Thermal control system

What is claimed is: 1. A thermal control unit comprising: a first fluid outlet adapted to fluidly couple to a first fluid supply line; a second fluid outlet adapted to fluidly couple to a second fluid supply line; a first fluid inlet adapted to fluidly couple to a first fluid return line; a second fluid inlet adapted to fluidly couple to a second fluid return line; a heat exchanger; a pump for circulating fluid from the first and second fluid inlets through the heat exchanger and to the first and second fluid outlets; a sensing subsystem adapted to detect if the first fluid outlet becomes disconnected from the first fluid supply line and if the second fluid outlet becomes disconnected from the second fluid supply line; and a controller in communication with the pump, the heat exchanger, and the sensing subsystem, the controller adapted to provide a first indication to a user if the first fluid outlet becomes disconnected from the first fluid supply line and to provide a second indication to the user if the second fluid outlet become disconnected from the second fluid supply line. 2. The thermal control unit of claim 1 wherein the first fluid supply line and first fluid return line are coupled to a first patient thermal therapy device, and the second fluid supply line and the second fluid return line are coupled to a second patient thermal therapy device. 3. The thermal control unit of claim 2 wherein the sensing subsystem comprises: a first flow meter adapted to measure a first flow rate of the fluid through the first fluid outlet; and a second flow meter adapted to measure a second flow rate of the fluid through the second fluid outlet; and wherein the controller is in electrical communication with the first and second flow meters, and the controller is adapted to provide the first indication if the first flow rate measured by the first flow meter decreases below a threshold and the second indication if the second flow rate measured by the second flow meter decreases below the threshold. 4. The thermal control unit of claim 2 further comprising: a third fluid outlet adapted to fluidly couple to a third fluid supply line; a third fluid inlet adapted to fluidly couple to a third fluid return line; and wherein the sensing subsystem is further adapted to detect if the third fluid outlet becomes disconnected from the third fluid supply line, and wherein the controller is further adapted to provide a third indication to the user if the third fluid outlet becomes disconnected from the third fluid supply line. 5. The thermal control unit of claim 3 further comprising a user interface in electrical communication with the controller, the user interface comprising: a first graphic that is illuminated a first color when the first flow rate exceeds the threshold and is illuminated a second color when the first flow rate is less than the threshold; and a second graphic that is illuminated the first color when the second flow rate exceeds the threshold and is illuminated the second color when the second flow rate is less than the threshold. 6. The thermal control unit of claim 5 wherein the user interface is further adapted to allow a user to designate the first fluid outlet as either active or inactive and to designate the second fluid outlet as either active or inactive. 7. The thermal control unit of claim 6 wherein the first graphic is not illuminated when the first fluid outlet is designated as inactive, and the second graphic is not illuminated when the second fluid outlet is designated as inactive. 8. The thermal control unit of claim 7 wherein the first graphic is not visible when the first fluid outlet is designated as inactive and the second graphic is not visible when the second fluid outlet is designated as inactive. 9. The thermal control unit of claim 5 wherein the first color is green and the second color is yellow. 10. The thermal control unit of claim 1 further comprising a first temperature sensor positioned to measure a first temperature of fluid returning to the first fluid inlet, a second temperature sensor positioned to measure a second temperature of fluid returning to the second fluid inlet, and wherein the controller is adapted to display the first and second temperatures on a user interface. 11. The thermal control unit of claim 1 wherein the controller is adapted to operate in a plurality of modes that are selectable by a user, wherein in a first one of the plurality of modes the controller controls a temperature of the fluid pumped to the first and second fluid outlets based on a user-specified fluid target temperature, and wherein in a second one of the plurality of modes the controller controls the temperature of the fluid pumped to the first and second fluid outlets based on a user-specified patient target temperature. 12. The thermal control unit of claim 1 further comprising: a first patient temperature probe port adapted to receive a first patient temperature probe that measures a first temperature of a patient; a second patient temperature probe port adapted to receive a second patient temperature probe that measures a second temperature of the patient; and a user interface adapted to allow a user to choose the first patient temperature probe port or the second patient temperature probe port for use by the controller in controlling a temperature of the fluid pumped to the first and second fluid outlets. 13. The thermal control unit of claim 1 further comprising a removable reservoir adapted to be lifted out of the control unit. 14. The thermal control unit of claim 13 wherein, when the removable reservoir has been lifted out of the control unit, the pump continues to pump the fluid to the first and second outlets and the controller continues to control operation of the heat exchanger. 15. The thermal control unit of claim 13 further comprising a reservoir sensor adapted to detect an absence or presence of the removable reservoir, the reservoir sensor in electrical communication with the controller, wherein the controller is adapted to issue an alert if the reservoir sensor detects the absence of the removable reservoir. 16. The thermal control unit of claim 10 wherein the controller is in electrical communication with the first and second temperature sensors and the controller is adapted to control the heat exchanger based on a mathematical combination of outputs from the first and second temperature sensors. 17. The thermal control unit of claim 16 wherein the mathematical combination is an average of the outputs of the first and second temperature sensors. 18. The thermal control unit of claim 1 further comprising a housing in which the heat exchanger, pump, sensing subsystem, and controller are located; wherein the first and second fluid outlets are positioned at locations such that fluid exits the housing when passing through each of the first and second outlets.