Inorganic nanostructured interfaces for therapeutic delivery

Desai, Tejal

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Part I. General subjects
16 min
1. Need for drug delivery systems 1
- Prof. Ana Catarina Silva
28 min
2. Need for drug delivery systems 2
- Prof. João Nuno Moreira
29 min
3. Routes of drug delivery
- Prof. Dr. Sven Stegemann
57 min
4. Transporters in drug delivery
- Dr. Pravin Shende
29 min
5. The theory and applications of controlled release principles
- Dr. Michael J. Rathbone
Part II. Routes for drug delivery
34 min
6. Oral drug delivery
- Dr. Vineet Kumar Rai
31 min
7. Transdermal drug delivery
- Prof. Sabine Szunerits
41 min
8. Pulmonary drug delivery
- Prof. Anthony J. Hickey
35 min
9. Gastrointestinal drug delivery
- Prof. Susan Hua
42 min
10. Mucoadhesive drug delivery systems
- Dr. Panoraia I. Siafaka
37 min
11. Ocular drug delivery
- Prof. Emily Dosmar
50 min
12. Vaginal and uterine drug delivery
- Prof. José Luis Arias Mediano
32 min
13. Drug-eluting implants
- Dr. Aliasger K. Salem
Part III. Materials for drug delivery
47 min
14. Polymers as nanocarriers for controlled drug delivery
- Prof. Dr. Marcelo Calderón
14 min
15. Polymeric gels for drug delivery
- Dr. G. Roshan Deen
- Ms. Dora Safar
17 min
16. Liposomes as a drug delivery system
- Dr. G. Roshan Deen
- Ms. Bushra Hasan
- Ms. Renad AlAnsari
23 min
17. Solid lipid nanoparticles (SLN) and nanostructured lipid carriers (NLC)
- Prof. Ana Catarina Silva
33 min
18. Micellar drug delivery
- Prof. Francesco Cellesi
21 min
19. Layer-by-layer assemblies for drug delivery
- Prof. Szczepan Zapotoczny
27 min
20. Inorganic nanostructured interfaces for therapeutic delivery
- Prof. Tejal Desai
46 min
21. Inorganic porous drug delivery carriers
- Prof. Jessica Rosenholm
Part IV. Specifics of drug delivery
18 min
22. Delivery of genes and nucleotides
- Prof. Esam Yahya
52 min
23. Vaccine delivery
- Prof. Sevda Şenel
Part V. Drug delivery in various diseases
52 min
24. Drug delivery for cancer therapeutics
- Prof. Tejraj Aminabhavi
50 min
25. Nanomedicines for brain diseases
- Prof. Giovanni Tosi
47 min
26. Drug delivery to the colon
- Prof. Susan Hua
33 min
27. Role of the lymphatic system in drug absorption
- Dr. Kishor M. Wasan

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Introduction
Educational objectives
The scale of things – nanometers and more
Nanomaterials in biological context
Nanotechnology includes nanomaterials
Examples of inorganic nanostructured materials
Implantable drug delivery systems
How are drugs currently delivered?
Overcoming injections' poor pharmacokinetics?
Concept - zero order release
Tuning pore size to produce linear diffusion
Nanoscale pores alter drug diffusion curves
Example: Titania nanochannels
Example: nanochannels in silicon
Nanoporous membrane for drug delivery
Antibody elution
Sustained release kinetics in vivo
Drug delivery from nanostructured implants
Oral interfaces
Why oral delivery?
Challenges in oral delivery
The concept
Devices can be fabricated
How to enhance particle binding to epithelium?
Topography of thin film microdevices
Nanowire interfaces
Stability under flow conditions?
Cell-nanowire interface
Static adhesion in physiological conditions
Adhesion in mucin flow
Adhesive forces
Improved targeting and retention in vivo
Nanostructured materials: key benefits

Topics Covered

Nanomaterials in biological context
Nanotechnology includes nanomaterials
Implantable drug delivery systems
Problem: overcoming injections’ poor pharmacokinetics
Tuning pore size to produce linear diffusion
Nanoscale pores alter drug diffusion curves (more dose control)
Nanoporous membrane for improved implantable drug delivery
Controlled delivery from nanostructured implants
Challenges in oral delivery
Devices can be fabricated
Nanowire interfaces & Cell-nanowire interface
Adhesive forces
Improved targeting and retention of microdevices in vivo
Nanostructured materials: key benefits

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Pharmaceutical Sciences

Talk Citation

Desai, T. (2018, July 31). Inorganic nanostructured interfaces for therapeutic delivery [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved April 16, 2024, from https://hstalks.com/bs/3787/.
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Publication History

Published on July 31, 2018

Financial Disclosures

Prof. Tejal Desai has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.

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Inorganic nanostructured interfaces for therapeutic delivery

Prof. Tejal Desai – University of California, San Francisco, USA

Published on July 31, 2018 27 min

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A selection of talks on Pharmaceutical Sciences

37 min

Prof. John P. Cooke
Houston Methodist Research Institute, USA

14 min

Dr. Claudette L. Fuller
Merck Research Laboratories, USA

33 min

Dr. Ulrich Hagemann
International Society of Pharmacovigilance, Germany

23 min

Prof. Ana Catarina Silva
University Fernando Pessoa and University of Porto, Portugal

Audio Interview

28 min

Dr. Danie du Plessis
Medical Affairs Professional Society, UK

51 min

Dr. Larissa Lapteva
Center for Biologics Evaluation and Research, FDA, USA

36 min

Prof. Sebastian Kobold
Ludwig-Maximilians-Universität München, Germany

31 min

Prof. Charles S. Cox, Jr.
McGovern Medical School at UTHealth, USA

26 min

Prof. James H. Lewis
Georgetown University Medical Center, USA

36 min

Dr. Derek O'Hagan
GSK, USA

32 min

Dr. Mahsa Hadidi
Sanofi Genzyme, USA

41 min

Prof. Mark Lowdell
University College London, UK

18 min

Prof. Dr. Katja Hanack
University of Potsdam, Germany

40 min

Mr. Ed Addison
Cloud Pharmaceuticals, USA

46 min

Dr. Patricia Tang
University of Calgary, Canada

61 min

Dr. Egidijus Machtejevas
Merck KGaA Darmstadt, Germany

Transcript

Please wait while the transcript is being prepared...

0:00

Hello, my name is Tejal Desai, and I'm a professor and chair of the Department of Bioengineering and Therapeutic Sciences at UCSF. Today, I am talking about "Inorganic Nanostructured Interfaces for Therapeutic Delivery". An area that we've worked in for many years, related to how we can create nanostructured materials to influence how we deliver drugs to the body.

0:23

For our educational objectives today, I hope we can gain a basic understanding of nanotechnology and its implications for biology and particular therapeutic delivery, and to gain exposure of some of the current challenges facing drug delivery. Finally, I hope that you will understand ways in which inorganic nanostructured materials can be used to enhance therapeutic delivery.

0:46

To get started, I just want to introduce everyone to the scale of materials, and how we think about nanostructures versus micro and macro structures. The nanotechnology world really lives in a very small domain. Things that are less than 100 nanometers or so. So smaller than red blood cells, smaller than a human hair, and really on the scale of proteins and biologic molecules. This is where we're interested in really creating materials that can interface with the body.

1:18

And while there are many many nanomaterials that had been developed, in particular what I'll talk to you today about, are materials in which we take existing micro or macro materials, and actually nanostructure the interface. So, this image that is on your right, which shows a nanotextured or nanoporous implant, that can be used in many different ways. Why are we interested in this?

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Inorganic nanostructured interfaces for therapeutic delivery

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A selection of talks on Pharmaceutical Sciences

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Inorganic nanostructured interfaces for therapeutic delivery