Implant load feedback apparatus

We claim: 1 . An apparatus for providing feedback on an implant, the apparatus comprising: a transport device for loading the implant in a patient; an actuator coupled with the transport device for actuating movement of the implant in the patient; and a load indicator coupled with at least one of the actuator or the transport device, the load indicator providing feedback indicative of a load on at least one of the implant or a body part of the patient wherein the load indicator includes a housing containing a communications device for transmitting the feedback indicative of the load to a surgical management system, wherein the load indicator includes an optical indicator cell with at least two optical markers, wherein the transport device includes a clutch mechanism, and the at least one of the two optical markers is coupled to a movable portion of the clutch mechanism an the at least one of the two optical markers if coupled to a stationary portion of the clutch mechanism, wherein the load indicator calculates a torque based on a distance change between the at least two optical markers as the transport device and a spring constant of a spring position in the clutch mechanism, as the transport device is operated. 2 . The apparatus of claim 1 , wherein the transport device comprises an intervertebral body (IB) transport device. 3 . The apparatus of claim 2 , wherein the implant comprises an intervertebral spacer for occupying an intervertebral disc space in a spinal region of the patient, and wherein the intervertebral body (IB) transport device comprises: a guide body; a distractor coupled with the guide body for transporting the intervertebral spacer relative to the intervertebral disc space; and set of distraction arms for positioning the intervertebral spacer in the intervertebral disc space. 4 . The apparatus of claim 3 , wherein the actuator comprises a driver coupled with a distal end of the distractor for causing movement of the distractor relative to the guide body. 5 . The apparatus of claim 4 , wherein the driver is directly coupled with the load indicator, and wherein the driver comprises a rotatable member, wherein the set of distraction arms are configured to expand to engage one or more vertebra adjacent the intervertebral disc space in response to rotation of the rotatable member, and wherein in response to rotation of the rotatable member after the distraction arms engage the one or more vertebra adjacent the intervertebral disc space, the distractor transports the intervertebral spacer relative to the intervertebral disc space. 6 . The apparatus of claim 4 , wherein the markers are configured to provide visual feedback of an amount of rotation of the driver, and wherein the housing is configured to be hermetically sealed and includes a rechargeable power source. 7 . The apparatus of claim 1 , wherein the load indicator is disposable and configured for one-time use. 8 . The apparatus of claim 1 , further comprising a release mechanism for releasing the implant from the transport device, wherein the release mechanism is adjustable independently of the actuator. 9 . The apparatus of claim 1 , wherein the transport device comprises a screwdriver for loading a screw into the body part of a patient or into an implant in a patient, the screwdriver having: a rotatable member for driving the screw; a shaft extending from the rotatable member; and the load indicator coupled with at least one of the rotatable member or the shaft. 10 . The apparatus of claim 9 , wherein the load indicator is axially aligned with, and located between, the rotatable member and the shaft. 11 . The apparatus of claim 9 , wherein the load indicator is housed within the rotatable member. 12 . The apparatus of claim 1 , further comprising at least one coupler integral with the load indicator, the at least one coupler enabling a snap-to-couple or twist-to-couple connection with one or both of the transport device or the actuator. 13 . A system for providing feedback from an implant comprising: an apparatus for providing feedback on an implant, the apparatus comprising: a transport device for loading the implant in a patient; an actuator coupled with the transport device for actuating movement of the implant in the patient; and a load indicator coupled with at least one of the actuator or the transport device, the load indicator providing feedback indicative of a load on at least one of the implant or a body part of the patient; and an optical feedback system for detecting at least one additional indicator of the load on at least one of the implant or the body part of the patient, wherein the load indicator includes a housing containing a communications device for transmitting the feedback indicative of the load to a surgical management system, wherein the load indicator includes an optical indicator cell with at least two optical markers, wherein the transport device includes a clutch mechanism, and the at least one of the two optical markers is coupled to a movable portion of the clutch mechanism an the at least one of the two optical markers if coupled to a stationary portion of the clutch mechanism, wherein the load indicator calculates a torque based on a distance change between the at least two optical markers as the transport device and a spring constant of a spring position in the clutch mechanism, as the transport device is operated. 14 . A method of performing an anterior lumbar interbody fusion (ALIF) or a lateral lumbar interbody fusion (LLIF) procedure using the apparatus of claim 1 .