Abstract: A prosthetic heart valve, for example a tricuspid valve, may include a flexible membrane and a frame. The frame may be attached to the periphery of the tricuspid orifice. The diaphragm may be attached to the frame around a part of the perimeter of the orifice. Optionally the frame may be flexible. For example the frame may elastically flex between a substantially circular shape and/of an elliptical and/or crescent shape. Optionally there may not be a stiff cross piece crossing a central region of the orifice and connected on opposing sides of frame. In some embodiments, the diaphragm may take a dome shape during systole.

Abstract: A prosthetic heart valve, for example a tricuspid valve, may include a flexible membrane and a frame. The frame may be attached to the periphery of the tricuspid orifice. The diaphragm may be attached to the frame around a part of the perimeter of the orifice. Optionally the frame may be flexible. For example the frame may elastically flex between a substantially circular shape and/of an elliptical and/or crescent shape. Optionally there may not be a stiff cross piece crossing a central region of the orifice and connected on opposing sides of frame. In some embodiments, the diaphragm may take a dome shape during systole.

Abstract: A prosthetic heart valve, for example a tricuspid valve, may include a flexible membrane and a frame. The frame may be attached to the periphery of the tricuspid orifice. The diaphragm may be attached to the frame around a part of the perimeter of the orifice. Optionally the frame may be flexible. For example the frame may elastically flex between a substantially circular shape and/of an elliptical and/or crescent shape. Optionally there may not be a stiff cross piece crossing a central region of the orifice and connected on opposing sides of frame. In some embodiments, the diaphragm may take a dome shape during systole.

Abstract: A prosthetic heart valve, for example a tricuspid valve, may include a flexible membrane and a frame. The frame may be attached to the periphery of the tricuspid orifice. The diaphragm may be attached to the frame around a part of the perimeter of the orifice. Optionally the frame may be flexible. For example the frame may elastically flex between a substantially circular shape and/of an elliptical and/or crescent shape. Optionally there may not be a stiff cross piece crossing a central region of the orifice and connected on opposing sides of frame. In some embodiments, the diaphragm may take a dome shape during systole.

Abstract: A prosthetic heart valve, for example a tricuspid valve, may include a flexible membrane and a frame. The frame may be attached to the periphery of the tricuspid orifice. The diaphragm may be attached to the frame around a part of the perimeter of the orifice. Optionally the frame may be flexible. For example the frame may elastically flex between a substantially circular shape and/of an elliptical and/or crescent shape. Optionally there may not be a stiff cross piece crossing a central region of the orifice and connected on opposing sides of frame. In some embodiments, the diaphragm may take a dome shape during systole.

Abstract: A device (200) for implantation in or near an annulus of a tricuspid valve comprising at least one blood flow control element (202) adapted to capture a volume of blood therein. Optionally or alternatively, the blood flow control element is adapted to allow at least some volume of blood (406) to regurgitate through the annulus during at least some part of systole. Optionally or alternatively, the device comprises a relatively rigid annulus with an arc length of less than 300 degrees. Optionally or alternatively, the relatively rigid annulus comprises a plurality of tissue fixation elements positioned along no more than 300 degrees of a circumference of the annulus, for example to avoid damaging conduction pathways between an atria and a chamber.

Abstract: A device (200) for implantation in or near an annulus of a tricuspid valve comprising at least one blood flow control element (202) adapted to capture a volume of blood therein. Optionally or alternatively, the blood flow control element is adapted to allow at least some volume of blood (406) to regurgitate through the annulus during at least some part of systole. Optionally or alternatively, the device comprises a relatively rigid annulus with an arc length of less than 300 degrees. Optionally or alternatively, the relatively rigid annulus comprises a plurality of tissue fixation elements positioned along no more than 300 degrees of a circumference of the annulus, for example to avoid damaging conduction pathways between an atria and a chamber.

Abstract: A device (200) for implantation in or near an annulus of a tricuspid valve comprising at least one blood flow control element (202) adapted to capture a volume of blood therein. Optionally or alternatively, the blood flow control element is adapted to allow at least some volume of blood (406) to regurgitate through the annulus during at least some part of systole. Optionally or alternatively, the device comprises a relatively rigid annulus with an arc length of less than 300 degrees. Optionally or alternatively, the relatively rigid annulus comprises a plurality of tissue fixation elements positioned along no more than 300 degrees of a circumference of the annulus, for example to avoid damaging conduction pathways between an atria and a chamber.

Abstract: A device (200) for implantation in or near an annulus of a tricuspid valve comprising at least one blood flow control element (202) adapted to capture a volume of blood therein. Optionally or alternatively, the blood flow control element is adapted to allow at least some volume of blood (406) to regurgitate through the annulus during at least some part of systole. Optionally or alternatively, the device comprises a relatively rigid annulus with an arc length of less than 300 degrees. Optionally or alternatively, the relatively rigid annulus comprises a plurality of tissue fixation elements positioned along no more than 300 degrees of a circumference of the annulus, for example to avoid damaging conduction pathways between an atria and a chamber.