In-vivo monitoring with microwaves

The invention claimed is: 1. A blood glucose monitor for non-invasive, in-vivo characterisation of a blood glucose level in a living body, the monitor comprising: a microwave resonator having a resonant response to input microwaves and designed such that said response will experience a perturbation by a living body when the living body is in proximity or contact with the resonator; and a detector arranged to detect changes in said resonant response from which said level can be characterised; wherein the resonator is designed to feature a first resonance that will, and a second resonance that will not, experience a perturbation by a living body when the living body is in proximity or contact with the resonator. 2. A monitor according to claim 1 , wherein one or both of the first and second resonances manifest as a peak in the response. 3. A monitor according to claim 1 , wherein the first resonance experiences the perturbation as a change in one or more from a group consisting of frequency, phase and amplitude. 4. A monitor according to claim 1 , wherein the resonator comprises a housing defining a space with an opening to which said body can be offered, the housing including a microwave input to the space, a microwave output from the space and a first conductive ring located within the space to produce the first resonance. 5. A monitor according to claim 4 , wherein the housing includes a second conductive ring located within the space to produce the second resonance. 6. A monitor according to claim 5 , wherein the second ring is located further from the opening than is the first ring. 7. A monitor according to claim 1 , wherein the resonator is a double ring resonator such that the resonant response shows said first and second resonances. 8. A monitor according to claim 7 , wherein the resonator has an opening to which said body can be offered to facilitate said perturbation. 9. A monitor according to claim 1 , wherein the detector is arranged to measure one from a group consisting of a resonant frequency, a width, a Q-factor and a height of a resonance in said response. 10. A monitor according to claim 1 , wherein the detector is arranged to measure two or more from a group consisting of a resonant frequency, a width, a Q-factor and a height of a resonance in said response. 11. A monitor according to claim 10 , wherein the detector is arranged to measure the resonant frequency of a resonance in said response and one or more from a group consisting of a frequency width, a Q-factor and a height of the resonance.