Ultrasound imaging and therapy device

The invention claimed is: 1. An ultrasound imaging and therapy device for performing non-invasive cardiac treatments, the ultrasound imaging and therapy device comprising: an array of concentric annular ultrasound transducers, and an ultrasound imaging device situated inside an innermost transducer of said plurality of concentric annular ultrasound transducers, wherein the ultrasound imaging and therapy device further comprises a mechanical linkage allowing a tilting movement of the array of concentric annular ultrasound transducers with respect to the ultrasound imaging device and in that the ultrasound imaging device extends beyond the foremost point of the array of concentric annular ultrasound transducers, in an axial direction, by a length comprised between 10 and 100 mm; whereby the ultrasound imaging device can be kept stationary and in direct or indirect contact with a patient's skin while the array of concentric annular ultrasound transducers is tilted so as to move a focal point of ultrasound waves generated by the concentric annular ultrasound transducers within an imaging region of said ultrasound imaging device; wherein an indirect contact corresponds to a contact mediated by a layer of an ultrasound-conducting medium of less than 5 mm thick. 2. The ultrasound imaging and therapy device according to claim 1 , wherein said mechanical linkage is adapted for allowing a rotational degree of freedom of the array of concentric annular ultrasound transducers with respect to the ultrasound imaging device around a single rotational axis perpendicular to an imaging plane of the ultrasound imaging device. 3. The ultrasound imaging and therapy device according to claim 1 , wherein said ultrasound imaging device defines at least two mutually perpendicular imaging planes, and wherein said mechanical linkage is adapted for allowing a rotational degree of freedom of the array of concentric annular ultrasound transducers with respect to the ultrasound imaging device around two perpendicular rotational axes each perpendicular to a respective one of said imaging planes. 4. The ultrasound imaging and therapy device according to claim 3 , or wherein said or each said rotational axis passes through a central point of the array of concentric annular ultrasound transducers. 5. The ultrasound imaging and therapy device according to claim 1 , wherein the array of concentric annular ultrasound transducers has a concave shape. 6. The ultrasound imaging and therapy device according to claim 1 , further comprising an electronic signal generator configured for driving said concentric annular ultrasound transducers with independent time delays so as to emit focused ultrasound waves with an adjustable focal length. 7. The ultrasound imaging and therapy device according to claim 6 , wherein said electronic signal generator is configured for driving said concentric annular ultrasound transducers so as to emit said focused ultrasound waves with a focal point situated an axis perpendicular to the concentric annular ultrasound transducers and passing through a common center of said transducers, and for varying a position of said focal point along said axis. 8. The ultrasound imaging and therapy device according to claim 6 , wherein said electronic signal generator and said concentric annular ultrasound transducers are configured for generating said focused ultrasound waves at an intensity level sufficient to generate, at the focal point, a peak positive pressure of at least 10 MPa and preferably of at least 50 MPa. 9. The ultrasound imaging and therapy device according to claim 6 , wherein said electronic signal generator and said concentric annular ultrasound transducers are configured for generating said focused ultrasound waves at an intensity level sufficient to generate, at the focal point, a positive pressure comprised between 3 MPa and 10 MPa for HIFU therapy applications or ultrasonic drug delivery. 10. The ultrasound imaging and therapy device according to claim 6 , further comprising an actuating system of said mechanical linkage. 11. The ultrasound imaging and therapy device according to claim 10 , further comprising a controller configured for driving said electronic signal generator and said actuating system so as to steer the focal point of said focused ultrasound waves along a two- or three-dimensional path. 12. The ultrasound imaging and therapy device according to claim 11 , wherein said controller is further configured for cooperating with said ultrasound imaging device so as to direct the focal point of said focused ultrasound waves onto an imaged anatomical target of a patient. 13. The ultrasound imaging and therapy device according to claim 11 , wherein said controller is further configured for receiving image data provided by the imaging device, for processing said image data to extract information related to the treatment and for using said information to adapt automatically the intensity level of the focused ultrasound waves. 14. The ultrasound imaging and therapy device according to claim 13 , wherein said information related to the treatment includes information on a cavitation activity. 15. The ultrasound imaging and therapy device according to claim 10 , wherein said controller is further configured for receiving image data provided by the imaging device, for processing said image data to monitor in real-time the position of the therapeutic focus and for stopping the treatment if the focus is outside of a predefined target region.