Wireless MEMS left atrial pressure sensor

What is claimed is: 1. A wireless and leadless left atrial pressure measurement device configured for delivery through a thickness of an atrial septum via a minimally invasive delivery tool, the device comprising: a wireless pressure sensor having a proximal portion, a distal portion opposite the proximal portion, and a housing containing a hermetically sealed cavity containing a sensor circuit; a bent sleeve disposed between the proximal portion and the housing, the bent sleeve including a proximal sleeve portion and a distal sleeve portion disposed opposite the proximal sleeve portion, the distal sleeve portion operably coupled to the housing such that each of the distal sleeve portion and the housing extend obliquely relative to the proximal sleeve portion to bias the housing toward the atrial septum; a first anchoring element having a first attached end and a first free end generally opposite the first attached end, the first anchoring element extending proximally from the bent sleeve; and a second anchoring element having a second attached end and a second free end generally opposite the second attached end, the second anchoring element extending proximally from the bent sleeve; wherein distal movement of the wireless pressure sensor relative to the atrial septum is prevented when the first and second anchoring elements are free to assume a biased state such that the first free end and second free end extend in generally opposite directions, and wherein proximal movement of the wireless pressure sensor relative to the atrial septum is prevented when the bent sleeve abuts the atrial septum. 2. The wireless and leadless left atrial pressure measurement device of claim 1 , wherein the first anchoring element is configured such that, when the device is being delivered via the delivery tool, the first anchoring element is deflected away from the biased state via the delivery tool such that the first and second free proximal ends are in dose proximity to each other and projecting generally proximally away from the proximal portion. 3. The wireless and leadless left atrial pressure measurement device of claim 1 , wherein, in the biased state, the first free end is in closer proximity to the distal portion of the wireless pressure sensor as compared to the second free end. 4. The wireless and leadless left atrial pressure measurement device of claim 1 , wherein, in the biased state, the first anchoring element extends along a longitudinal side of the wireless pressure sensor offset from the longitudinal side. 5. The wireless and leadless left atrial pressure measurement device of claim 1 , wherein, in the biased state, the second anchoring element extends along a longitudinal side of the wireless pressure sensor offset from the longitudinal side. 6. The wireless and leadless left atrial pressure measurement device of claim 1 , wherein, in the biased state, the first anchoring element and the wireless pressure sensor combine to form a clamping arrangement. 7. The wireless and leadless left atrial pressure measurement device of claim 6 , wherein the clamping arrangement comprises a distance between the first anchoring element and the bent sleeve that is less than the thickness of the atrial septum. 8. The wireless and leadless left atrial pressure measurement device of claim 1 , further comprising a silicone disc seal immediately adjacent the proximal portion and through which at least one of the first or second anchoring element extends. 9. The wireless and leadless left atrial pressure measurement device of claim 1 , further comprising a feature extending from the bent sleeve and configured for engagement by a tether of the delivery tool. 10. The wireless and leadless left atrial pressure measurement device of claim 9 , wherein the feature comprises a knob extending from the bent sleeve. 11. The wireless and leadless left atrial pressure measurement device of claim 9 , wherein the feature comprises a knob, an extension plug and a lanyard, wherein the lanyard is attached to the knob at one end and a second end of the lanyard is attached to the bent sleeve. 12. The wireless and leadless left atrial pressure measurement device of claim 1 , wherein the first anchoring element comprises a biocompatible resilient material. 13. The wireless and leadless left atrial pressure measurement device of claim 12 , wherein the biocompatible resilient material is selected from: platinum, NITINOL, silicone, polyurethane, plastic polyether block amide, high density polyethylene, silicone rubber, and any combination thereof. 14. The wireless and leadless left atrial pressure measurement device of claim 1 , wherein at least one of the first anchoring element or the second anchoring element further comprises an elongated and narrow structure selected from: a wire frame anchoring element comprising a thin elongate stock formed into a loop, wherein both ends of the elongate stock are operably coupled to the wireless pressure sensor; and a solid sheet anchoring element comprising a flat sheet. 15. A wireless and leadless left atrial pressure measurement device configured for delivery through a thickness of an atrial septum via a minimally invasive delivery tool, the device comprising: a wireless pressure sensor comprising a proximal portion, a distal portion opposite the proximal portion, and a housing containing a hermetically sealed cavity containing a sensor circuit; a bent sleeve disposed between the proximal portion and the housing, the bent sleeve including a proximal sleeve portion and a distal sleeve portion disposed opposite the proximal sleeve portion, the distal sleeve portion operably coupled to the housing such that each of the distal sleeve portion and the housing extend obliquely relative to the proximal sleeve portion to bias the housing toward the atrial septum; a first anchoring element supported on the wireless pressure sensor between the proximal and distal portions and comprising first and second wings spaced apart from each other and, when the first and second wings are in a biased state, the first and second wings extend radially outward from the wireless pressure sensor; and a second anchoring element supported on the wireless pressure sensor between the proximal and distal portions and comprising third and fourth wings spaced apart from each other and, when the third and fourth wings are in a biased state, the third and fourth wings extend radially outward from the wireless pressure sensor and the third and fourth wings face the first and second wings in an opposed, spaced apart fashion. 16. The wireless and leadless left atrial pressure measurement device of claim 15 , wherein the first and second anchoring elements are configured such that, when the device is being delivered via the delivery tool, the first, second, third and fourth wings are deflected away from the biased state via the delivery tool such that the first and second wings project generally distally and the third and fourth wings project generally proximally. 17. The wireless and leadless left atrial pressure measurement device of claim 15 , wherein, in the biased state, the first anchoring element and the second anchoring element combine to form a clamping arrangement. 18. The wireless and leadless left atrial pressure measurement device of claim 17 , wherein the clamping arrangement comprises a distance between the first and second wings and the third and fourth wings that is slightly less than the thickness of the atrial septum. 19. The wireless and leadless left atrial press