is a potential route for non-invasive delivery of drugs directly from
the nasal epithelium to the brain, bypassing the often impermeable blood-brain barrier …

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 …

The nasal epithelium is an important target for drug delivery to the nose and secondary
organs such as the brain via the olfactory bulb. For both topical and brain delivery, the …

Background: Intranasal delivery protocols that can effectively deposit drugs to the olfactory
region are severely lacking. Furthermore, it is still challenging to quantify nasal deposition …

The present work examines regional deposition within the nose for nasal sprays over a large
and wide ranging parameter space by using numerical simulation. A set of 7 realistic adult …

The nasal cavity is an attractive route for both local and systemic drug delivery and holds
great potential for access to the brain via the olfactory region, an area where the blood–brain …

Neurological drugs delivered to the olfactory region can enter the brain via olfactory
pathways and bypass the blood-brain barrier. However, clinical applications of the direct …

Intranasal administration of drugs serves as a promising, noninvasive option for the
treatment of various disorders of the central nervous system and upper respiratory tract …