Improving Axonal Regeneration: Side-to-side Bridges Coupled with Local Delivery of Glial Cell Line-derived Neurotrophic Factor (GDNF)

Alvarez Veronesi, Maria Cecilia

18 February 2014

Chronic denervation and chronic axotomy present independent barriers for axonal regeneration. Chronic denervation occurs when nerves are no longer connected to their neuronal cell bodies; chronic axotomy occurs when neurons are not connected to their targets for prolonged periods of time. The harmful effects of chronic denervation can be addressed by the side-to-side bridge surgical technique. Additionally, the negative effects of chronic axotomy can be reversed by GDNF delivery to the nerve. The experiments in this thesis were designed to evaluate nerve regeneration in a rat model of chronic injury after treatment with local GDNF delivery, side to-side bridge protection, or both. The GDNF delivery system consisted of poly(lactic-co-glycolic acid) microspheres embedded in fibrin for controlled delivery of GDNF. Overall, the side-to-side bridges technique was effective in protecting against the negative effects of chronic denervation regardless of treatment with or without GDNF. Local delivery of GDNF did not increase axonal regeneration or functional recovery.

PNS regeneration

Nerve regeneration

Functional recovery

Growth factors

Nerve injury

Nerve repair

Regenerative medicine

0541

0564

Improving Axonal Regeneration: Side-to-side Bridges Coupled with Local Delivery of Glial Cell Line-derived Neurotrophic Factor (GDNF)

Alvarez Veronesi, Maria Cecilia

18 February 2014

Chronic denervation and chronic axotomy present independent barriers for axonal regeneration. Chronic denervation occurs when nerves are no longer connected to their neuronal cell bodies; chronic axotomy occurs when neurons are not connected to their targets for prolonged periods of time. The harmful effects of chronic denervation can be addressed by the side-to-side bridge surgical technique. Additionally, the negative effects of chronic axotomy can be reversed by GDNF delivery to the nerve. The experiments in this thesis were designed to evaluate nerve regeneration in a rat model of chronic injury after treatment with local GDNF delivery, side to-side bridge protection, or both. The GDNF delivery system consisted of poly(lactic-co-glycolic acid) microspheres embedded in fibrin for controlled delivery of GDNF. Overall, the side-to-side bridges technique was effective in protecting against the negative effects of chronic denervation regardless of treatment with or without GDNF. Local delivery of GDNF did not increase axonal regeneration or functional recovery.

PNS regeneration

Nerve regeneration

Functional recovery

Growth factors

Nerve injury

Nerve repair

Regenerative medicine

0541

0564