Intelligent anvil for circular surgical stapler

We claim: 1. A surgical stapler comprising: (a) a body; (b) a shaft that extends distally from the body; (c) a stapling head disposed at a distal end of the shaft, wherein the stapling head is operable to drive a plurality of staples into tissue, wherein the stapling head comprises a closure shaft and a deck, wherein the closure shaft is selectively movable longitudinally relative to the deck; and (d) an anvil comprising: (i) a head comprising a proximally presented surface defining a plurality of staple forming pockets configured to form staples, wherein the proximally presented surface and the deck of the stapling head are configured to cooperatively grasp tissue; (ii) a shank extending proximally from the head, the shank configured to selectively couple with the closure shaft, (iii) a biasing body having a known spring constant, wherein the biasing body is interposed between the shank and the head such that the shank and the head are configured to move relative to each other, and (iv) an electronic unit comprising a distance sensor configured to measure a relative distance between the shank and the head, wherein the electronic unit is configured to communicate a parameter associated with the relative distance to a console, wherein the electronic unit comprises a control unit, wherein the control unit stores the known spring constant of the biasing body, wherein the control unit is configured to receive signals from the distance sensor indicative of the measured relative distance. 2. The surgical stapler of claim 1 , wherein the electronic unit is fixed relative to the shank. 3. The surgical stapler of claim 2 , wherein the distance sensor comprises a Hall Effect sensor, wherein a distally presented surface of the head comprises a magnet configured to interact with the Hall Effect sensor in order to measure the relative distance between the shank and the head. 4. The surgical stapler of claim 2 , wherein the distance sensor comprises a light sensor, and wherein a distally presented surface of the head comprise a reflective surface configured to interact with the light sensor in order to measure the relative distance between the shank and the head. 5. The surgical stapler of claim 1 , wherein the electronic unit further comprises a central camera located within a central bore defined by the shank. 6. The surgical stapler of claim 1 , wherein the electronic unit further comprises a first lateral camera facing toward a proximal direction. 7. The surgical stapler of claim 6 , wherein the first lateral camera comprises a light source. 8. The surgical stapler of claim 7 , wherein the electronic unit further comprises a second lateral camera facing toward the proximal direction. 9. The surgical stapler of claim 1 , wherein the biasing body comprises a spring, wherein the spring is fixed to the head at a first end, wherein the spring is fixed to the shank at a second end. 10. The surgical stapler of claim 1 , wherein the electronic unit further comprises a transmitter configured to transmit the signals received by the control unit. 11. The surgical stapler of claim 10 , wherein the electronic unit further comprises a battery configured to power the control unit and the transmitter. 12. The surgical stapler of claim 1 , wherein the proximally presented surface of the anvil comprises an annular shape. 13. The surgical stapler of claim 1 , wherein the shank comprises a pair of pivoting latch member configured to engage the closure shaft. 14. The surgical stapler of claim 1 , wherein the closure shaft comprises a trocar. 15. A surgical stapler comprising: (a) a body; (b) a shaft that extends distally from the body; (c) a stapling head disposed at a distal end of the shaft, wherein the stapling head is operable to drive a plurality of staples into tissue, wherein the stapling head comprises a closure shaft and a deck, wherein the closure shaft is selectively movable longitudinally relative to the deck; (d) an anvil comprising: (i) a head comprising a proximally presented surface defining a plurality of staple forming pockets configured to form staples, wherein the proximally presented surface and the deck of the stapling head are configured to cooperatively grasp tissue, (ii) a shank extending proximally from the head, the shank configured to selectively couple with the closure shaft, (iii) a translating body configured to, in response to engaging tissue, translate between a proximal position relative to the proximally presented surface of the head and a flush position relative to the proximal presented surface of the head, (iv) a sensor configured to measure a force generated by the translating body being in engagement with tissue, and (v) an electronic unit configured to communicate a parameter associated with the measured force of the sensor to a console; and (e) a spring interposed between the translating body and the sensor, wherein the spring biases the translating body into the proximal position. 16. The surgical instrument of claim 15 , wherein the translating body further comprises a breakaway washer. 17. The surgical instrument of claim 15 , wherein the sensor comprises an annular shape. 18. A surgical stapler comprising: (a) a body; (b) a shaft that extends distally from the body; (c) a stapling head disposed at a distal end of the shaft, wherein the stapling head is operable to drive a plurality of staples into tissue, wherein the stapling head comprises a closure shaft and a deck, wherein the closure shaft is selectively movable longitudinally relative to the deck; and (d) an anvil comprising: (i) a head comprising a proximally presented surface defining a plurality of staple forming pockets configured to form staples, wherein the proximally presented surface and the deck of the stapling head are configured to cooperatively grasp tissue, (ii) a shank extending proximally from the head, the shank configured to selectively couple with the closure shaft, (iii) a camera associated with the head and facing in a proximal direction, and (iv) an electronic unit configured to wirelessly communicate images captured by the camera to a console.