Surgical retractor systems and methods

What is claimed is: 1. A retractor system comprising: a first arm comprising a towing assembly, the towing assembly comprising an interface member coupled to a rotatable shaft, wherein the interface member comprises a distal surface having a plurality of protrusions and receptacles; a first blade member comprising a connector body and a blade extending therefrom, the connector body having an internal cavity configured to reversibly receive the rotatable shaft therein, wherein the first blade member comprises a plurality of protrusions and receptacles configured to intermesh with the plurality of protrusions and receptacles of the distal surface of the interface member; and a spring-loaded button mechanism configured to lock the first blade member to the first arm at any desired position, wherein the spring-loaded button mechanism includes a depressable button and a spring positioned within a cavity in the button, the button includes a first end configured to be depressed by a user and a second end which is received in the first blade member in a locked position; wherein the rotatable shaft is configured to rotate about a longitudinal axis; wherein the interface member of the towing assembly is spring-loaded. 2. The retractor system of claim 1 , wherein the button defines an opening extending therethrough which is sized and configured to receive at least a portion of the rotatable shaft. 3. The retractor system of claim 2 , wherein the opening in the button is non-symmetrical in shape. 4. The retractor system of claim 2 , wherein a portion of the opening is defined by a curved surface configured to engage a groove in the rotatable shaft when in the locked position. 5. The retractor system of claim 1 , wherein a spring is provided within a cavity in the towing assembly behind the interface member. 6. The retractor system of claim 5 , wherein when the blade member is unlocked, the spring is configured to cause the blade member to eject off the rotatable shaft and separate from the towing assembly. 7. The retractor system of claim 1 , wherein the towing assembly further comprises an actuation member configured to tow the blade. 8. The retractor system of claim 7 , wherein the actuation member is configured to be engaged by a removable wingnut to provide a low-torque rotation. 9. The retractor system of claim 8 , wherein the wingnut includes a spring-loaded mechanism including a ball bearing and a spring to help retain a wing in a vertical position. 10. A retractor system comprising: a first arm comprising a first towing assembly, the first towing assembly comprising a first interface member coupled to a first rotatable shaft, wherein the first interface member comprises a distal surface having a plurality of protrusions and receptacles; a first blade member comprising a connector body and a first blade extending therefrom, the connector body having an internal cavity configured to reversibly receive the first rotatable shaft therein, wherein the first blade member comprises a plurality of protrusions and receptacles configured to intermesh with the plurality of protrusions and receptacles of the distal surface of the first interface member; and a spring-loaded button mechanism configured to lock the first blade member to the first arm at any desired position, wherein the spring-loaded button mechanism includes a depressable button and a spring positioned within a cavity in the button, the button includes a first end configured to be depressed by a user and a second end which is received in the first blade member in a locked position; wherein the first rotatable shaft is configured to rotate about a longitudinal axis; wherein the first interface member of the towing assembly is spring-loaded; a second arm comprising a second towing assembly, the second towing assembly comprising a second interface member coupled to a second rotatable shaft, wherein the second interface member comprises a distal surface having a plurality of protrusions and receptacles; a second blade member comprising a connector body and a second blade extending therefrom, the connector body having an internal cavity configured to reversibly receive the second rotatable shaft therein, wherein the second blade member comprises a plurality of protrusions and receptacles configured to intermesh with the plurality of protrusions and receptacles of the distal surface of the second interface member; and a rack, wherein the first and second arms are configured to translate along the rack, thereby allowing the first and second blade members to retract tissue. 11. The retractor system of claim 10 , wherein the button defines an opening extending therethrough which is sized and configured to receive at least a portion of the first rotatable shaft. 12. The retractor system of claim 11 , wherein the opening in the button is non-symmetrical in shape. 13. The retractor system of claim 11 , wherein a portion of the opening is defined by a curved surface configured to engage a groove in the first rotatable shaft when in the locked position. 14. The retractor system of claim 10 , wherein a spring is provided within a cavity in the first towing assembly behind the first interface member. 15. The retractor system of claim 14 , wherein when the first blade member is unlocked, the spring is configured to cause the first blade member to eject off the first rotatable shaft and separate from the first towing assembly. 16. The retractor system of claim 10 , wherein the first towing assembly further comprises an actuation member configured to tow the first blade. 17. The retractor system of claim 16 , wherein the actuation member is configured to be engaged by a removable wingnut to provide a low-torque rotation. 18. The retractor system of claim 17 , wherein the wingnut includes a spring-loaded mechanism including a ball bearing and a spring to help retain a wing in a vertical position.