2003 Volume 15 Issue 2 Pages 65-69
For the development of the human gene therapy for laryngeal paralysis, the therapeutic effects of gene transfer into the following parts were investigated in rat laryngeal paralysis model : denervated rat laryngeal muscle, rat nucleus ambiguus after vagal avulsion, and rat recurrent laryngeal nerve fiber injured by being crushed.
Four weeks after IGF-I gene transfer into denervated rat laryngeal muscle, IGF-I transfected animals had a significant improvement in muscle fiber diameter and motor endplate morphology.
Two and four weeks after GDNF gene transfer into rat nucleus ambiguus after vagal avulsion, GDNF gene transfected animals had a significantly larger number of surviving motor neurons. Simultaneous BDNF gene transfer enhanced these neuroprotective effects of GDNF gene transfer.
Two and four weeks after GDNF gene transfer into crush injured rat recurrent laryngeal nerve fiber, significantly faster nerve conduction velocity and better vocal fold motion recovery were observed in GDNF gene transfected animals.
These results indicate that gene therapy for laryngeal paralysis may provide tremendous opportunity for the augmentation of current surgical treatment modalities or even eliminate the need for surgical treatment.