Engineering Angiogenesis Following Spinal Cord Injury
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Uploaded by case on Sep 24, 2008
Title: Engineering angiogenesis following spinal cord injury: building
functional, stable blood vessels and promoting the formation of the
blood-spinal cord barrier
Speaker: Erin Lavik, Sc.D.
Seminar Series: Neural Prosthesis Seminar
Date: September 12, 2008
Location: Nord 310 A&B
Case Western Reserve University
Sponsored By: The FES and the APT Centers
Presented By:
Erin Lavik, Sc.D.
Associate Professor of Biomedical Engineering
School of Engineering and Applied Science
Yale University, New Haven, CT
Hosted by:
Hunter Peckham, Ph.D.
Donnell Professor of Biomedical Engineering and Orthopaedics
Case Western Reserve University
Director, Functional Electrical Stimulation Center
Louis Stokes Veterans Affairs Medical Center
MetroHealth Medical Center Abstract:
It is estimated that there are 250,000 people in the U.S. with spinal cord injuries (SCI)
and over 2 million worldwide. While, the majority of SCI research has focused on
regenerating neural tissue, recovery is correlated with angiogenesis. Furthermore,
vessels appear to play an important role in the neural stem cell (NSC) niche and may promote the proliferation, and neuronal differentiation of NSCs. However, inducing angiogenesis following SCI has been challenging since many of the factors and drugs permeabilize the surrounding vessels and can exacerbate injury. Engineering vascular
networks could be an alternative to inducing extensive angiogenesis, but it has been challenging to engineer vascular networks that are stable for long times. We sought to determine whether stable, microvascular networks could be engineered using a coculture of primary ECs and NSCs. We isolated primary rat NSCs and primary ECs and cocultured them in a macroporous hydrogel based on poly(l-lysine) (PLL)
and poly(ethylene glycol) (PEG). Coculture of primary NPCs and ECs led to stable, functional vessels up to 6 weeks with no signs of clot formation in a subcutaneous model. Moreover, this coculture promoted the formation of microvascular networks in a
spinal cord model. The coculture also led to the formation of the blood-spinal cord barrier whereas the controls did not. This lays the groundwork for a new approach to promote recovery and regeneration following injury in the CNS and may provide a new paradigm to understand and treat neurological diseases and disorders in the CNS more broadly.
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gosh she's such a high intelligent woman...
i love her
acurx 3 years ago
I'd love to have your brain. It does sound like good news. How far is angiogenesis from carrying signals? Thanks-
B17MIKE 3 years ago
Wow speaking as a person with a spinal cord injury, Keep up the good Work!!! keep on trying PLEASE don't give up!!!
dwain1310 3 years ago
For laypeople: angiogenesis is the growth of new blood vessels
This is not directly regenerating neurons, although repair and functional recovery is associated with angiogenesis
cuvtixo 3 years ago