Patient transport apparatus with motion dampening

What is claimed is: 1. A patient transport apparatus for use with a retainer of a transport vehicle, the patient transport apparatus comprising: a support structure comprising: a retracting head section, and a patient support surface to support a patient; an engagement member coupled to the support structure and configured to engage the retainer when unloading the patient transport apparatus from the transport vehicle; a loading wheel assembly coupled to the retracting head section; and a dampener coupled to the retracting head section adjacent to the loading wheel assembly and operable in a standby state or a resistance state such that the dampener provides increased resistance to movement of the patient transport apparatus in the resistance state as compared to the standby state, the resistance state configured to be activated by manually moving the patient transport apparatus in a first direction and the standby state configured to be activated by manually moving the patient transport apparatus in a second direction, opposite the first direction. 2. The patient transport apparatus of claim 1 , comprising a plurality of caster wheel assemblies coupled to the support structure, wherein the loading wheel assembly is movable in elevation relative to the caster wheel assemblies. 3. The patient transport apparatus of claim 2 , wherein the dampener is integrated into the loading wheel assembly. 4. The patient transport apparatus of claim 3 , wherein the loading wheel assembly comprises a wheel housing and a loading wheel rotatably coupled to the wheel housing, the dampener being located in the wheel housing. 5. The patient transport apparatus of claim 4 , wherein the dampener comprises a dampening element arranged to act between the wheel housing and the loading wheel to provide resistance to rotation of the loading wheel in the resistance state. 6. The patient transport apparatus of claim 5 , wherein the wheel housing defines a slot and the dampening element comprises a pin disposed in the slot, the pin configured to move in the slot from a standby position to a resistance position such that the pin provides increased resistance to rotation of the loading wheel when the loading wheel is rotating in a first rotational direction and the pin is in the resistance position as compared to when the loading wheel is rotating in a second rotational direction, opposite the first rotational direction, and the pin is in the standby position. 7. The patient transport apparatus of claim 1 , wherein the dampener comprises a swing arm coupled to the support structure. 8. The patient transport apparatus of claim 7 , comprising a resistance pad coupled to the swing arm, wherein the dampener further comprises a dampener wheel and the resistance pad is in frictional contact with the dampener wheel to dampen rotation of the dampener wheel relative to the swing arm. 9. The patient transport apparatus of claim 7 , wherein the dampener further comprises a resistance pad fixed to the swing arm. 10. The patient transport apparatus of claim 1 , wherein the engagement member comprises a bar pivotally connected to the retracting head section. 11. A patient transport system for use with a transport vehicle, the patient transport system comprising: a retainer; and a patient transport apparatus comprising: a support structure comprising: a retracting head section, and a patient support surface to support a patient; an engagement member coupled to the support structure and configured to engage the retainer when unloading the patient transport apparatus from the transport vehicle; a loading wheel assembly coupled to the retracting head section; and a dampener coupled to the retracting head section adjacent to the loading wheel assembly and operable in a standby state or a resistance state such that the dampener provides increased resistance to movement of the patient transport apparatus in the resistance state as compared to the standby state, the resistance state configured to be activated by manually moving the patient transport apparatus in a first direction and the standby state configured to be activated by manually moving the patient transport apparatus in a second direction, opposite the first direction. 12. The patient transport system of claim 11 , comprising a plurality of caster wheel assemblies coupled to the support structure, wherein the loading wheel assembly is movable in elevation relative to the caster wheel assemblies. 13. The patient transport system of claim 12 , wherein the dampener is integrated into the loading wheel assembly. 14. The patient transport system of claim 13 , wherein the loading wheel assembly comprises a wheel housing and a loading wheel rotatably coupled to the wheel housing, the dampener being located in the wheel housing. 15. The patient transport system of claim 14 , wherein the dampener comprises a dampening element arranged to act between the wheel housing and the loading wheel to provide resistance to rotation of the loading wheel. 16. The patient transport system of claim 15 , wherein the wheel housing defines a slot and the dampening element comprises a pin disposed in the slot, the pin configured to move in the slot from a standby position to a resistance position such that the pin provides increased resistance to rotation of the loading wheel when the loading wheel is rotating in a first rotational direction and the pin is in the resistance position as compared to when the loading wheel is rotating in a second rotational direction, opposite the first rotational direction, and the pin is in the standby position. 17. The patient transport apparatus of claim 11 , wherein the dampener comprises a swing arm coupled to the support structure and a dampening element configured to cooperate with the swing arm. 18. The patient transport apparatus of claim 17 , comprising a resistance pad coupled to the swing arm, wherein the dampening element comprises a dampener wheel and the resistance pad is in frictional contact with the dampener wheel to dampen rotation of the dampener wheel relative to the swing arm. 19. The patient transport apparatus of claim 17 , wherein the dampening element comprises one or more of a resistance pad fixed to the swing arm or a resistance pad configured to be fixed to a floor surface of the transport vehicle. 20. The patient transport apparatus of claim 11 , wherein the engagement member comprises a bar pivotally connected to the retracting head section; and wherein the retainer comprises a hook and the bar is shaped to be engaged by the hook. 21. A patient transport apparatus for use with a retainer of a transport vehicle, the patient transport apparatus comprising: a support structure comprising: a retracting head section, and a patient support surface to support a patient; an engagement member coupled to the support structure and configured to engage the retainer of the transport vehicle when unloading the patient transport apparatus from the transport vehicle; a loading wheel assembly coupled to the retracting head section; and a dampener coupled to the retracting head section adjacent to the loading wheel assembly for operably engaging the transport vehicle as the patient transport apparatus moves within the transport vehicle, the dampener being operable between: a resistance state activated by manually moving the patient transport apparatus within the transport vehicle in a first direction towards the retainer, and a standby state activated by manually moving the patient transport apparatus