High flow rate dual reservoir port system

What is claimed is: 1. A port catheter system comprising: a port comprising: a first reservoir having a first opening fluidly sealed by a first elastomeric septum and a first reservoir side wall, the first reservoir being dedicated for aspiration, the first reservoir in fluid communication with a first D-shaped outlet lumen of a first outlet stem, the first D-shaped outlet lumen is disposed substantially tangentially along the first reservoir wall; and a second reservoir having a second opening fluidly sealed by a second elastomeric septum and a second reservoir side wall, the second reservoir being dedicated for infusion, the second reservoir in fluid communication with a second D-shaped outlet lumen of a second outlet stem, the second D-shaped outlet lumen is disposed substantially tangentially along the second reservoir wall; wherein the diameter of the first reservoir is greater than the diameter of the second reservoir, the greater diameter of the first reservoir creating a first volume of the first reservoir that is larger than a second volume of the second reservoir, and wherein a first cross-sectional area of the first D-shaped outlet lumen is greater than a second cross-sectional area of the second D-shaped outlet lumen; and a catheter comprising: a catheter shaft having a first catheter lumen and a second catheter lumen, the first catheter lumen extending between a first catheter lumen proximal opening and a first catheter lumen distal opening, and the second catheter lumen extending between a second catheter lumen proximal opening and a second catheter lumen distal opening; wherein the first catheter lumen has a greater cross-sectional area than the second catheter lumen, and wherein the first catheter lumen distal opening terminates offset from the second catheter lumen distal opening. 2. The port catheter system of claim 1 further comprising: an aspiration marker disposed on the first outlet stem corresponding with an aspiration marker disposed on the catheter shaft. 3. The port catheter system of claim 1 further comprising: an infusion marker disposed on the second outlet stem corresponding with a catheter infusion marker disposed on the catheter shaft. 4. The port catheter system of claim 1 , wherein a first catheter lumen wall thickness is greater than a second catheter lumen wall thickness. 5. The port catheter system of claim 1 , wherein a first catheter lumen wall comprises a reinforcing member. 6. The port catheter system of claim 1 , wherein a first catheter lumen wall comprises a first polymeric material having a first durometer, and a second catheter lumen wall comprises of a polymeric material having a second durometer, wherein the first durometer is higher than the second durometer. 7. The port catheter system of claim 1 , wherein the first catheter lumen distal opening comprises a flared side wall. 8. The port catheter system of claim 1 further comprising: a needle set comprising: a first needle having a proximal end, a distal end, and a first needle lumen extending therebetween, the proximal end having a first flexible tube attached and in fluid communication with the first needle lumen, and a second needle having a proximal end, a distal end, and a second needle lumen extending therebetween, the proximal end having a second flexible tube attached and in fluid communication with the second needle lumen. 9. The port catheter system of claim 8 , wherein the needle set comprises markings to determine which reservoir is compatible with aspiration. 10. The port catheter system of claim 9 , wherein the needle set comprises a marking for indicating to a user which needle is designated for aspiration. 11. The port catheter system of claim 8 further comprising: a needle assembly comprising the first needle, the second needle, and a spacing member, wherein the first and second needle are attached to the spacing member and separated by a predetermined distance. 12. The port catheter system of claim 11 , wherein the needle assembly comprises an orientation marker corresponding to proper needle assembly orientation. 13. A port comprising: a first reservoir having a first opening fluidly sealed by a first elastomeric septum and a first reservoir side wall, the first reservoir being dedicated for aspiration, the first reservoir in fluid communication with a first D-shaped outlet lumen of a first outlet stem, the first D-shaped outlet lumen is disposed substantially tangentially along the first reservoir wall; and a second reservoir having a second opening fluidly sealed by a second elastomeric septum and a second reservoir side wall, the second reservoir being dedicated for infusion, the second reservoir in fluid communication with a second D-shaped outlet lumen of a second outlet stem, the second D-shaped outlet lumen is disposed substantially tangentially along the second reservoir wall; wherein the diameter of the first reservoir is greater than the diameter of the second reservoir, the greater diameter of the first reservoir creating a first volume of the first reservoir that is larger than a second volume of the second reservoir, and wherein a first cross-sectional area of the first D-shaped outlet lumen is greater than a second cross-sectional area of the second D-shaped outlet lumen. 14. The port of claim 13 wherein one of the first or second reservoir has a contour concave-shaped cross-section. 15. The port of claim 14 , wherein the other of the first or second reservoir has a contour convex-shaped cross-section. 16. The port of claim 15 , wherein adjacent portions of the first and second reservoir cross-sections approximate substantially the same curve. 17. A port catheter system comprising: a port comprising: a first reservoir having a first opening fluidly sealed by a first elastomeric septum and a first reservoir side wall, the first reservoir being dedicated for aspiration, the first reservoir in fluid communication with a first D-shaped outlet lumen of a first outlet stem, the first D-shaped outlet lumen is disposed substantially tangentially along the first reservoir; and a second reservoir having a second opening fluidly sealed by a second elastomeric septum and a second reservoir side wall, the second reservoir being dedicated for infusion, the second reservoir in fluid communication with a second D-shaped outlet lumen of a second outlet stem, the second D-shaped outlet lumen is disposed substantially tangentially along the second reservoir wall; wherein the diameter of the first reservoir is greater than the diameter of the second reservoir, the greater diameter of the first reservoir creating a first volume of the first reservoir that is larger than a second volume of the second reservoir, and wherein a first cross-sectional area of the first D-shaped outlet lumen is greater than a second cross-sectional area of the second D-shaped outlet lumen; a catheter comprising: a catheter shaft having a first catheter lumen and a second catheter lumen, the first catheter lumen extending between a first catheter lumen proximal opening and a first catheter lumen distal opening, and the second catheter lumen extending between a second catheter lumen proximal opening and a second catheter lumen distal opening; wherein the first catheter lumen has a greater cross-sectional area than the second catheter lumen, and wherein the first catheter lumen distal opening terminates offset from the second catheter lumen distal opening; and a needle set comprising: a first needle having a proximal end, a distal end, and a first ne