Medical ultrasound device with temperature detection at distal end

The invention claimed is: 1. A medical ultrasound device, comprising: an elongated body having a proximal end, a distal end, a distal end region and a length axis along the elongation; one or more ultrasound transducers for generating acoustic radiation and detecting reflected acoustic radiation, the one or more ultrasound transducers being positioned in the distal end region, inside the elongated body; a transmission element coupled to the elongated body and positioned in a radiation path of the acoustic radiation at a fixed position relative to the one or more ultrasound transducers, wherein the transmission element is transparent to acoustic radiation, wherein the transmission element comprises a first side facing the one or more ultrasound transducers and an opposite facing second side, and wherein the first side of the transmission element is spaced from the one or more ultrasound transducers; and a controller unit operatively connected to the one or more ultrasound transducers to generate an ultrasound image from a detection of reflected acoustic radiation by the one or more ultrasound transducers, to detect an acoustic path length between the first side and the second side of the transmission element within the ultrasound image and to determine a temperature of the transmission element from the detected acoustic path length. 2. The device according to claim 1 , wherein the temperature of the transmission element is determined by the controller unit based on detecting a separation within the ultrasound image of reflection peaks from a surface of the first side of the transmission element and a surface of the second side of the transmission element. 3. The device according to claim 1 , wherein the distal end region includes fluid channels which allow delivery of fluid through the elongated body to the distal end region. 4. The device according to claim 1 , wherein the one or more ultrasound transducers are capable of generating acoustic radiation suitable for monitoring a region of interest and for detecting the acoustic path length through the transmission element. 5. The device according to claim 1 , wherein the temperature of the transmission element is determined based on a look-up table or a functional relationship between a parameter related to the acoustic path length and the temperature at the distal end. 6. The device according to claim 1 , wherein the transmission element includes a polymer-based body which is transparent to acoustic radiation, the polymer-based body having a change of velocity of the acoustic radiation larger than 0.1% per degree Celsius. 7. The device according to claim 1 , wherein the transmission element includes a polymer-based body which is transparent to acoustic radiation, covered with an electrode substantially transparent to acoustic radiation. 8. The device according to claim 1 , wherein the transmission element includes a treatment modality for treatment of body tissue. 9. The device according to claim 1 , wherein the device is an ultrasound catheter with an integrated ablation electrode, and wherein the transmission element includes the integrated ablation electrode. 10. Method of operating a medical device, the device including: an elongated body having a proximal end, a distal end, a distal end region and a length axis along the elongation; one or more ultrasound transducers for generating acoustic radiation and detecting reflected acoustic radiation, the one or more ultrasound transducers being positioned in the distal end region, inside the elongated body; a transmission element coupled to the elongated body and positioned in the radiation path of the acoustic radiation at a fixed positioned relative to the one or more ultrasound transducers, wherein the transmission element is transparent to acoustic radiation, wherein the transmission element comprises a first side facing the one or more ultrasound transducers and an opposite facing second side, and wherein the first side of the transmission element is spaced from the one or more ultrasound transducers; and a controller unit operatively connected to the one or more ultrasound transducers; wherein the method comprises: generating acoustic radiation by operating the one or more ultrasound transducers in a generation mode; detecting reflected acoustic radiation by operating the one or more ultrasound transducers in a detection mode; controlling, by the controller unit, a generation of an ultrasound image from the reflected acoustic radiation, a detection of an acoustic path length of the acoustic radiation between the first side and the second side of the transmission element within the ultrasound image, and a determination of a temperature of the transmission element from the detected acoustic path length. 11. A controller unit for detecting a temperature at a distal end of a medical ultrasound device including an elongated body having a proximal end, the distal end, a distal end region and a length axis along the elongation, one or more ultrasound transducers for generating acoustic radiation and detecting reflected acoustic radiation, the one or more ultrasound transducers being positioned in the distal end region, inside the elongated body, and a transmission element coupled to the elongate body and positioned in the radiation path of the acoustic radiation at a fixed position relative to the one or more ultrasound transducers, wherein the transmission element is transparent to acoustic radiation, wherein the transmission element comprises a first side facing the one or more ultrasound transducers and an opposite facing second side, and wherein the first side of the transmission element is spaced from the one or more ultrasound transducers, the controller unit comprising: a computer system including a computer program product structurally configured: to generate an ultrasound image from a detection of reflected acoustic radiation by the one or more ultrasound transducers; to detect an acoustic path length between the first side and the second side of the transmission element within the ultrasound image, to determine a temperature of the transmission element from the detected acoustic path length; and to control a generation of the acoustic radiation by the one or more ultrasound transducers based on the determined temperature of the transmission element. 12. The method according to claim 10 , wherein the temperature of the transmission element is determined by the controller unit based on detecting a separation within the ultrasound image of reflection peaks from a surface of the first side of the transmission element and a surface of the second side of the transmission element. 13. The method according to claim 10 , wherein the temperature of the transmission element is determined by the controller unit based on a look-up table or a functional relationship between a parameter related to the acoustic path length and the temperature at the distal end. 14. The method according to claim 10 , wherein the transmission element includes a treatment modality for treatment of body tissue; and wherein the method further comprises controlling, by the controller unit, the generating of the acoustic radiation by the one or more ultrasound transducers in the generation mode based on the determined temperature of the transmission element and the treatment of the body tissue by the treatment modality. 15. The method according to claim 10 , wherein the device is an ultrasound catheter with an integrated ablation electrode; wherein the transmission element includes the integrated ablation electrode; an