Pressure isolation mechanisms, method of use thereof and fluid delivery systems including pressure isolation mechanisms

What is claimed is: 1. A pressure isolation mechanism comprising: a lumen; an isolation port in fluid connection with the lumen; a valve having a first state and a second state, the first state occurring when the lumen and the isolation port are connected, the second state occurring when the lumen and the isolation port are disconnected, wherein the lumen is open for flow of fluid therethrough in the first state and in the second state, and wherein the valve is normally in the first state and is switchable to the second state when fluid pressure in the lumen reaches a predetermined level; and a pressure transducer for obtaining blood pressure readings in a patient in fluid communication with the isolation port of the pressure isolation mechanism. 2. The pressure isolation mechanism of claim 1 , wherein the valve is biased in the first state. 3. The pressure isolation mechanism of claim 1 , wherein the pressure transducer is in communication with an actuator to control switching between the first state and the second state of the valve. 4. The pressure isolation mechanism of claim 1 , further comprising a connector connected to the isolation port for establishing fluid communication with a low pressure fluid delivery system and the pressure transducer. 5. The pressure isolation mechanism of claim 4 , wherein the connector is a tee connector. 6. The pressure isolation mechanism of claim 5 , wherein the tee connector comprises a first port connected to the low pressure fluid delivery system and a second port connected to the pressure transducer. 7. A fluid delivery system comprising: a syringe; and a pressure isolation mechanism in fluid communication with the syringe, the pressure isolation mechanism comprising: a lumen; an isolation port; a valve operably disposed between the lumen and the isolation port, the valve having a first state wherein the lumen and the isolation port are in fluid communication and a second state wherein the lumen and the isolation port are not in fluid communication, wherein the lumen is open for flow of fluid therethrough in the first state and in the second state, and wherein the valve is normally in the first state and is switchable to the second state when fluid pressure in the lumen reaches a predetermined pressure level; and a pressure transducer for obtaining blood pressure readings in a patient in fluid communication with the isolation port of the pressure isolation mechanism. 8. The fluid delivery system of claim 7 , wherein the syringe is a hand-held syringe. 9. The fluid delivery system of claim 7 , further comprising second and third ports in fluid communication with an inlet port to the lumen, the second and third ports comprising input ports of the pressure isolation mechanism. 10. The fluid delivery system of claim 7 , wherein the valve of the pressure isolation mechanism is biased in the first state. 11. The fluid delivery system of claim 10 , wherein the valve is spring-biased in the first state. 12. The fluid delivery system of claim 7 , further comprising a second port in fluid communication with an inlet port to the lumen, the second port comprising an input port of the pressure isolation mechanism. 13. The fluid delivery system of claim 12 , further comprising a second valve operably disposed between the second port and the lumen. 14. The fluid delivery system of claim 7 , further comprising a connector connected to the isolation port for establishing fluid communication with a low pressure fluid delivery system and the pressure transducer. 15. The fluid delivery system of claim 14 , wherein the connector is a tee connector. 16. The fluid delivery system of claim 15 , wherein the tee connector comprises a first port connected to the low pressure fluid delivery system and a second port connected to the pressure transducer.