TY - JOUR
T1 - Complete transection of rat optic nerve while sparing the meninges and the vasculature
T2 - An experimental model for optic nerve neuropathy and trauma
AU - Solomon, Arieh S.
AU - Lavie, Vered
AU - Hauben, Udi
AU - Monsonego, Alon
AU - Yoles, Eti
AU - Schwartz, Michal
N1 - Funding Information:
This study was supported in part by Pharmacia-Pharmitalia Carlo Erba, Milan, and by Ophthalmic Pharmacia, Sweden. M.S. is the incumbent of the Maurice and Ilse Katz Professorial Chair in Neuroimmunology.
PY - 1996/12/1
Y1 - 1996/12/1
N2 - In this study we present a method to achieve a complete transection of optic nerve axons in adult rat, while preserving the vasculature and retaining the continuity of the meninges. Under deep anesthesia, the optic nerve of adult rat is exposed. Using specially designed instruments built from disposable glass microsampling pipets, a small opening is created in the meninges of the optic nerve, 2-3 mm behind the eye globe. A glass dissector is introduced through the opening and is used to cut all the axons through the whole width of the nerve. Complete transfection of the optic nerve axons was achieved, while retaining the continuity of the meninges and avoiding damage to the nerve's vascular supply. Transection was confirmed by transillumination showing a complete gap in the continuity of the nerve axons, and by both morphological and electrophysiological criteria. Nerve transection performed by the conventional technique leads to neuroma formation and hampers regeneration. Crush injury may cause nerve ischemia, which is detrimental to axonal recovery. Both of these disadvantages are avoided by the method of transection presented here. The opening created in the 'meningeal tube' can be used to inject substances that may be of benefit in recovery, rescue and/or regeneration of the injured axons. The model is particularly suitable for in vivo studies on nerve regeneration, and especially for screening of putative therapeutic agents.
AB - In this study we present a method to achieve a complete transection of optic nerve axons in adult rat, while preserving the vasculature and retaining the continuity of the meninges. Under deep anesthesia, the optic nerve of adult rat is exposed. Using specially designed instruments built from disposable glass microsampling pipets, a small opening is created in the meninges of the optic nerve, 2-3 mm behind the eye globe. A glass dissector is introduced through the opening and is used to cut all the axons through the whole width of the nerve. Complete transfection of the optic nerve axons was achieved, while retaining the continuity of the meninges and avoiding damage to the nerve's vascular supply. Transection was confirmed by transillumination showing a complete gap in the continuity of the nerve axons, and by both morphological and electrophysiological criteria. Nerve transection performed by the conventional technique leads to neuroma formation and hampers regeneration. Crush injury may cause nerve ischemia, which is detrimental to axonal recovery. Both of these disadvantages are avoided by the method of transection presented here. The opening created in the 'meningeal tube' can be used to inject substances that may be of benefit in recovery, rescue and/or regeneration of the injured axons. The model is particularly suitable for in vivo studies on nerve regeneration, and especially for screening of putative therapeutic agents.
KW - optic nerve
KW - orbital surgery
KW - regeneration
KW - transection
UR - http://www.scopus.com/inward/record.url?scp=0030560867&partnerID=8YFLogxK
U2 - 10.1016/S0165-0270(96)00098-2
DO - 10.1016/S0165-0270(96)00098-2
M3 - Article
AN - SCOPUS:0030560867
SN - 0165-0270
VL - 70
SP - 21
EP - 25
JO - Journal of Neuroscience Methods
JF - Journal of Neuroscience Methods
IS - 1
ER -