Irrigated ablation catheter having a flexible manifold

What is claimed is: 1. An irrigated ablation catheter, comprising a shaft comprising a proximal end, a distal end, and at least one irrigation lumen therein; an ablation electrode; and a manifold disposed between and coupled to each of said distal end of said shaft and said electrode said manifold including a body defined by an outer surface, said body comprising a plurality of portions wherein one of said plurality of portions is constructed of a flexible and elastic material and has a flexibility greater than that of said shaft to allow said one of said plurality of portions to be elastically deformed to thereby allow said manifold and said electrode to be defected relative to said shaft, and further wherein said one of said plurality of portions has a greater degree of flexibility than another of said plurality of portions; an inner cavity disposed within said body, and configured for fluid communication with said irrigation lumen; and an irrigation port disposed within said body, extending from said inner cavity to said outer surface of said body and configured to allow for an irrigating fluid to be distributed from said manifold. 2. The catheter of claim 1 , wherein said irrigation port is disposed within said one of said plurality of portions of said manifold body constructed of a flexible and elastic material, and is expandable when said manifold and said electrode deflect in a first direction and contractible when said manifold and said electrode deflect in a second direction opposite said first direction. 3. The catheter of claim 1 , wherein said plurality of portions of said manifold body comprises a first portion coupled with said distal end of said shaft; a second portion coupled with said electrode assembly; and a third portion disposed between said first and second portions; wherein one of said first, second, and third portions comprises said one of said plurality of portions of said manifold body constructed of a flexible and elastic material; and further wherein said inner cavity extends through at least said first and third portions. 4. The catheter of claim 3 wherein said first portion of said manifold is disposed within said distal end of said shaft, said second portion of said manifold is disposed within a recess in said electrode, and said third portion is disposed between said shaft and electrode. 5. The catheter of claim 3 , wherein said one of said plurality of portions of said manifold body constructed of a flexible and elastic material is said third portion, and said irrigation port is disposed in said third portion. 6. The catheter of claim 3 , wherein said one of said plurality of portions of said manifold body constructed of a flexible and elastic material is said second portion. 7. The catheter of claim 6 , wherein said third portion includes a distal end and a concave surface formed in said distal end, and further wherein said irrigation port is disposed within said concave surface. 8. The catheter of claim 7 , wherein said electrode includes a proximal end and said proximal end is rounded-off to have a complementary shape to said concave surface of said third portion, said proximal end of said electrode assembly configured to increase the flow path from said irrigation port when said manifold and said electrode deflect in a first direction, and to decrease the flow path from said irrigation port when said manifold and said electrode deflect in a second direction opposite said first direction. 9. The catheter of claim 6 , wherein said third portion includes a distal end and said distal end of said third portion has a conical shape. 10. The catheter of claim 1 , wherein said flexible and elastic material has a durometer of 20-30D. 11. The catheter of claim 1 , wherein said electrode comprises a fluid passageway disposed therein and extending therethrough, said fluid passageway configured for fluid communication with said inner cavity of said manifold and to allow for an irrigating fluid to be distributed from said electrode. 12. The catheter of claim 1 , wherein said one of said plurality of portions of said body is constructed of a first class of said flexible and elastic material, and another of said plurality of portions of said body is constructed of a second class of said flexible and elastic material, and further wherein said first class of said material has a lower durometer than said second class of said material. 13. The catheter of claim 1 , wherein said one of said plurality of portions of said body is constructed of a first material, and another of said plurality of portions of said body is constructed of a second material different than said first material. 14. An irrigated ablation catheter, comprising a shaft comprising a proximal end, a distal end, and at least one irrigation lumen therein; an ablation electrode; and a manifold disposed between and coupled to each of said distal end of said shaft and said electrode, wherein said manifold has a flexibility and elasticity greater than that of said shaft to allow said manifold and said electrode to be deflected relative to said shaft, said manifold comprising: a body defined by an outer surface; an inner cavity disposed within said body and configured for fluid communication with said irrigation lumen; and an irrigation port disposed within said body extending from said inner cavity to said outer surface of said body and configured to allow for an irrigating fluid to be distributed from said manifold.