Angiosome-based perfusion monitoring system

What is claimed is: 1. An angiosome-based perfusion monitoring system comprising: a compression device sized and shaped for placement on a limb of a subject, the compression device including: at least one pressurizable bladder configured to exert a suitable compressive force on the limb of the subject when pressurized to substantially occlude blood flow into skin capillary beds adjacent to the at least one pressurizable bladder; and a plurality of spaced apart perfusion sensors located generally adjacent the at least one bladder, each perfusion sensor of the plurality configured to detect a perfusion parameter of skin capillary beds adjacent the perfusion sensor for quantifying skin capillary bed perfusion and generate a signal indicative of the perfusion parameter, wherein each perfusion sensor of the plurality is configured to generate a unique identifier signal that indicates a location on the compression device corresponding to the perfusion sensor. 2. The monitoring system of claim 1 , further comprising a control circuit configured to map each perfusion sensor of the plurality to an artery based on the identifier signal generated by the respective perfusion sensor. 3. The monitoring system of claim 1 , further comprising a control circuit configured to identify an artery that is occluded based on the perfusion parameter detected by a particular perfusion sensor of the plurality of perfusion sensors and the location of the particular perfusion sensor indicated by the respective identifier signal. 4. The monitoring system of claim 1 , wherein the at least one pressurizable bladder comprises a plurality of bladders. 5. The monitoring system of claim 4 , wherein bladders of the plurality of bladders are selectively inflatable. 6. The monitoring system of claim 4 , wherein each bladder of the plurality of bladders is associated with a respective angiosome, and wherein, for each perfusion sensor of the plurality of perfusion sensors, the unique identifier signal generated by the perfusion sensor further indicates the angiosome associated with a respective bladder of the plurality of bladders. 7. The monitoring system of claim 1 , further comprising: a pressure sensor that indicates a pressure of the at least one pressurizable bladder; and a control circuit configured to pressurize the at least one pressurizable bladder based on the pressure indicated by the pressure sensor. 8. The monitoring system of claim 1 , wherein the plurality of perfusion sensors comprise plethysmography sensors. 9. The monitoring system of claim 1 , wherein the plurality of perfusion sensors comprise ultra-sound sensors. 10. The monitoring system of claim 1 , wherein the plurality of perfusion sensors comprise pulse oximetry sensors. 11. The monitoring system of claim 1 , wherein the plurality of perfusion sensors comprise metabolic indicators. 12. The monitoring system of claim 1 , wherein the plurality of perfusion sensors comprise bioimpedance sensors. 13. The monitoring system of claim 1 , wherein each perfusion sensor of the plurality is configured to send the identifier signal within the signal indicative of the perfusion parameter. 14. The monitoring system of claim 1 , further comprising a control device, the control device comprising: a source of pressurized fluid for introducing into the compression device; and a control circuit configured to: pressurize the at least one pressurizable bladder when the compression device is placed on the limb of the subject to substantially occlude blood perfusion in skin capillary beds adjacent to the at last one pressurizable bladder, and depressurize the at least one pressurizable bladder at a first controlled rate after pressurizing the at least one pressurizable bladder, receive separate sensor signals from the plurality of perfusion sensors during depressurization of the at least one pressurizable bladder, wherein the sensor signals are indicative of perfusion parameters of skin capillary beds adjacent the respective perfusion sensors, map sensor signals from a first perfusion sensor of the plurality of perfusion sensors to at least one of a first angiosome or a first artery of the limb, map sensor signals from a second perfusion sensor of the plurality of perfusion sensors to at least one of a second angiosome or a second artery of the limb different from the first artery of the limb, and determine, for each perfusion sensor, whether the received sensor signals are indicative of peripheral artery disease. 15. An angiosome-based perfusion monitoring system comprising: a control device including: a source of pressurized fluid for introducing into a compression device that is configured to be placed on a limb of a subject; and a control circuit configured to: pressurize at least one pressurizable bladder of the compression device with the pressurized fluid when the compression device is placed on the limb of a subject to substantially occlude blood perfusion in skin capillary beds adjacent to the at least one pressurizable bladder, and depressurize the at least one pressurizable bladder at a first controlled rate after pressurizing the at least one pressurizable bladder, receive separate sensor signals from a plurality of perfusion sensors of the compression device during depressurization of the at least one pressurizable bladder, wherein each perfusion sensor of the plurality of perfusion sensors is located generally adjacent the at least one pressurizable bladder and each perfusion sensor of the plurality of perfusion sensors is configured to generate a unique identifier signal that indicates a location on the compression device corresponding to the perfusion sensor, and wherein the sensor signals are indicative of a perfusion parameter of skin capillary beds adjacent the perfusion sensor for quantifying skin capillary bed perfusion, map sensor signals from a first sensor of the plurality of perfusion sensors to a first artery of the limb, map sensor signals from a second sensor of the plurality of perfusion sensors to a second artery of the limb, wherein the second artery is different from the first artery, and determine, for each perfusion sensor, whether the received sensor signals are indicative of peripheral artery disease. 16. The monitoring system of claim 15 , wherein the control circuit is further configured to pressurize the at least one pressurizable bladder to a predetermined threshold pressure for a predetermined amount of time. 17. The monitoring system of claim 15 , further comprising a user interface display, wherein the control circuit is configured to determine at least one received signal of the received signals is indicative of peripheral artery disease, determine a location of the determined peripheral artery disease based on one or more unique identifier signals from the one or more perfusion sensors that generated the at least one received signal, and generate a graphical rendering of the limb and identify on the graphical rendering the location of the determined peripheral artery disease. 18. The monitoring system of claim 17 , wherein the location of the determined peripheral artery disease is within the first artery, wherein the control circuit is configured to generate a name of the first artery on the user interface display. 19. The monitoring system of claim 15 , wherein the at least one pressurizable bladder comprises a plurality of bladders, each bladder of the plurality of bladders being associated with a respective angiosome, and wherein, for each perfusion sen