Methods and devices for spinal correction

We claim: 1. A spinal correction system comprising: an expandable trial implant which is movable between a compressed position and an expanded position; the expandable trial implant is configured and sized to be disposed in an intervertebral disc space and placed in an expanded position for monitoring of a neural spacing proximate the intervertebral disc space with the expandable trial implant in the expanded position; an imaging system configured to provide pre-operative information representative of the intervertebral disc space; and a neural release system configured to provide intra-operative information representative of the neural foramen spacing and the neural release system is configured to use the intra-operative information representative of the neural foramen spacing to determine whether to clear more spinal tissue from the intervertebral disc space. 2. The system of claim 1 , wherein the neural release system comprises one of: a spinal pressure monitoring system for providing intra-operative information representative of the neural foramen spacing, an ultrasonic detection system for providing intra-operative information representative of the neural foramen spacing, a balloon measurement system for providing intra-operative information representative of the neural foramen spacing, and a spinal pressure monitoring system for providing intra-operative information representative of the neural foramen spacing. 3. The system of claim 1 , further comprising at least one load cell on the expandable trial implant for monitoring a load on the expandable trial implant imparted on the trial implant by an intervertebral disc. 4. The system of claim 3 , wherein the at least one load cell comprises a plurality of load cells disposed on each of an inferior and a superior surface of the trial implant. 5. The system of claim 4 , wherein the plurality of load cells disposed on the inferior surface are arranged so that the load cell information is mapped into at least two regions, and the plurality of load cells disposed on the superior surface are arranged so that the load cell information is mapped into at least two regions. 6. The system of claim 1 , further comprising a data aggregation system which aggregates and evaluates medical data and wherein the data aggregation system predicts an outcome of a surgery based on outcomes of previous surgeries. 7. The system of claim 1 , further comprising a pre-operative planning system configured to estimate an amount of pre-operative neural spacing and further comprising a data aggregation system which aggregates and evaluates medical data and wherein the pre-operative planning system determines a planned amount of spinal correction and a planned amount of neural release based on historical data of the data aggregation system. 8. The system of claim 7 , wherein the pre-operative planning system calculates a planned post-operative intervertebral disc space height. 9. The system of claim 1 wherein the neural release system determines a baseline neural spacing prior to clearing of the intervertebral disc space. 10. The system of claim 1 wherein the neural release system signals when all corners of the expandable trial implant contact endplates of vertebral bodies proximate the intervertebral disc space. 11. The system of claim 1 , wherein the neural release system is further configured to provide updated intra-operative information representative of the neural foramen spacing of the neural foramen located proximate the intervertebral disc space and the neural release system is further configured to use the updated intra-operative information representative of the neural foramen spacing to determine whether to clear more spinal tissue. 12. A method for spinal correction, comprising: receiving information representative of a neural foramen spacing from a neural spacing monitoring system, the neural foramen being located proximate an intervertebral disc space; comparing the information representative of a neural foramen spacing to a predefined foramen spacing parameter; and determining whether to remove more of the disc based on comparison of the information representative of a neural foramen spacing and the predefined foramen spacing parameter. 13. The method of claim 12 further comprising receiving pre-operative information representative of the intervertebral disc space from an imaging system. 14. The method of claim 13 the neural spacing monitoring system is a plurality of load cells on an expandable trial implant for monitoring a load on the expandable trial implant imparted onto the expandable trial implant by the intervertebral disc, and further comprising receiving load information from the plurality of load cells on the expandable trial implant and mapping the received load information from the plurality of load cells into at least two regions, and wherein determining whether to remove more of the disc comprises determining where to remove more of the disc tissue based on at least one of the mapped regions of load information. 15. The method of claim 12 wherein the neural spacing monitoring system is one of an ultrasonic detection system for providing intra-operative information representative of the neural foramen spacing, a balloon measurement system for providing intra-operative information representative of the neural foramen spacing, a spinal pressure monitoring system for providing intra-operative information representative of the neural foramen spacing, and at least one load cell on an expandable trial implant for monitoring a load on the expandable trial implant imparted on the expandable trial implant by the intervertebral disc. 16. The method of claim 12 wherein determining whether to remove more of the disc comprises determining whether to remove more of the disc based on historical information of patient surgeries.