Guidable intravascular blood pump and related methods

What is claimed is: 1. An intravascular blood pump system, comprising: an intravascular blood pump comprising: a rotor having a rotor hub tapering in a distal direction, at least one blade extending outward from the rotor hub, the rotor hub has a distal end extending distally beyond the most distal portion of the at least one blade and a shroud within which the rotor is rotatably disposed; a cannula extending from the shroud and comprising an outer cannula surface, the outer cannula surface having a substantially circular cross-section along a portion of its length; a guide mechanism comprising a lumen having a proximal end and a distal end, the guide mechanism adapted to guide a distal portion of said intravascular blood pump system to a predetermined location within a circulatory system of a patient; wherein an axis coaxial with and extending through a portion of said guide mechanism extends through a region delimited by the outer cannula surface, and wherein the guide mechanism is configured to allow for a guide wire to slideably advance therealong. 2. The intravascular blood pump system of claim 1 , wherein the guide mechanism is configured such that the guide wire passes through the region delimited by the outer cannula surface at a location proximal to where the guide wire establishes slidable contact with the guide mechanism. 3. The intravascular blood pump system of claim 1 , further comprising: an elongate catheter extending proximally with respect to the intravascular blood pump; and a blood pressure detection mechanism comprising a fluid column disposed within the elongate catheter and configured to detect a pressure of blood proximate the intravascular blood pump. 4. The intravascular blood pump system of claim 3 , wherein the blood pressure detection mechanism comprises at least one of a piezo-electric pressure sensing element and a strain gauge. 5. The intravascular blood pump system of claim 1 , further comprising: one or more first ports and one or more second ports establishing fluid communication between a lumen of the cannula and an exterior region of the cannula, wherein at least one first port is located in proximity to the rotor and at least one second port is spaced apart from and located distal to the at least one first port, the cannula is configured such that when the intravascular blood pump is positioned in the patient to provide left-heart support a distal end of the cannula and the at least one second port are positioned inside the patient's heart and a proximal end of the cannula and the at least one first port are positioned in the patient's aorta, the intravascular blood pump is configured to draw blood from the patient's heart into the at least one second port through the cannula lumen and out the at least one first port to provide left-heart support while the cannula is positioned across an aortic valve of the patient, wherein a portion of the shroud has an outer diameter matching an inner diameter of a proximal portion of the cannula, and the proximal portion of the cannula is disposed about a distal end of the shroud. 6. The intravascular blood pump system of claim 1 , having a pigtail shaped distal tip or a J-shaped distal tip, wherein at least a portion of the lumen is located proximal to the pigtail shaped distal tip or the J-shaped distal tip. 7. The intravascular blood pump system of claim 6 , wherein when the intravascular blood pump is positioned in the patient to provide left-heart support, the pigtail shaped distal tip or the J-shaped distal tip is wholly within a left ventricle of the patient. 8. An intravascular blood pump system, comprising: an intravascular blood pump adapted to be guided to a predetermined location within a circulatory system of a patient by a guide wire and configured to provide left-heart support, the intravascular blood pump comprising a rotor having a rotor hub tapering in a distal direction, at least one blade extending outward from the rotor hub; a catheter coupled to a proximal end of the intravascular blood pump; a cannula that is coupled to a distal end of the intravascular blood pump, one or more first ports and one or more second ports establishing fluid communication between a lumen of the cannula and an exterior region of the cannula, wherein at least one first port is located in proximity to the rotor and at least one second port is spaced apart from and located distal to the at least one first port, the cannula is configured such that when the intravascular blood pump is positioned in the patient to provide left-heart support a distal end of the cannula and the at least one second port are positioned inside the patient's heart and a proximal end of the cannula and the at least one first port are positioned in the patient's aorta, the intravascular blood pump is configured to draw blood from the patient's heart into the at least one second port through the cannula lumen and out the at least one first port to provide left-heart support while the cannula is positioned across an aortic valve of the patient; an elongate lumen sized to slidably receive the guide wire and dimensioned such that the guide wire passes slidably through the elongate lumen, the elongate lumen is sized smaller cross sectionally than the cannula lumen, both the elongate lumen and the cannula lumen not extending through the rotor hub or the catheter, the guide wire not passing through the rotor hub or the catheter, and the guide wire extending out of the intravascular blood pump system in the distal direction through the elongate lumen; and a pressure sensing element configured to sense pressure proximate the intravascular blood pump. 9. The intravascular blood pump system of claim 8 , wherein the pressure sensing element comprises at least one of a piezo-electric pressure sensing element and a strain gauge. 10. The intravascular blood pump system of claim 8 , further comprising: a rotor shroud, motor assembly and a drive cable, the drive cable at least partially disposed within the catheter, wherein the motor assembly and drive cable are configured to drive the rotor, wherein the elongate lumen is proximal to the cannula and the motor assembly is configured to remain external to the patient, and wherein the intravascular blood pump system comprises a dual construction arrangement whereby the rotor is configured to be docked within the rotor shroud. 11. The intravascular blood pump system of claim 8 , further comprising a rotor shroud, a portion of the rotor shroud having an outer diameter matching an inner diameter of a proximal portion of the cannula, the proximal portion of the cannula disposed about a distal end of the rotor shroud. 12. The intravascular blood pump system of claim 8 , wherein the elongate lumen is an integral extension of a wall of the cannula. 13. The intravascular blood pump system of claim 8 , wherein the elongate lumen is adapted to guide the guide wire through a distal end of the intravascular blood pump system. 14. The intravascular blood pump system of claim 8 , wherein the elongate lumen is shorter in length than the cannula lumen. 15. The intravascular blood pump system of claim 8 , wherein the elongate lumen is at least partially disposed within an outer surface of the cannula and wherein the intravascular blood pump system is configured for the guide wire to exit the intravascular blood pump system through an end of the elongate lumen. 16. The intravascular blood pump system of claim 8 , having a pigtail shaped distal tip or a J-shaped distal tip, wherein at least a portion of the elongate lumen is loc