Bridging a spinal cord defect using collagen filament
S Yoshii, M Oka, M Shima, M Akagi, A Taniguchi - Spine, 2003 - journals.lww.com
S Yoshii, M Oka, M Shima, M Akagi, A Taniguchi
Spine, 2003•journals.lww.comStudy Design. A rat model of spinal cord defect was designed to evaluate the effect of
collagen filament implant on nerve regeneration in the spinal cord defect. Objectives. To
bridge a spinal cord defect and restore the function in adult mammals. Summary of
Background Data. Resection of the spinal cord in mammals is always followed by motor
paralysis and loss of voluntary function below the lesion. Partial success in bridging the
ends of the spinal cord after complete resection was reported. However, restoration of …
collagen filament implant on nerve regeneration in the spinal cord defect. Objectives. To
bridge a spinal cord defect and restore the function in adult mammals. Summary of
Background Data. Resection of the spinal cord in mammals is always followed by motor
paralysis and loss of voluntary function below the lesion. Partial success in bridging the
ends of the spinal cord after complete resection was reported. However, restoration of …
Abstract
Study Design.
A rat model of spinal cord defect was designed to evaluate the effect of collagen filament implant on nerve regeneration in the spinal cord defect.
Objectives.
To bridge a spinal cord defect and restore the function in adult mammals.
Summary of Background Data.
Resection of the spinal cord in mammals is always followed by motor paralysis and loss of voluntary function below the lesion. Partial success in bridging the ends of the spinal cord after complete resection was reported. However, restoration of function has not been reported in adult mammalian.
Materials and Methods.
Four thousand collagen filaments 5-mm-long were grafted to bridge a 5-mm defect of rat spinal cord. Controls had their spinal cord defect left ungrafted after resection. At 1-week intervals, animals were evaluated functionally. After 4 and 12 weeks, animals were evaluated histologically. After 12 weeks, animals were evaluated electrophysiologically.
Results.
The severed spinal cord axons regenerated along the collagen filament implant crossing the proximal and distal spinal cord implant interfaces at 4 weeks after surgery. The rats with collagen filament grafts could walk, run, and climb with hind forelimb coordination at 12 weeks after surgery. Sensory-evoked potential waveform was found in the rats with collagen filament at 12 weeks after surgery.
Conclusions.
The collagen filaments support the axonal regeneration of the transected spinal cord and the restoration of function.
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