Devices and methods for providing surgical access

The invention claimed is: 1 . An access device comprising, an upper tube having an opening formed therethrough, the upper tube including: a proximal end configured to prevent proximal movement of a spring, the spring forming an opening through which the upper tube is disposed; and one or more fingers formed at a distal end of the upper tube and extending toward a proximal end of the upper tube; a middle tube having an opening formed therethrough for slidably receiving the upper tube, the middle tube including a proximal end configured to apply force on the spring; and a lower tube slidably disposed at least in part within the distal end of the upper tube and having an opening formed therethrough; wherein the middle tube is biased away from the upper tube in a configuration in which the spring is uncompressed, causing the distal end of the middle tube to compress the one or more fingers of the upper tube and lock the position of the lower tube relative to the upper tube, and wherein the access device is actuated by proximally moving the middle tube relative to the upper tube against the bias of the spring, causing the one or more fingers to become exposed and move away from the lower tube, and enabling proximal and distal movement of the lower tube relative to the upper tube. 2 . The access device of claim 1 , wherein the openings formed through one or more of the upper tube, the middle tube and the lower tube are round, square or rectangular openings. 3 . The access device of claim 1 , wherein one or more of the upper tube, middle tube and lower tube have round, square or rectangular shapes formed by their outer surfaces. 4 . The access device of claim 1 , wherein, to prevent the proximal movement of the spring, the proximal end of the upper tube includes a stop portion having an outer surface with a circumference larger than a circumference of an adjacent portion of the upper tube, and wherein the stop portion is configured to prevent proximal movement of the spring relative to the distal end of the upper tube, and to cause the spring to compress when force is applied thereto in a proximal direction by the proximal end of the middle tube. 5 . The access device of claim 1 , wherein the middle tube includes one or more handles extending away from an outer surface of the proximal end of the middle tube, and wherein the proximal movement of the middle tube is caused by the application of force, in a proximal direction, on the one or more handles. 6 . The access device of claim 1 , wherein the one or more fingers are defined by slits formed through the outer and inner surfaces of the upper tube at its distal end. 7 . The access device of claim 1 , wherein ribs formed on an inner surface of the one or more fingers of the upper tube are configured to engage with grooves formed on an outer surface of the lower tube, to restrict the proximal and distal movement of the lower tube relative to the upper tube. 8 . The access device of claim 7 , wherein the size of the opening of the upper tube at its distal end when the fingers of the upper tube are compressed is smaller than or equal to the size of the lower tube at its proximal end, and wherein the size of the opening of the upper tube at its distal end when the fingers of upper tube are flanged is larger than the size lower tube at its proximal end. 9 . The access device of claim 8 , wherein the size of the opening of the middle tube is: (i) larger than the size of the upper tube at its distal end; (ii) larger than the size of the lower tube; and (iii) smaller than the size of the spring. 10 . The access device of claim 9 , wherein a length of the access device is adjustably set by the locked position of the lower tube in which its proximal and distal movement relative to the upper tube is restricted by the engagement of the grooves on the inner surface of the fingers with the grooves on the outer surface of the lower tube. 11 . A method for operating an access device, comprising: identifying a target depth required to access a surgical site in a patient's body; advancing the surgical access device from a biased configuration to an actuated configuration to allow distal and proximal sliding of a lower tube of the access device relative to an upper tube of the access device by causing one or more fingers disposed on a distal end of a lower tube of the access device to flange by applying one or more of (i) distal force on an upper tube of the access device, and (ii) proximal force on a middle tube of the access device, against the bias of a spring positioned between a proximal end of the upper tube and a proximal end of the middle tube, and causing the middle tube to slide proximally toward the proximal end of the upper tube; sliding the lower tube to a target position relative to the upper tube; advancing the surgical access device from the actuated configuration to the biased configuration, to lock the target position of the lower tube relative to the upper tube; and advancing a distal end of the surgical access device toward the surgical site in the patient's body; wherein, in the actuated configuration, the flanged fingers have an opening configured to enable the lower tube to slide distally and proximally therein. 12 . The method of claim 11 , wherein the advancing of the surgical access device from the actuated configuration to the biased configuration comprises: releasing the distal force on the upper tube or the proximal force on the middle tube, causing the spring to bias to its uncompressed configuration and driving the middle tube distally away from the proximal end of the upper tube, such that the fingers of the upper tube are compressed by the inner surface of the middle tube, and causing grooves disposed on an inner surface of the fingers of the upper tube to mate with grooves disposed on an outer surface of the lower tube to prevent the distal and proximal movement of the lower tube relative to the upper tube. 13 . The method of claim 11 , further comprising: delivering a material to the surgical site through an opening formed through the surgical access device, the material including one or more of: (i) a flowable material selected from the group consisting of hemostat and gelatin, and (ii) a powdered material selected from the group consisting of powdered pig bladder, pixie dust, and pixie power. 14 . The device of claim 1 , wherein the lower tube includes one or more markings corresponding to one or more length measurements of the device. 15 . The device of claim 1 , wherein stop portion includes a connector configured to couple the device to a support.