Intraocular pressure sensor

The invention claimed is: 1. An organ pressure sensing system comprising: a sensor comprising a passive inductor having a stretchable undulating shape which is elongated to create at least a majority of a circle; a polymeric protective layer encapsulating the passive inductor; the sensor having an unobstructed central opening coaxial with the passive inductor when sensing; the polymeric protective layer having an uninterrupted inner polymeric segment between an inner surface of the passive inductor and an inner edge of the polymeric protective layer, the inner surface of the passive inductor including innermost peak surfaces located adjacent to but spaced away from the inner edge; and the polymeric protective layer having an outer segment between outermost peak surfaces of the passive inductor and a peripheral outer edge, the outermost peak surfaces being located adjacent to but spaced away from the outer edge. 2. The system of claim 1 , wherein the outer edge of the polymeric protective layer is circular. 3. The system of claim 2 , wherein the inner edge of the polymeric protective layer is circular and defines the unobstructed central opening, and the unobstructed central opening being configured for placement over an entire cornea when the sensor is configured to be externally mounted to an eye. 4. The system of claim 1 , further comprising only a single electronic component secured to the sensor. 5. The system of claim 4 , wherein the electronic component is a capacitor and the capacitor is part of a parallel resonance circuit. 6. The system of claim 1 , wherein the sensor is free of a microprocessor or battery, and the passive inductor is a variable inductor. 7. The system of claim 1 , wherein the sensor is configured for removable placement on a human eye, the sensor has an open center configured for placement coaxial with a pupil center point of the eye, and the sensor is configured to be removably and externally mounted to the eye without surgical implantation. 8. The system of claim 1 , wherein the sensor is adapted for placement on an external surface of a cardiovascular organ, and the passive inductor is a single loop. 9. The system of claim 1 , further comprising a reader including a reading coil, the reader being spaced away from the sensor and being spaced away from an organ. 10. The system of claim 1 , wherein the sensor is configured to be removably and externally mounted to an eye without surgical implantation. 11. The system of claim 1 , further comprising: (a) the passive inductor being configured to be located at an eye sclera surrounding outside a periphery of an eye cornea; (b) a polymeric deformable outer ring spaced away from and surrounding the passive inductor, the outer ring being adapted to contact an external surface of the eye sclera; and (c) elongated connectors spaced apart from each other and radially spanning between the passive inductor and the outer ring. 12. The system of claim 1 , wherein the passive inductor is a single loop. 13. The system of claim 1 , wherein the passive inductor has a continuously undulating and stretchable shape along a substantially circular length thereof between overlapping end portions, and lateral dimension of the passive inductor is greater than a thickness of the passive inductor. 14. The system of claim 13 , further comprising a polymeric intermediate layer located between the overlapping end portions of the passive inductor, the polymeric intermediate layer and the overlapping end portions being stacked in a direction perpendicular to an eye-contacting surface of the sensor, and the overlapping end portions and the polymeric intermediate layer being a capacitor. 15. The system of claim 1 , further comprising a dissolvable polymeric film spanning across the central opening. 16. An organ pressure sensing system comprising: (a) an intraocular sensor including a passive metallic inductor within a polymeric carrier, (i) the inductor having an elongated and stretchable wavy shape with alternating curved peaks and valleys, (ii) the wavy shape of the inductor configured to surround an eye pupil centerpoint, (iii) the sensor being configured to be removably and externally mounted to an eye without surgical implantation, (iv) the inductor being a single loop of no greater than 360 degrees, and (v) the polymeric carrier including an outer segment between the peaks and an outer edge of the carrier, the peaks being spaced away from the outer edge; (b) a reader including a conductive coil, a microprocessor and a power supply; and (c) the reader being spaced away from the sensor and the organ. 17. The system of claim 16 , further comprising only a single electronic component secured to the sensor. 18. The system of claim 17 , wherein the component is a capacitor and the capacitor is part of a parallel resonance circuit. 19. The system of claim 16 , wherein the polymeric carrier includes a circular outer edge and a circular inner edge. 20. The system claim 16 , wherein an eye-contacting surface of the polymeric carrier is parallel to an opposite outer surface of the polymeric carrier, and the polymeric carrier has a constant thickness along at least a majority of a length of the polymeric carrier. 21. The system of claim 16 , further comprising a polymeric intermediate layer located between overlapping end portions of the passive inductor, the polymeric intermediate layer and the overlapping end portions being stacked in a direction perpendicular to an eye-contacting surface of the sensor. 22. The system of claim 21 , wherein the overlapping end portions and the polymeric intermediate layer are a capacitor. 23. The system of claim 16 , wherein the carrier comprises a concentric inner edge and a concentric outer edge with the passive inductor having undulating peaks being spaced away from but adjacent to the inner edge and the outer edge, and the inner edge and the outer edge being circular with an eye-contacting surface intersecting the inner edge and the outer edge. 24. The system of claim 23 , further comprising a dissolvable polymeric film spanning across a central opening defined by the inner edge of the carrier. 25. An organ pressure sensing system comprising: (a) an intraocular sensor including a metallic inductor within a polymeric carrier; (b) the inductor including a wavy shape along a majority thereof with alternating peaks and valleys; (c) the carrier being flexible and having a partially spherical, eye sclera-contacting surface; (d) the inductor being a single loop of no greater than 360 degrees; (e) the carrier including an outer segment between outermost of the peaks and an outer edge of the carrier, the peaks being spaced away from the outer edge; (f) the carrier having an inner segment between innermost of the peaks and an inner edge, the innermost peaks being spaced away from the inner edge; (g) an inductor lateral radial dimension defined between an inner circle, intersecting the innermost peaks, and an outer circle, intersecting the outermost peaks, being a majority of a carrier lateral radial dimension defined between the inner edge and the outer edge; and (h) a polymeric intermediate layer located between overlapping end portions of the inductor, the polymeric intermediate layer and the overlapping end portions being stacked in a direction perpendicular to the eye sclera-contacting surface. 26. 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