Absorbable fastener for hernia mesh fixation

What is claimed is: 1. A fastener applier apparatus comprising: a body; a trigger supported on the body; a non-cannulated threaded fastener including: a threaded head section; and a distal tissue snaring section; an actuator assembly transmitting motion from the trigger and including a rotary assembly supported in the body and being operatively connected to the trigger, the actuator assembly including: a spline hub; a flexible arm extending from the spline hub wherein the flexible arm rotates upon trigger actuation; and a drive tooth projecting from the flexible arm; and a gear rotatably supported in the body and being operatively associated with the drive tooth of the flexible arm, the gear defining a groove formed in a surface thereof for receipt of the drive tooth, the groove is configured such that rotation of the actuator assembly in a first direction causes the drive tooth to engage an end surface of the groove and transmit rotation to the gear, and such that rotation of the actuator assembly in a second direction, opposite the first direction, disengages the drive tooth from the groove of the gear and permits rotation of the actuator assembly independent of the gear; an inner tube including a slotted distal end configured to receive the threaded head section of the non-cannulated threaded fastener and an outer tube including screw threads configured to engage the threaded head section of the non-cannulated threaded fastener; wherein the inner and outer tubes support the non-cannulated threaded fastener and are configured to advance the non-cannulated threaded fastener distally away from the actuator assembly via rotation of the inner tube. 2. The fastener applier apparatus of claim 1 , wherein at least part of the groove is defined by a ramp section to provide a sliding surface for disengagement of the drive tooth of the actuator assembly from the groove of the gear. 3. The fastener applier apparatus of claim 1 , further including a drive pinion coupled to the inner tube, the drive pinion being operatively connected with the gear to rotate the inner tube. 4. The fastener applier apparatus of claim 3 , wherein the gear associated with the drive tooth is configured to rotate the drive pinion and the inner tube a set number of full rotations with a single rotation thereof. 5. The fastener applier of claim 4 , wherein the non-cannulated threaded fastener is located within the threaded outer tube of the fastener applier and engaged with the inner tube, the threaded outer tube being supported by the body, wherein: (1) the location of the threaded fastener is in the threaded outer tube, and (2) the configuration of the non-cannulated threaded fastener, being such that the set number of full rotations of the inner tube is required to fully expel the non-cannulated threaded fastener from the threaded outer tube. 6. The fastener applier apparatus of claim 1 , further including a trigger gear extending from the trigger and being operatively connected to the actuator assembly, wherein, upon an actuation stroke, the trigger gear is configured to impart a full rotation of the gear associated with the drive tooth. 7. A fastener applier apparatus comprising: a body; a non-cannulated threaded fastener including: a threaded head section; and a distal tissue snaring section; an outer tube extending from the body; the outer tube including screw threads configured to engage the threaded head section of the non-cannulated threaded fastener; a drive rotatably supported in the outer tube and in the body; the drive including a slotted distal end configured to receive the threaded head section of the non-cannulated threaded fastener; a trigger supported on the body; and a gear system supported in the body and interconnecting the trigger and the drive, the gear system being configured to impart uni-directional rotation to the drive during any portion of a firing stroke of the trigger and during any portion of a return stroke of the trigger. 8. The fastener applier apparatus of claim 7 , wherein the gear system includes a rotary ratchet system having a single tooth configured to engage a single catch of a rotary member supported in the body, wherein the tooth engages the catch upon a complete actuation of the trigger which transmits a rotation to the tooth relative to the rotary member. 9. The fastener applier apparatus of claim 7 , wherein the gear system imparts a uni-directional forward rotation of the drive during at least a partial firing stroke of the trigger, and wherein the gear system inhibits a reverse rotation of the drive during any portion of a return stroke of the trigger. 10. The fastener applier apparatus of claim 7 , wherein the trigger is pivotally mounted to the body to define a pivot end and a free end, the trigger defining a trigger gear along the free end, the trigger gear being operatively connected with the gear system to impart movement of at least a portion of the gear system during rotation of the trigger about the pivot end. 11. The fastener applier apparatus of claim 10 , wherein the gear system includes: a pinion gear operatively connected with the trigger gear and configured to rotate in response to the rotation of the trigger about the pivot end; a bevel gear operatively connected with the pinion gear, the pinion gear being configured to rotate the bevel gear in a first direction in response to rotation of the trigger by the firing stroke; a drive gear operatively connected with the bevel gear, the drive gear being coupled to the drive, the bevel gear being configured to rotate the drive gear to impart rotation of the drive in response to the rotation of the trigger by the firing stroke. 12. The fastener applier apparatus of claim 11 , wherein the pinion gear has a flexible drive tooth projecting from a surface thereof and the bevel gear defining a groove formed in a surface thereof for receipt of the flexible drive tooth, the groove defining an end surface that is configured to engage with the drive tooth during rotation of the pinion gear in a first direction defined by the rotation produced during the firing stroke of the trigger, the groove configured to allow disengagement of the bevel gear with the drive tooth during rotation of the pinion gear in a second direction defined by the rotation produced during the return stroke of the trigger. 13. The fastener applier apparatus of claim 7 , wherein the gear system is configured to rotate the drive a set number of full rotations with a single firing stroke of the trigger. 14. The fastener applier apparatus of claim 7 , wherein the outer tube includes an outer surface and an inner surface, and the screw threads extending along a portion of the inner surface for engaging the threaded head section of the non-cannulated threaded fastener. 15. A fastener applier apparatus comprising: a body; a non-cannulated threaded fastener including: a threaded head section; and a distal tissue snaring section; an outer tube extending from the body; the outer tube including screw threads configured to engage the threaded head section of the non-cannulated threaded fastener; a drive rotatably supported in the outer tube and in the body; the drive including a slotted distal end configured to receive the threaded head section of the non-cannulated threaded fastener; a trigger supported on the body; a first actuation member supported in the body and engaged with the trigger, wherein any portion of a firing stroke of the trigger imparts a movement of the first actuation member in a first direction, and wherein any portion of a return stoke of the trigger im