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Printable Handouts
Navigable Slide Index
- Introduction
- Bio-therapeutics for CNS diseases
- Challenges in CNS delivery
- Strategies to enhance CNS delivery
- O/W nanoemulsion for CNS delivery
- In vitro BBB model
- Permeability enhancement with nanoemulsion
- Modulation of efflux transport with curcumin
- Curcumin effects on permeability and efflux
- Chronic pain management
- Opioid analgesics
- Opioid peptide analgesics
- Lipid modification of DALDA peptide
- Modified DALDA NIR fluorescence imaging
- Plasma PK analysis of C8-DALDA analogue
- Brain PK analysis of C8-DALDA analogue
- Curcumin effects on Plasma and Brain
- Acute analgesic efficacy of C8-DALDA peptide
- BOLD fMRI study in capsaicin-induced pain model
- Analgesic efficacy in capsaicin pain model: 30 min
- Analgesic efficacy in capsaicin pain model: 90 min
- Parkinson’s and neuro-inflammation
- Nose-to-brain delivery
- CsA In Vitroeffects on LPS activated macrophages
- In Vivo brain vs. blood CsA distribution profiles
- CsA distribution in peripheral tissues
- Rat acute LPS induced neuro-Inflammation model
- IA CsA effect on brain pro-inflammatory markers
- Summary
Topics Covered
- Challenges of central nervous system (CNS) drug delivery
- Strategies to enhance CNS delivery
- O/W nanoemulsion for CNS delivery
- Modulation of efflux transport with curcumin
- Lipid modification of DALDA peptide
- Nose to brain delivery of cyclosporine
Links
Series:
Categories:
Therapeutic Areas:
Talk Citation
Amiji, M. (2015, May 4). Nanotechnology for CNS delivery of biological therapeutics [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 25, 2024, from https://doi.org/10.69645/KPZK5984.Export Citation (RIS)
Publication History
Financial Disclosures
- Dr. Mansoor Amiji has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
Other Talks in the Series: Nanomedicine
Transcript
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0:00
Welcome to the seminar on "Nanotechnology for CNS
Delivery of Biological
Therapeutics."
My name is Mansoor Amiji.
I'm a Distinguished Professor
and Chairman of the Department
of Pharmaceutical Sciences
in the School of Pharmacy
at Northeastern University
in Boston, Massachusetts.
I'm also the director of the
laboratory of Biomaterials
and Advanced Nano-Delivery Systems
here at Northeastern University.
0:24
The diseases of the central
nervous system, or CNS,
currently represent 11% of
the global disease burden.
This number will increase
to 14% in the year 2020,
largely due to the
aging demographics,
both here in the United
States and around the world.
CNS diseases are
especially devastating,
as they are predominant in older
adults with other morbidities.
In neurodegenerative
disease, for example,
such as Alzheimer's and
Parkinson's disease,
lack of early diagnosis
and current treatment
strategies that are
purely symptomatic
are also additional challenges.
A piece published
in 2010 in Science,
showed that CNS drug development
takes a long time for approval,
has poor success rate, and costs
more than any other diseases.
As such, currently
there are very few
major pharmaceutical and
biotechnology companies having
a program in CNS drug development.
Biological therapies based on
peptides, proteins, nucleic acid,
and even cells have
shown tremendous benefit
in the pre-clinical evaluation for a
variety of CNS diseases, especially
neurodegenerative diseases.
Many of these agents have disease
modifying effects, rather than just
providing symptomatic treatment.
However, delivery of therapeutic
agents, especially biologicals that
are highly hydrophilic, large
molecular weight, sometimes
charged, and labile
molecules to the brain,
especially upon administration
through the bloodstream,
is impossible.