Endovascular navigation system and method

The invention claimed is: 1. An endovascular navigation system comprising: an elongate flexible member configured to access a vasculature of a patient; a sensor disposed at a distal end of the elongate flexible member and configured to sense a physiological signal of the vasculature of the patient; a processor configured to: receive the physiological signal of the vasculature of the patient provided by the sensor, process the physiological signal to determine one or more physiological characteristics of the vasculature of the patient, determine, based on the one or more physiological characteristics of the vasculature of the patient, that the elongate flexible member is being advanced in a first direction within a venous circulation or a second direction, and determine, based on the one or more physiological characteristics of the vasculature of the patient, that the elongate flexible member is in a predetermined structure of the venous vasculature of the patient; and a display configured to display: at least part of the physiological signal provided by the sensor, a first visual indication based on the distal end of the elongate flexible member being determined to be advanced in the first direction, wherein the first visual indication includes a first color and is different from the at least part of the physiological signal, such that the first visual indication including the first color is spaced apart from the at least part of the physiological signal displayed on the display, a second visual indication based on the distal end of the elongate flexible member being determined to be advanced in the second direction, wherein the second visual indication includes a second color that is different from the first color and is different from the at least part of the physiological signal, such that the second visual indication including the second color is spaced apart from the at least part of the physiological signal displayed on the display and from the first visual indication, and a third visual indication based on the distal end of the elongate flexible member being determined to be in the predetermined structure of the venous vasculature of the patient, wherein the third visual indication includes a third color that is different from the first color and the second color and is different from the at least part of the physiological signal, such that the third visual indication including the third color is spaced apart from the at least part of the physiological signal displayed on the display and from the first visual indication and the second visual indication, wherein the display is configured to determine that a location of the distal end of the elongate flexible member is indeterminable based on the one or more physiological characteristics of the vasculature of the patient and display a fourth visual indicator based on the location of the distal end of the elongate flexible member being indeterminable, and the fourth visual indicator is a fourth color and is different from the at least part of the physiological signal. 2. The endovascular navigation system of claim 1 , wherein the processor is further configured to track a position of the distal end of the elongate flexible member within the vasculature, and the display is further configured to display a visual indication of the position of the distal end of the elongate flexible member in real time. 3. The endovascular navigation system of claim 1 , wherein the predetermined structure of the venous vasculature of the patient is a superior vena cava of the patient. 4. The endovascular navigation system of claim 3 , wherein the predetermined structure of the venous vasculature of the patient is a lower one-third of the superior vena cava of the patient. 5. The endovascular navigation system of claim 1 , wherein the processor is configured to determine that the distal end of the elongate flexible member is within the predetermined structure of the venous vasculature of the patient by determining that the one or more physiological characteristic of the vasculature of the patient satisfies a threshold associated with the predetermined structure of the vasculature of the patient. 6. The endovascular navigation system of claim 1 , wherein the processor is configured to determine that the distal end of the elongate flexible member is within the predetermined structure of the venous vasculature of the patient by comparing the one or more physiological characteristic of the vasculature of the patient with a pattern associated with the predetermined structure of the venous vasculature of the patient. 7. The endovascular navigation system of claim 6 , wherein the processor is further configured to receive one or more patterns associated with the predetermined structure of the venous vasculature of the patient. 8. The endovascular navigation system of claim 7 , wherein the one or more patterns associated with the predetermined structure of the vasculature of the patient is a blood flow pattern associated with the predetermined structure of the venous vasculature of the patient. 9. The endovascular navigation system of claim 1 , wherein the first color is green, the second color is red, and the third color is blue. 10. The endovascular navigation system of claim 1 , wherein the display is configured to display at least part of the physiological signal provided by the sensor in real-time. 11. The endovascular navigation system of claim 1 , wherein the processor is further configured to dynamically calibrate settings of the endovascular navigation system for the patient based on processing of the physiological signal of the vasculature of the patient. 12. The endovascular navigation system of claim 1 , wherein the sensor is configured to detach from the elongate flexible member while the elongate flexible member remains in the vasculature of the patient. 13. The endovascular navigation system of claim 1 , wherein the physiological signal of the vasculature of the patient comprises an in vivo non-image based ultrasound signal of the vasculature of the patient. 14. The endovascular navigation system of claim 1 , wherein the elongate flexible member is a catheter, a guide wire, or a stylet. 15. An endovascular navigation method comprising: receiving, with a processor, a physiological signal of a vasculature of a patient provided from a sensor on a distal end of an elongate flexible member within vasculature of the patient; processing, with the processor, the physiological signal to determine one or more physiological characteristics of the vasculature of the patient; determining, with the processor and based on the one or more physiological characteristics of the vasculature of the patient, that the elongate flexible member is being advanced in a first direction within a venous vasculature of the patient; determining, with the processor and based on the one or more physiological characteristics of the vasculature of the patient, that the elongate flexible member is being advanced in a second direction in the venous vasculature of the patient; determining, with the processor and based on the one or more physiological characteristics of the vasculature of the patient, that the elongate flexible member is in a predetermined structure of the venous vasculature of the patient; determining that a location of the distal end of the elongate flexible member is indeterminable based on the one or more physiological characteristics of the vasculature of the patient; and displaying on a display: at least part of the physiological signal provided by the sensor, a first visual indic