Ligament injuries are a common sports injury. Once the ligament is injured, it is difficult to heal by itself and needs surgery reconstruction. In fact, there is no clinical artificial ligament to replace the native ligament currently. Ligament tissue engineering is capable of constructing a biomimetic 3¬D scaffold for ligament, providing mechanical support in the period of injury and promoting tissue regeneration. Moreover, the aligned fibers are able to mimic the proliferating environment of ligament cells, making the cells to secrete more ECM. During the experiment, we fabricated silk fibroin nanofibers by using electrospinning and by controlling process parameters. The silk fibroin nanofibers , ranging between 500-600 nm, were collected with 12% in solution concentration、20 kV in electrical field and 1.2 ml/h flow rate directional fibers can be obtained at 2800 rpm of rotating wheel . In addition, we also added PEO to make electrospinning process more stable. Furthermore, we used a novel column collection to fabricate 3D, porous, aligned, and loose scaffolds. It changes the structure of fibers and improves the cell infiltrating into scaffolds. In our research, SEM images show that the ligament cells grow along with the direction of fibers and secret ECM after they are cultured with aligned scaffolds for 7 day. LIVE/DEAD fluorescence images show that ligament cells still have high activity after 7 days of culturing. SEM and histological images prove not only cell infiltration, but also cell proliferation and ECM secretion. In addition, collagen content increase after 7 and 14 day of culturing. This study demonstrates that the new scaffolds fabricated by column collection. can provides good environment for ligament cells adhesion, proliferation and further more secrete ECM. These scaffolds provide a potentiality in ligament regeneration.