Nanotechnology for tissue engineering

Webster, Thomas J.

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Stem Cells
34 min
1. Stem cells: immortality or a healthy old age?
- Dr. Jim McWhir
40 min
2. Mouse embryonic stem cells
- Prof. Sir Martin Evans
Regenerative Medicine (I)
26 min
3. Stem cells and regenerative medicine
- Prof. Dame Julia Polak
- Dr. Anne Bishop
27 min
4. Tissue engineering: the science, the technology and the industry
- Prof. Robert Nerem
41 min
5. Clinical potential of stem cells
- Prof. John Martin
11 min
6. Genes and cells therapy
- Prof. Nagy Habib
Regenerative Medicine (II)
39 min
7. Stem cell therapy for the treatment of heart failure
- Dr. James Willerson
35 min
8. Vascular tissue engineering
- Prof. Robert Nerem
43 min
9. Stem cell biology and neurodegenerative diseases
- Dr. Ronald McKay
17 min
10. Cartilage stem cells: tools for joint repair?
- Prof. Charles Archer
Biotechnology
46 min
11. Stem cell bioprocessing
- Dr. Sakis Mantalaris
68 min
12. Nanotechnology for tissue engineering
- Prof. Thomas J. Webster
37 min
13. Materials for tissue engineering
- Dr. Molly Stevens
- Mr. Julian George
Commercialization
36 min
14. Commercialisation of stem cells
- Dr. Gareth Roberts
Ethical and Regulatory Considerations
44 min
15. Stem cell ethics
- Prof. Dame Anne McLaren
23 min
16. The human fertilisation and embryology authority
- Dame Suzi Leather
Archived Lectures *These may not cover the latest advances in the field
40 min
17. Bioethics & politics of human embryonic stem cell science in the EU's 6th framework programme
- Prof. Brian Salter

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Introduction
Nanotechnology and tissue engineering - definition
Closer look at nanotechnology in biomedicine
Closer look at tissue engineering - successful use
Common things in nanotech/tissue engineering
Our tissues are nanostructured
Use of nanotechnology in tissue engineering
Objective
Overview of the talk
Nano - spherical ceramics
Nanospherical ceramic synthesis
AFM of nanophase and conventional titania
Cell adhesion on nanophase alumina
Osteoblast adhesion on nanophase ceramics
Best grain size for osteoblast adhesion
Calcium deposition of nanophase ceramics
Nanospherical ceramics coating
Nanospherical ceramics coating - animal studies
Nanospherical ceramics resist bacterial infection
Nanofiber ceramics
Bone is a nano-fibered material
Nanofiber ceramic synthesis
Nanofiber ceramics in orthopedic implants
Osteoblast adhesion on nano-fiber alumina
Carbon nanofibers
Carbon nanofiber synthesis
Carbon nanofibers in orthopedic implants
SEM of carbon fiber compacts
PCU:CNF composites
Why CNF increase osteoblast adehesion
CNF topography casting to polymers
SEM of PLGA casts of CNF compacts
Bone: aligned nanostructures
CNF alignment in poly-urethane composites
CNF surface alignment in composites
SEM image of aligned CNT/CNF in PCU
CNF surface - cells alignment
CNF alignment controls mineral deposition
Self-assembled nanostructures
Helical Rosette Nanotube (HRN)
HRN - 3-D structure
HRN networks on titania surface
HRN as 3-D tissue engineering scaffolds
Nanostructured ceramic:polymer composites
Ceramic/polymer nanocomposites
Osteoblast function on Ti/PLGA nanocomposites
Nano-structured metals
Nano-structured metals - materials and methods
Ti compacts - conventional and nanophase
Ti6AI4V compacts - conventional and nanophase
CoCrMo compacts - conventional and nanophase
Enhanced osteoblast adhesion to nano-surface
Other solutions - anodized titanium
Osteoblast functions on anodized titanium
Anticancer bone implants
Nanomaterials in nervous system
Examples for the use of neuronal probes
Carbon nanofibers for neural implants
Neurites align with nanofibers
Experiment of treating MCAO in rat
Stem cells and nanofibers for neural repair (1)
Stem cells and nanofibers for neural repair (2)
Nanotechnology in treatment of vascular damage
Vascular tissue
Polymer surface feature dimension reduction
Chemically treated and cast PLGA
Chemically treated and cast PU
Metals: stents
Nanostructured Ti increases endothelial adhesion
Discussion
Acknowledgements
Lab members
Past Nanomedicine Lab Members

Topics Covered

Nanomedicine
Nanotechnology
Tissue engineering
Orthopaedics
Cartilage
Vascular
Bladder
Central and peripheral nervous system

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Series:

Stem Cells and Regenerative Medicine

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Talk Citation

Webster, T.J. (2007, October 1). Nanotechnology for tissue engineering [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/WJNW9429.
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