Vascular tissue engineering

Nerem, Robert

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Slides
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Citation

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

Printable Handouts

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Navigable Slide Index

Introduction
Cardiovascular disease
Cardiovascular tissue engineering
Hilton head panel discussion
Coronary bypass
Functional blood vessel substitute
Tissue engineering: a blood vessel substitute
Cell source can be a "show stopper"
The vascular endothelial cell
Some issues related to cell source
Use of autologous cells
Use of allogeneic cells
Bone marrow-derived cells
Circulating endothelial progenitor cells
Von Willebrand factor
Shear stress effect on expression
Baboon external shunt studies
The process used in external shunt studies
CEC construct preconditioned to arterial shear
Recruitment of circulating cells
Endothelial cells
"Flavors" of pluripotency exist
In vitro differentiation: from ES to endothelial cells
ES-derived endothelial cells elongation
Scaffolds in tissue repair/replacement
Some biological scaffolds
The matrix and cell function
Acellular scaffolds
Collagen-based blood vessel model
Weinberg and Bell
Bioreactor system
Construction of a well-formed blood vessel wall
Polymer scaffold-based construct
Laura Niklason laboratory
Donor age effect on vessel engineering
Auger and co-workers
Auger's team approach for tissue engineering
A concept for blood vessel tissue engineering
Bioreactor technology
In vivo versus in vitro remodeling
Development of a cell-seeded scaffold
Engineering immune acceptance
Road to engineered tissue constructs and tolerance
Clinical applications
In vitro results of ePTFE grafts endothelialization
Influence of graft diamer on ePTFE grafts patency
Women's Medical University results of clinical trials
Summary

Topics Covered

Tissue engineering approaches
Different cell sources for a blood vessel substitute
Circulating endothelial progenitor cells: their characteristics, their use in a blood cell substitute and recruitment from the host circulating blood
Differentiation from ES into endothelial cells in vitro and their endothelial-like characterization
The use of different types of scaffolds
In vivo and in vitro remodeling
Engineering immune acceptance
Clinical applications: EC-seeded ePTFE grafts for peripheral applications and cell-seeded polymer scaffold grafts for pulmonary artery/Fontan procedure

Links

Series:

Stem Cells and Regenerative Medicine

Categories:

Therapeutic Areas:

Cardiovascular & Metabolic

Talk Citation

Nerem, R. (2007, October 1). Vascular tissue engineering [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/JOWX6954.
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