Systems and methods to compensate for compression forces in an intravascular device

What is claimed is: 1. A septum for use within an intravascular device, the intravascular device having an inner surface in which one or more vents are formed, the septum being configured to prevent an outer surface of the septum from extending into the one or more vents when the septum is compressed within the intravascular device, the septum comprising: a cylindrical body having an outer surface, a proximal end, and a distal end forming a distal surface, the length of the cylindrical body being less than the length of the one or more vents formed in the inner surface of the intravascular device such that when the septum is placed within the intravascular device, the one or more vents extend past the distal and proximal ends of the septum to allow air or liquid to bypass the septum via the one or more vents; wherein the outer surface has a first diameter when uncompressed and the distal surface has a second diameter less than the first diameter such that the distal end of the cylindrical body is chamfered between the outer surface and the distal surface when the septum is uncompressed, and wherein when the septum is inserted into the intravascular device, the outer surface is compressed towards the second diameter such that the distal end is not chamfered. 2. The device of claim 1 , wherein the cross-section area of one or more of a proximal or distal opening of the one or more vents is from approximately 0.000007 inches 2 to approximately 0.00004 inches 2 . 3. The device of claim 1 , wherein the distal surface comprises a membrane having a thickness such that a proximal surface of the membrane is at a first distance relative to the distal surface, and wherein the chamfer commences at the first distance. 4. The device of claim 3 , further comprising an opening forming a pathway through the membrane. 5. A septum for use within an intravascular device, the septum comprising: a cylindrical body having an outer surface, a proximal end, and a distal end forming a distal surface, the outer surface having one or more vents that each extend from the proximal end to the distal end to thereby allow air or liquid to bypass the septum by passing through the one or more vents; wherein each vent comprises a vent outer surface that is recessed from the outer surface of the cylindrical body and a vent distal surface that is recessed from the distal end of the cylindrical body, the vent outer surface being positioned at a first radial distance from a longitudinal axis of the septum when the septum is uncompressed and the vent distal surface extending radially to a second radial distance less than the first radial distance such that the distal end of the vent outer surface is chamfered when the septum is uncompressed, and wherein when the septum is inserted into an intravascular device, the compression of the outer surface of the cylindrical body causes the vent outer surface to be compressed towards the second radial distance such that the distal end of the vent outer surface is not chamfered. 6. The septum of claim 5 , wherein a cross-sectional area of a proximal opening of each vent is approximately equal to the cross-sectional area of the vent when the septum is uncompressed. 7. The septum of claim 5 , wherein a cross-sectional area of one or more of a proximal or distal opening of the one or more vents is from approximately 0.000007 inches 2 to approximately 0.00004 inches 2 . 8. The septum of claim 5 , wherein a cross-sectional area of each vent when the septum is uncompressed is greater than a cross-sectional area of the vent when the septum is compressed. 9. The septum of claim 5 , wherein the one or more vents comprise a plurality of vents. 10. The septum of claim 9 , wherein the plurality of vents are equally spaced around the outer surface of the septum.