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- Part I. General subjects
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1. Need for drug delivery systems 1
- Prof. Ana Catarina Silva
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2. Need for drug delivery systems 2
- Prof. João Nuno Moreira
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3. Routes of drug delivery
- Prof. Dr. Sven Stegemann
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4. Transporters in drug delivery
- Dr. Pravin Shende
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5. The theory and applications of controlled release principles
- Dr. Michael J. Rathbone
- Part II. Routes for drug delivery
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6. Oral drug delivery
- Dr. Vineet Kumar Rai
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7. Transdermal drug delivery
- Prof. Sabine Szunerits
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8. Pulmonary drug delivery
- Prof. Anthony J. Hickey
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9. Gastrointestinal drug delivery
- Prof. Susan Hua
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10. Mucoadhesive drug delivery systems
- Dr. Panoraia I. Siafaka
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11. Ocular drug delivery
- Prof. Emily Dosmar
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12. Vaginal and uterine drug delivery
- Prof. José Luis Arias Mediano
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13. Drug-eluting implants
- Dr. Aliasger K. Salem
- Part III. Materials for drug delivery
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14. Polymers as nanocarriers for controlled drug delivery
- Prof. Dr. Marcelo Calderón
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15. Polymeric gels for drug delivery
- Dr. G. Roshan Deen
- Ms. Dora Safar
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16. Liposomes as a drug delivery system
- Dr. G. Roshan Deen
- Ms. Bushra Hasan
- Ms. Renad AlAnsari
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17. Solid lipid nanoparticles (SLN) and nanostructured lipid carriers (NLC)
- Prof. Ana Catarina Silva
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18. Micellar drug delivery
- Prof. Francesco Cellesi
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19. Nanocrystals in drug delivery
- Prof. Eliana Souto
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20. Layer-by-layer assemblies for drug delivery
- Prof. Szczepan Zapotoczny
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21. Inorganic nanostructured interfaces for therapeutic delivery
- Prof. Tejal Desai
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22. Inorganic porous drug delivery carriers
- Prof. Jessica Rosenholm
- Part IV. Specifics of drug delivery
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23. Delivery of genes and nucleotides
- Prof. Esam Yahya
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24. Vaccine delivery
- Prof. Sevda Şenel
- Part V. Drug delivery in various diseases
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25. Drug delivery for cancer therapeutics
- Prof. Tejraj Aminabhavi
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26. Nanomedicines for brain diseases
- Prof. Giovanni Tosi
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27. Drug delivery to the colon
- Prof. Susan Hua
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28. Role of the lymphatic system in drug absorption
- Dr. Kishor M. Wasan
Printable Handouts
Navigable Slide Index
- Introduction
- Significance of nanoparticles in drug delivery
- Nanoparticle engineering for drug delivery
- Possibilities in vaginal and uterine drug administration (1)
- Possibilities in vaginal and uterine drug administration (2)
- Index- vaginal and uterine drug delivery
- Vaginal drug delivery (1)
- Vaginal drug delivery (2)
- Advantages offered by the vaginal route
- Anatomy and physiology of the vagina
- Physiological characteristics (1)
- Physiological characteristics (2)
- Nano-sized systems for vaginal drug delivery (1)
- Nano-sized systems for vaginal drug delivery (2)
- Nanoparticles (1)
- Nanoparticles (2)
- Nanoparticle-related factors influencing vaginal drug delivery
- Particle size
- Formulation components
- Surface charge
- Surface modification
- Surface functionalization
- Stimuli-responsive design
- Nanoparticle-incorporated vaginal dosage forms
- Gel / nanoparticle – incorporated vaginal systems
- Solid and pH-responsive platforms/nanoparticle – incorporated vaginal systems
- Liposomes (1)
- Liposomes (2)
- Liposome-carrying systems
- Nanoemulsions (1)
- Nanoemulsions (2)
- Dendrimers (1)
- Dendrimers (2)
- Cyclodextrins (1)
- Cyclodextrins (2)
- Conclusions (1)
- Conclusions (2)
- Acknowledgment
Topics Covered
- Overview of the anatomy and physiology of the vagina
- Features of the vaginal and uterine routes of drug administration
- Barriers to vaginal drug delivery
- The need for drug delivery systems to the vaginal and uterine routes
- Update on recent advances in the formulation of drug nanosystems for vaginal delivery
- Materials used for developing drug delivery systems
- Nanocarriers for vaginal drug delivery: nanoparticles, liposomes, nanoemulsions, dendrimers, and cyclodextrins
Links
Series:
Categories:
Therapeutic Areas:
Talk Citation
Arias Mediano, J.L. (2020, February 27). Vaginal and uterine drug delivery [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/QPDB6772.Export Citation (RIS)
Publication History
Financial Disclosures
- José Luis Arias Mediano has no commercial/financial relationships to disclose.
A selection of talks on Methods
Transcript
Please wait while the transcript is being prepared...
0:00
Hello, everyone.
My name is José Luis Arias,
from the University of Granada, Spain.
It is my pleasure to start the talk on vaginal and uterine drug delivery,
where we will analyze the need for drug delivery systems to these groups.
The materials used for developing
those drug delivery systems and some relevant specifics or peculiarities on the subject.
Before starting the talk,
let me thank you for the opportunity given to
share my views on vaginal drug delivery systems.
0:32
Nanocarriers are drug microns in the submicron size that have been under
extremely extensive research in an attempt to
fundamentally change the conventional strategies for drug administration.
Present advances in pharmaceutical nanotechnology have allowed the creation of
versatile nanosystems such as nanoparticles, vesicles, and nanomedicines.
That can be engineered to overcome barriers imposed by
the organisms and delivery date therapeutic cargo
in a temporally and in spatially controlled manner.
Enable deep penetration into the body tissues,
efficient internalization at the cellular level,
and controlled drug release.
Any pharmacologically active substance,
regardless of its molecular weight,
hydrophilic character and stability,
or any other physicochemical properties including small molecule drugs,
peptides, proteins, and DNA and RNA,
can be very easily loaded into
an adequate nanoparticle for introduction by almost any route of drug administration,
to achieve efficient delivery to the site of index.
Hence superior chemical and biological stability,
ability to shield the loaded drug from degradation sources.
A smartly tuned drug pharmacokinetics and biodistribution are
a few examples to name among
the unique features offered by these drug delivery platforms.