(A) Schematic drawing shows the normal (left), and optogenetic-modulated (right) projection of the corticospinal tract. (B) Schematic illustration of a precise C5-RH. Left, a vibrating blade was used to cut the right spinal cord along the midline at C5; right, a modified needle, with a groove facing the lesion side. A fine blade was inserted into the groove and moved down to cut the spared ventral spinal tissue. (C) A C5-RH under a surgical microscope. An arrow indicates the midline and a Vibraknife cut on the right side. (D) A horizontal section shows a cut on the right side with a needle track next to the midline. BDA, CST (red); GFAP, astrocyte (green); Scale bar: 200μm. (E) A representative image shows a cross section of the remaining intact left hemicord; Scale bar: 200 μm. (F) GFAP immunofluorescent staining on a cross section of the spinal cord caudal to the C5 RH showed ipsilesional reactive astrogliosis (GFAP⁺, insert, yellow arrow). Such astrogliotic response was not found on the contralesional side; Scale bar: 200 μm; Insert: 50 μm (G) Timelines of the experiment.(H) Topographic representation of contralateral cortical recording of the CST on left/right side prior to and at 1 day after the C5-RH. Stars indicate bregma. EMG responses were represented by a hot spot. Statistical analysis of the dot numbers confirmed that ipsilesional control from the left motor cortex was complete disrupted, while the contralesional control from the right motor cortex was intact, indicating the preciseness and completeness of this injury model. Data were presented as mean ± SEM; n = 6 mice per group; 2-tailed paired Student’s t test; ****P < 0.0001.