Spinal stabilization device, system, and method of use

What is claimed is: 1 . A spinal stabilization device comprising: a rod receiving member defining a first throughhole, a collet recess aligned with the first throughhole, and a rod receiving slot offset from the first throughhole; a collet insertable into the collet recess of the rod receiving member, the collet defining an aperture, a plug recess aligned with the aperture, and a wall portion, the wall portion and the rod receiving slot cooperatively defining a rod securement region configured to selectively fix a spinal rod therein, the collet transitionable between a first diameter, wherein the rod securement region defines a first diameter, and a second, larger diameter, wherein the rod securement region defines a second, smaller diameter; a plug insertable within the plug recess of the collet and configured to transition the collet between the first and second diameters, such that the collet is in the first diameter when the plug is removed and the collet is in the second diameter when the plug is inserted; and a first bone screw including a head portion and a threaded portion, the threaded portion insertable through the first throughhole of the rod receiving member and the aperture of the collet. 2 . The spinal stabilization device of claim 1 , wherein an axis defined by the rod receiving slot is transverse to an axis defined by the first throughhole. 3 . The spinal stabilization device of claim 1 , wherein the threaded portion of the first bone screw is configured to engage an inner surface defining the first throughhole of the rod receiving member. 4 . The spinal stabilization device of claim 1 , wherein the head portion of the first bone screw is configured to deform an inner surface defining the first throughhole of the rod receiving member, such that the first bone screw is fixed thereto. 5 . The spinal stabilization device of claim 1 , wherein the collet includes a key feature and the plug includes a corresponding key feature such that the collet and the plug are thereby aligned. 6 . The spinal stabilization device of claim 1 , wherein the collet includes a retention feature disposed on an inner surface thereof, the retention feature configured to engage the head portion of the first bone screw and inhibit proximal translation thereof with respect to the collet. 7 . The spinal stabilization device of claim 1 , wherein the first bone screw further includes a flat distal tip. 8 . The spinal stabilization device of claim 1 , wherein the collet includes a circumferential cutout along a portion thereof, the cutout configured to facilitate the transition between the first and second diameters. 9 . The spinal stabilization device of claim 1 , wherein the plug and the plug recess of the collet are configured such that in the second diameter a top surface of the plug is flush with a top surface of the collet. 10 . The spinal stabilization device of claim 1 , further including a bone spike disposed on a distal surface of the rod receiving member and adapted to penetrate bone. 11 . The spinal stabilization device of claim 1 , wherein at least a portion of a distal surface of the rod receiving member is arcuate. 12 . The spinal stabilization device of claim 1 , wherein at least one of the rod receiving member, the collet, or the plug include at least one rounded edge. 13 . The spinal stabilization device of claim 1 , wherein the first throughhole of the rod receiving member defines a first axis. 14 . The spinal stabilization device of claim 13 , wherein the rod receiving member includes a second throughhole configured to receive a second bone screw, the second throughhole defining a second axis that is offset from the first axis. 15 . The spinal stabilization device of claim 14 , wherein the second bone screw is insertable through the second throughhole at an angle relative to the second axis. 16 . The spinal stabilization device of claim 15 , wherein the angle is between about 1 degree and about 22.5 degrees. 17 . The spinal stabilization device of claim 14 , wherein the rod receiving slot defines a third axis that is transverse to one of the first and second axes. 18 . The spinal stabilization device of claim 14 , wherein the second axis is oriented at an angle relative to the first axis. 19 . The spinal stabilization device of claim 14 , wherein the first axis is parallel to the second axis. 20 . The spinal stabilization device of claim 14 , wherein a mounting ring extends from an outer surface of the rod receiving member, the mounting ring defining the second throughhole. 21 . The spinal stabilization device of claim 20 , wherein the mounting ring is integrally formed with the rod receiving member. 22 . The spinal stabilization device of claim 20 , wherein the mounting ring defines an inner surface and a lip extending inwardly from the inner surface, the lip defining a planar surface that extends towards a center of the second throughhole. 23 . The spinal stabilization device of claim 1 , wherein the rod receiving member defines at least one pin recess therethrough, the at least one pin recess configured to receive at least one pin to selectively lock the rod receiving member, the collet, and the plug into a unitary arrangement. 24 . A stabilization method comprising: engaging a head portion of a first bone screw with an inner surface of a first throughhole of a first rod receiving member thereby coupling the first bone screw and the first rod receiving member; driving a threaded portion of the first bone screw into a first vertebra; inserting a portion of a spinal rod into a first rod securement region defined by a rod receiving slot of the first receiving member and a wall portion of a first collet disposed in the first receiving member, the first collet defining a first diameter and the first rod securement region defining a first diameter; and incrementally driving a first plug distally with respect to the first collet within a plug recess of the first collet such that the first collet transitions towards a second, larger diameter and the first rod securement region transitions towards a second, smaller diameter. 25 . The method of claim 24 further including: engaging a head portion of a second bone screw with an inner surface of a first throughhole of a second rod receiving member; driving a threaded portion of the second bone screw into a second vertebra; inserting a portion of the spinal rod into a second rod securement region defined by a rod receiving slot of the second receiving member and a wall portion of a second collet disposed in the second rod receiving member, the second collet defining a first diameter and the second rod securement region defining a first diameter; and incrementally driving a second plug distally with respect to the second collet within a plug recess of the second collet such that the second collet transitions towards a second, larger diameter and the second rod securement region transitions towards a second, smaller diameter. 26 . The method of claim 25 , wherein incrementally driving the first plug or the second plug further includes incrementally driving the first plug or the second plug either simultaneously or sequentially. 27 . The method of claim 24 further including: completely driving the first plug distally such that the first collet defines the second, larger diameter a