Compression device, system, and method for decreasing abdominal venous pooling

The following is claimed: 1. A compression device comprising: an adjustable belt sized to fit circumferentially around an abdomen of a subject; an inflatable bladder secured to the belt, the bladder adapted to extend substantially transverse to the abdomen when the adjustable belt is circumferentially fit around the abdomen of the subject; and a control module secured to the belt, the control module including a housing that encloses the following: a pump in fluid communication with the bladder and configured to inflate the bladder to a pre-determined pressure and thereby apply a compressive pressure to the abdomen of the subject, the bladder being configured to reduce abdominal venous pooling within the internal organs of the subject when inflated to the pre-determined pressure; at least one pressure relief valve in fluid communication with the bladder and configured to decrease the pressure within the bladder; a sensor adapted to sense a change in posture of the subject; and a controller configured to automatically adjust the compressive pressure in response to the change in the posture of the subject sensed by the sensor, the controller being in electrical communication with the pump and the at least one pressure relief valve. 2. The device of claim 1 , the bladder further including: a dorsal portion configured to apply compressive pressure to only the lower back of the subject; and a ventral portion that is oppositely disposed from the dorsal portion and configured to apply compressive pressure to only the abdomen of the subject. 3. The device of claim 1 , the controller further including: a memory device; and a processor configured to execute commands in the memory device. 4. The device of claim 3 , further including: an accelerometer located within the housing and configured to detect the change in the posture of the subject; and at least one pressure sensor located within the housing and configured to detect the pressure within the bladder; wherein each of the accelerometer and the at least one pressure sensor is in electrical communication with the controller. 5. The device of claim 4 , wherein the accelerometer is a 3-axis accelerometer. 6. The device of claim 3 , wherein the memory device includes a predefined pressurization/depressurization protocol for automatically adjusting the compressive pressure in response to the change in the posture of the subject. 7. The device of claim 1 , wherein the controller causes the pressure in the bladder to increase to the pre-determined pressure in response to a sitting-standing transition. 8. The device of claim 1 , wherein the controller causes the pressure in the bladder to decrease in response to a standing-sitting or standing-supine transition. 9. A system for decreasing abdominal venous pooling in a subject, the system comprising: a compression device including: an adjustable belt sized to fit circumferentially around the abdomen of a subject; an inflatable bladder secured to the belt, the bladder being adapted to extend substantially transverse to the abdomen when the adjustable belt is circumferentially fit around the abdomen of the subject; and a control module secured to the belt, the control module including a housing that encloses the following: a pump in fluid communication with the bladder and configured to inflate the bladder to a pre-determined pressure and thereby apply a compressive pressure to the abdomen of the subject, the bladder being configured to reduce abdominal venous pooling within the internal organs of the subject when inflated to the pre-determined pressure; at least one pressure relief valve in fluid communication with the bladder and configured to decrease the pressure within the bladder; a sensor adapted to sense a change in posture of the subject; and a controller configured to automatically adjust the compressive pressure in response to the change in the posture of the subject sensed by the sensor, the controller being in electrical communication with the pump and the at least one pressure relief valve; and a handheld electronic device in wireless communication with the controller. 10. The system of claim 9 , wherein the controller further includes a wireless interface for communicating with the handheld electronic device. 11. The system of claim 9 , wherein the handheld electronic device is a smart phone. 12. The system of claim 9 , further including an accelerometer that is configured to be secured to a thigh of the subject and in wireless communication with the controller. 13. The system of claim 9 , wherein the controller includes a processor for executing commands stored in a memory device, the processor: activating the pump to increase pressure within the bladder to the pre-determined pressure when a sitting-standing transition is detected by an accelerometer; and activating the at least one pressure relief valve to decrease pressure within the bladder when a standing-sitting or standing-supine transition is detected by the accelerometer; wherein the activating steps are based on a pressurization/depressurization protocol stored in the memory device. 14. A method for decreasing abdominal venous pooling in a subject comprising: providing a compression device comprising: an adjustable belt sized to fit circumferentially around an abdomen of a subject; an inflatable bladder secured to the belt, the bladder adapted to extend substantially transverse to the abdomen when the adjustable belt is circumferentially fit around the abdomen of the subject; and a control module secured to the belt, the control module including a housing that encloses the following: a pump in fluid communication with the bladder and configured to inflate the bladder to a pre-determined pressure and thereby apply a compressive pressure to the abdomen of the subject, the bladder being configured to reduce abdominal venous pooling within the internal organs of the subject when inflated to the pre-determined pressure; at least one pressure relief valve in fluid communication with the bladder and configured to decrease the pressure within the bladder; a sensor adapted to sense a change in posture of the subject; and a controller configured to automatically adjust the compressive pressure in response to the change in the posture of the subject sensed by the sensor, the controller being in electrical communication with the pump and the at least one pressure relief valve; using the compression device to automatically apply a compressive pressure to the abdomen of the subject in response to the change in the posture of the subject sensed by the sensor. 15. The method of claim 14 , wherein the compressive pressure is applied to the abdomen by inflating a compressive device worn by the subject about the abdomen. 16. The method of claim 15 , wherein the compressive pressure is automatically adjusted by a pump controlled by a controller. 17. The method of claim 16 , wherein the controller adjusts the compressive pressure in accordance with a predefined pressurization/depressurization protocol. 18. The method of claim 17 , further comprising: activating the pump to increase pressure within the bladder when a sitting-standing transition is detected by an accelerometer associated with the compressive device; and activating at least one pressure relief valve associated with the compressive device to decrease the pressure within the bladder when a standing-sitting or standing-supine transition is detected by the accelerometer. 19. The method