Background:
Dementia and its related types such as Alzheimer’s disease, vascular dementia
and mixed dementia belong to brain associated diseases, resulting in long-term progressive memory
loss. These diseases are so severe that can affect a person's daily routine. Up to date, treatment of de-
mentias is still an unmet challenge due to their complex pathophysiology and unavailable efficient
pharmacological approaches. The use of nanotechnology based pharmaceutical products could possibly
improve the management of dementia given that nanocarriers could more efficiently deliver drugs to
the brain.
Objective:
The objective of this study is to provide the current nanotechnology based drug delivery
systems for the treatment of various dementia types. In addition, the current diagnosis biomarkers for
the mentioned dementia types along with their available pharmacological treatment are being dis-
cussed. Method: An extensive review of the current nanosystems such as brain drug delivery systems
against Alzheimer’s disease, vascular dementia and mixed dementia was performed. Moreover, nan-
otheranostics as possible imaging markers for such dementias were also reported.
Results:
The field of nanotechnology is quite advantageous for targeting dementia given that nanoscale
drug delivery systems easily penetrate the blood brain barrier and circulate in the body for prolonged
time. These nanoformulations consist of polymeric nanoparticles, solid lipid nanoparticles, nanostruc-
tured lipid carriers, microemulsions, nanoemulsions, and liquid crystals. The delivery of the nan-
otherapeutics can be achieved via various administration routes such as transdermal, injectable, oral,
and more importantly, through the intranasal route. Nonetheless, the nanocarriers are mostly limited to
Alzheimer’s disease targeting; thus, nanocarriers for other types of dementia should be developed.
Conclusion:
To conclude, understanding the mechanism of neurodegeneration and reviewing the cur-
rent drug delivery systems for Alzheimer’s disease and other dementia types are significant for medical
and pharmaceutical society to produce efficient therapeutic choices and novel strategies based on mul-
tifunctional and biocompatible nanocarriers, which can deliver the drug sufficiently into the brain.
P3-087: Late-onset Alzheimer disease and vascular dementia are precociously associated with a derangement in systemic oxidative balance