Abstract: An arrangement for electromagnetic radiation based non-invasive monitoring of an anatomic object during an operation includes at least one imaging device for obtaining at least two or more images of at least one surface point on a surface of the anatomic object over at least one fraction of a characteristic movement cycle from the surface of the anatomic object. In addition the arrangement includes an output for a display device or the display device, and a control unit for determining deformation based on movements of the at least one surface point over the at least one fraction of the cycle between the at least two or more images of the surface of the heart in function of time. Further changes in the deformation is determined or determined deformation is compared to reference deformation values to find any deviation in the performance or state of the deformation determined.

Abstract: The resonance frequency spectrum of a magnetostrictive sample is remotely determined by exciting the magnetostrictive property with an oscillating magnetic field. The permeability of a magnetostrictive material and concomitant coupling with a detection coil varies with the strain in the material whereby resonance responses of the sample can be readily detected. A suitable sample may be a magnetostrictive material or some other material having at least one side coated with a magnetostrictive material. When the sample is a suitable shape, i.e., a cube, rectangular parallelepiped, solid sphere or spherical shell, the elastic moduli or the material can be analytically determined from the measured resonance frequency spectrum. No mechanical transducers are required and the sample excitation is obtained without contact with the sample, leading to highly reproducible results and a measurement capability over a wide temperature range, e.g.