Systems and methods for facilitating movement of a patient transport apparatus

What is claimed is: 1. A patient transport apparatus comprising: a base; a patient support surface supported by said base; a wheel coupled to said base and configured to roll about a roll axis in response to a force being applied to said patient transport apparatus by an operator, said wheel having a swivel axis and configured to assume a trailing orientation and a non-trailing orientation; a pre-swivel mechanism coupled to said wheel; an input device configured to generate an input signal; and a controller configured to actuate said pre-swivel mechanism based on said input signal received from said input device, wherein said pre-swivel mechanism is configured to swivel said wheel about said swivel axis from said non-trailing orientation toward said trailing orientation relative to a direction of desired movement of said patient transport apparatus so that the force required to be applied to said patient transport apparatus by the operator to manually move said patient transport apparatus in the direction of desired movement is reduced. 2. The patient transport apparatus of claim 1 , wherein said controller is configured to detect said direction of desired movement based on said input signal received from said input device. 3. The patient transport apparatus of claim 1 , wherein said input device comprises a force sensing system configured to detect the force applied by the operator to said patient transport apparatus to determine said direction of desired movement. 4. The patient transport apparatus of claim 1 , further comprising a brake coupled to said wheel and operable in a braked mode and an unbraked mode, wherein said controller is configured to determine when said brake is in said braked mode, and said controller is configured to prevent actuation of said pre-swivel mechanism if said controller determines that said brake is in said braked mode. 5. The patient transport apparatus of claim 1 , further comprising three additional wheels, with said wheel and said three additional wheels respectively arranged in each of four quadrants of said base. 6. The patient transport apparatus of claim 1 , wherein said pre-swivel mechanism is configured to swivel said wheel at least 180 degrees between said non-trailing orientation and said trailing orientation. 7. The patient transport apparatus of claim 1 , wherein said controller is configured to detect whether said wheel is in said trailing orientation or said non-trailing orientation. 8. The patient transport apparatus of claim 1 , further comprising a position sensor in communication with said controller and configured to detect whether said wheel is in said trailing orientation or said non-trailing orientation. 9. The patient transport apparatus of claim 1 , wherein said controller is configured to actuate said pre-swivel mechanism after a predetermined amount of time after receiving said input signal from said input device. 10. The patient transport apparatus of claim 1 , wherein said pre-swivel mechanism comprises a motor coupled to said wheel. 11. A method of reducing a start-up force necessary to initiate manual movement of a patient transport apparatus by an operator in a direction of desired movement, the patient transport apparatus comprising a base, a wheel coupled to the base and capable of assuming a trailing orientation and a non-trailing orientation, a patient support surface supported by the base, a pre-swivel mechanism coupled to the wheel, and an input device, said method comprising: detecting an input signal generated by the input device; and actuating the pre-swivel mechanism based on the input signal generated by the input device to swivel the wheel about the swivel axis from the non-trailing orientation toward the trailing orientation relative to the direction of desired movement of the patient transport apparatus so that the start-up force required to be applied to the patient transport apparatus by the operator to manually move the patient transport apparatus in the direction of desired movement is reduced. 12. The patient transport apparatus of claim 1 , further comprising a motion sensor to monitor movement of said patient transport apparatus; and wherein said controller is further configured to determine a speed of said patient transport apparatus based on input signals associated with said motion sensor, and to actuate said pre-swivel mechanism in response to the speed of said patient transport apparatus being less than 1.0 miles per hour.