Prosthetic heart valve systems and methods with coronary ostium access features

What is claimed is: 1 . A prosthetic support structure for supporting an aortic heart valve, the support structure being implantable in the vicinity of a native aortic heart valve and having a central passageway and an auxiliary passageway, the central passageway sized for supporting an aortic heart valve, the auxiliary passageway having an inlet and an outlet and extending along an arc of at least 20 degrees to facilitate passage of a device therethrough and toward a coronary artery when the support structure is positioned along a region of the sinotubular junction. 2 . The prosthetic support structure of claim 1 in combination with a heart valve, the heart valve being positioned in the central passageway. 3 . The prosthetic support structure of claim 1 , wherein the prosthetic support structure comprises a first tubular frame member, a second tubular frame member disposed within the first tubular frame member, and joint members extending between and interconnecting the first and second tubular frame members. 4 . A prosthetic support structure for supporting a prosthetic heart valve, the support structure being implantable in the vicinity of a heart valve and comprising a first tubular frame member and a second tubular frame member, the second tubular frame member being disposed in the first tubular frame member, the second tubular frame member having a central through passageway sized for receiving the prosthetic heart valve, the first and second tubular frame members forming an annular space therebetween, the annular space having an inflow end and an outflow end and being sized to facilitate passage of a medical device therethrough. 5 . The prosthetic device support structure of claim 4 , wherein the annular space is sized such that when the support structure is positioned along a region of the sinotubular junction, the medical device can be passed through the annular space and toward a coronary artery. 6 . The prosthetic support structure of claim 5 , further including joint members extending between and interconnecting the first and second tubular frame members. 7 . A system for treating a defective heart valve, the system comprising: a spacer assembly having a compressed configuration for delivery within a vasculature and an expanded configuration, the spacer assembly including: an outer frame member defining a central passage, a longitudinal axis, an outflow end, and an inflow end opposite the outflow end in a direction of the longitudinal axis, an inner frame member, joint members extending between and interconnecting an interior face of the outer frame member and an exterior face of the inner frame member, wherein the spacer assembly is configured such that in the expanded configuration: at least a portion of the inner frame member is disposed within the central passage and is radially spaced from the interior face of the outer frame member by the joint members to establish a radial spacing, at least one auxiliary passageway is defined along the radial spacing, wherein the auxiliary passageway has a central angle of at least 30 degrees relative to the longitudinal axis in continuous extension between the outflow and inflow ends, and is free of the joint members; and a valve structure; wherein the system is configured such that upon final implantation, the outer frame member contacts native tissue and the valve structure is supported by the inner frame member. 8 . The system of claim 7 , wherein the auxiliary passageway is configured for passage of an auxiliary access device. 9 . The system of claim 7 , wherein the system is configured such that upon final implantation, access to a native artery ostium is provided through the auxiliary passageway. 10 . The system of claim 7 , wherein the valve structure is permanently secured to the inner frame member. 11 . The system of claim 10 , wherein a longitudinal length of the inner frame member is greater than a longitudinal length of the outer frame member. 12 . The system of claim 7 , further comprising: a stent; wherein the valve structure is permanently attached to the stent. 13 . The system of claim 12 , wherein the valve structure and the stent are provided as components of a prosthetic heart valve having a compressed condition for delivery within a vasculature and an expanded condition. 14 . The system of claim 13 , wherein the system is configured such that prior to final implantation, the spacer assembly is physically separate from the prosthetic heart valve. 15 . The system of claim 13 , further comprising complementary mating features provided with the spacer assembly and the prosthetic heart valve configured to secure the prosthetic heart valve to the spacer assembly upon final implantation. 16 . The system of claim 15 , wherein the complementary mating features includes: a protrusion extending from one of the stent and the inner frame member; and an aperture defined by an other of the stent and the inner frame member; wherein the aperture is sized and shaped to selectively capture the protrusion. 17 . The system of claim 15 , wherein the complementary mating features include a ledge defined by the inner frame member and an edge of the stent, wherein the ledge is sized and shaped to receive the edge in the expanded condition of the prosthetic heart valve. 18 . The system of claim 17 , wherein the ledge defines a slot, wherein the prosthetic heart valve includes a paddle, and wherein the slot is sized and shaped to selectively receive the paddle.