A medical imaging and therapy device is provided that may include any of a number of features. One feature of the device is that it can image a target tissue volume and apply ultrasound energy to the target tissue volume. Esi tronic 2013 torrent software. In some embodiments, the medical imaging and therapy device is configured controllably apply ultrasound energy into the prostate by maintaining a cavitational bubble cloud generated by an ultrasound therapy system within an image of the prostate generated by an imaging system. The medical imaging and therapy device can be used in therapeutic applications such as Histotripsy, Lithotripsy, and HIFU, for example. Methods associated with use of the medical imaging and therapy device are also covered. CROSS REFERENCE TO RELATED APPLICATIONS This application claims the benefit under 35 U.S.C.

Provisional Patent Application No. 61/237,017, filed Aug. 26, 2009, titled “MICROMANIPULATOR CONTROL ARM FOR THERAPEUTIC AND IMAGING ULTRASOUND TRANSDUCERS”. This application is herein incorporated by reference in its entirety. INCORPORATION BY REFERENCE All publications, including patents and patent applications, mentioned in this specification are herein incorporated by reference in their entirety to the same extent as if each individual publication was specifically and individually indicated to be incorporated by reference.

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FIELD OF THE INVENTION The present invention generally relates to imaging and treating tissue with ultrasound devices. More specifically, the present invention relates to imaging and ablating tissue with Histotripsy devices. BACKGROUND OF THE INVENTION Histotripsy and Lithotripsy are non-invasive tissue ablation modalities that focus pulsed ultrasound from outside the body to a target tissue inside the body. Histotripsy mechanically damages tissue through cavitation of micro bubbles which homogenizes cellular tissues into an a-cellular liquid that can be expelled or absorbed by the body, and Lithotripsy is typically used to fragment urinary stones with acoustic shockwaves.

Histotripsy is the mechanical disruption via acoustic cavitation of a target tissue volume or tissue embedded inclusion as part of a surgical or other therapeutic procedure. Histotripsy works best when a whole set of acoustic and transducer scan parameters controlling the spatial extent of periodic cavitation events are within a rather narrow range. Small changes in any of the parameters can result in discontinuation of the ongoing process. Histotripsy requires high peak intensity acoustic pulses which in turn require large surface area focused transducers. These transducers are often very similar to the transducers used for Lithotripsy and often operate in the same frequency range.

The primary difference is in how the devices are driven electrically. Histotripsy pulses consist of a (usually) small number of cycles of a sinusoidal driving voltage whereas Lithotripsy is (most usually) driven by a single high voltage pulse with the transducer responding at its natural frequencies. Even though the Lithotripsy pulse is only one cycle, its negative pressure phase length is equal to or greater than the entire length of the Histotripsy pulse, lasting tens of microseconds. This negative pressure phase allows generation and continual growth of the bubbles, resulting in bubbles of sizes up to 1 mm. The Lithotripsy pulses use the mechanical stress produced by a shockwave and these 1 mm bubbles to cause tissue damage or fractionate stones.

In comparison, each negative and positive cycle of a Histotripsy pulse grows and collapses the bubbles, and the next cycle repeats the same process. The maximal sizes of bubbles reach approximately tens to hundreds of microns. These micron size bubbles interact with a tissue surface to mechanically damage tissue. In addition, Histotripsy delivers hundreds to thousands of pulses per second, i.e., 100-1 kHz pulse repetition frequency.

Lithotripsy only works well within a narrow range of pulse repetition frequency (usually 0.5-1 Hz). Studies show that the efficacy and efficiency of lithotripsy decreases significantly when the pulse repetition frequency is increased to 10-100 Hz. The reduced efficiency is likely due to the increased number of mm size bubbles blocking the shock waves and other energy from reaching the stone.

Histotripsy typically comprises delivering acoustic pulses that operate at a frequency between approximately 50 KHz and 5 MHz, having a pulse intensity with a peak negative pressure of approximately 8-40 MPa, a peak positive pressure of more than 10 MPa, a pulse length shorter than 50 cycles, a duty cycle between approximately 0.1% and 5% and in some embodiments less than 5%, and a pulse repetition frequency of less than 5 KHz. Diagnostic ultrasound can be used during Histotripsy procedures to visualize the surgical anatomy and monitor the process in real time. The Histotripsy cavitation bubble cloud can appear very clearly on diagnostic ultrasound as a hyperechoic (light) region and ablated homogenized tissue can appear as a hypoechoic (dark) region. Large and irregular tissue volumes can be ablated using Histotripsy by electronically changing the focus of a therapeutic array or by mechanically moving the focus of the therapeutic transducer within the surgical target area. SUMMARY OF THE INVENTION The present invention relates to an imaging and therapy system comprising a micro-manipulator system, an ultrasound therapy system supported by the micro-manipulator system, and an imaging system supported by the micro-manipulator system apart from the ultrasound therapy system, the micro-manipulator system being adapted and configured to maintain a focal point of the ultrasound therapy system within a field of view of the imaging system. In some embodiments, the micro-manipulator is adapted and configured to position the imaging system within a rectum of a human male patient and to position the ultrasound therapy system in acoustic contact with a perineum of the patient while the imaging system is in the rectum.