Priming apparatus and method

What is claimed is: 1 . A priming device comprising: a housing comprising: an inlet passage; an outlet passage; and a planar surface forming a seat, wherein the inlet passage and the outlet passage extend through the seat; a resilient chamber coupled to the seat and having flexible walls, wherein the inlet passage and the outlet passage are fluidly coupled to the resilient chamber; and a check valve disposed in the inlet passage such that a fluid flow through the check valve is only in a direction toward the resilient chamber, wherein compression of the flexible walls of the resilient chamber directs a fluid out of the resilient chamber and through the outlet passage. 2 . The priming device of claim 1 , wherein the inlet passage and the outlet passage extend coaxially with the seat. 3 . The priming device of claim 1 , further comprising: an inlet port and an outlet port, each configured to fluidly couple with a fluid reservoir. 4 . The priming device of claim 3 , wherein the inlet passage extends from the inlet port to the resilient chamber and is configured to receive fluid from the fluid reservoir, and wherein the outlet passage extends from the resilient chamber to the outlet port and is configured to direct fluid away from the resilient chamber. 5 . The priming device of claim 3 , wherein one of the inlet port and the outlet port comprises an inner cylindrical wall surrounded by an outer cylindrical wall and is configured to receive a tube end between the inner cylindrical wall and the outer cylindrical wall. 6 . The priming device of claim 3 , wherein after being manually depressed, the flexible walls of the resilient chamber are configured to expand and draw fluid from the fluid reservoir through the inlet passage into the resilient chamber. 7 . The priming device of claim 1 , wherein the resilient chamber is shaped as a cylinder having a domed portion and an opening opposite the domed portion. 8 . The priming device of claim 7 , further comprising: a flange surrounding the opening and extending radially outward from the resilient chamber. 9 . The priming device of claim 8 , wherein a plane formed by a surface of the flange is received within a ridge formed around a perimeter of the seat. 10 . The priming device of claim 9 , further comprising: a retaining ring extending around the resilient chamber and coupled to the ridge of the seat, wherein the flange is captured between the retaining ring and the seat to form a fluid-tight seal. 11 . The priming device of claim 7 , wherein the opening of the resilient chamber is received and enclosed by the seat. 12 . The priming device of claim 1 , further comprising: a first valve seat formed at an intersection of the inlet passage and the seat. 13 . The priming device of claim 1 , wherein the check valve is a first check valve, the priming device further comprising: a second check valve disposed in the outlet passage such that fluid flow through the second check valve is only in a direction away from the resilient chamber. 14 . The priming device of claim 13 , further comprising: a first valve seat formed at an intersection of the inlet passage and the seat; and a second valve seat formed at an intersection of the outlet passage and the seat. 15 . The priming device of claim 14 , further comprising: a cradle having a one or more fluid passage therethrough, the cradle configured to retain the first check valve in the first valve seat and the second check valve in the second valve seat. 16 . The priming device of claim 15 , wherein the cradle is shaped as a cup having an open first end and an open second end with a ridge extending partially inward from the second end, wherein the open first end is inserted into the first and second valve seats to retain the first and second check valves, the first check valve extending through the open second end of the cradle and the second check valve extends away from the cradle. 17 . The priming device of claim 15 , wherein the cradle comprises a first individual cradle configured to retain the first check valve in the first valve seat and a second individual cradle configured to retain the second check valve in the second valve seat. 18 . A method of priming the priming device of claim 1 , the method comprising: receiving fluid into the inlet passage of the housing from a fluid reservoir; directing fluid through the check valve in the inlet passage and into the resilient chamber; manually compressing the flexible walls of the resilient chamber; and directing fluid from the resilient chamber through the outlet passage. 19 . The method of claim 18 , further comprising: directing fluid from the outlet passage to the fluid reservoir through tubing coupling the outlet passage to the fluid reservoir. 20 . An infusion set, comprising: a fluid reservoir; and a priming device coupled to the fluid reservoir, the priming device comprising: a housing comprising: an inlet passage; an outlet passage; a planar surface forming a seat, wherein the inlet passage and the outlet passage extend through the seat; a resilient chamber coupled to the seat and having flexible walls, wherein the inlet passage and the outlet passage are fluidly coupled to the resilient chamber; and a check valve disposed in the inlet passage such that a fluid flow through the check valve is only in a direction toward the resilient chamber, wherein compression of the flexible walls of the resilient chamber directs a fluid out of the resilient chamber and through the outlet passage.