System and method for non-invasive treatment with improved efficiency

The invention claimed is: 1. A treatment device for delivering a therapeutic ultrasound energy into a region of interest beneath a target surface, the treatment device comprising: a therapeutic ultrasound energy source configured for delivery of the therapeutic ultrasound energy; a rolling member to move the treatment device relative to the target surface, the rolling member comprising a wall disposed between the therapeutic ultrasound energy source and the region of interest, the therapeutic ultrasound energy passing through the wall at least once prior to the delivery into the region of interest; a plurality of parallel friction strips affixed to an outer surface of the rolling member; an ultrasound controller configured to control the therapeutic ultrasound energy source; a contact sensor in communication with the ultrasound controller and configured to determine when the therapeutic ultrasound energy source is acoustically coupled to the region of interest by identifying energy reflected back toward the therapeutic ultrasound energy source that is one half wavelength of the therapeutic ultrasound energy or a simple multiple of one half wavelength of the therapeutic ultrasound energy; and a housing coupled to the rolling member to move along the target surface while retaining acoustic coupling between the therapeutic ultrasound energy source and the region of interest, wherein the therapeutic ultrasound energy source is positioned within the rolling member, wherein the wall has a thickness of one half wavelength of the therapeutic ultrasound energy or a simple multiple of one half wavelength of the therapeutic ultrasound energy, wherein the therapeutic ultrasound energy source is reflected by the wall when the therapeutic ultrasound energy source is uncoupled from the region of interest, which signals the ultrasound controller to terminate the delivery of the therapeutic ultrasound energy. 2. The treatment device according to claim 1 , wherein the rolling member is sealed and contains a coupling medium to facilitate coupling of the therapeutic ultrasound energy source with the region of interest. 3. The treatment device according to claim 1 , wherein the therapeutic ultrasound energy source is at least one ultrasound transducer configured to controllably direct acoustic energy into the region of interest. 4. The treatment device according to claim 1 , wherein the therapeutic ultrasound energy source comprises at least one ultrasound transducer configured to controllably direct acoustic energy into the region of interest and the treatment device further comprises a second energy source configured to provide energy, other than acoustic energy, to the region of interest. 5. The treatment device according to claim 1 , the treatment device further comprising a position sensor in communication with the ultrasound controller and configured to monitor a position of the treatment device or to calculate a speed of the treatment device. 6. The treatment device according to claim 5 , wherein the ultrasound controller terminates the delivery of the therapeutic ultrasound energy if the position of the treatment device is outside a pre-defined area of treatment or if the speed of the treatment device is greater than an upper threshold. 7. The treatment device according to claim 1 , the device further comprising an axle positioned through a center axis of the rolling member. 8. The treatment device according to claim 1 , the contact sensor comprising a hall detector, an optical detector, an acoustic impedance detector, a conductive detector, a piezo electric detector, a mechanical detector, a magnetic detector, a capacitive detector, or a combination thereof. 9. The treatment device according to claim 1 , the treatment device further comprising one or more lenses. 10. The treatment device according to claim 1 , wherein the target surface is a skin surface. 11. The treatment device according to claim 1 , wherein the region of interest is a subcutaneous region of interest. 12. A method of treating a first location and a second location within a region of interest beneath a target surface by delivery of a therapeutic ultrasound energy, the method comprising: a) transmitting the therapeutic ultrasound energy, provided by a therapeutic ultrasound energy source of a treatment device, through at least one wall of a rolling member of the treatment device and into the first location, the rolling member having a plurality of parallel friction strips affixed to an outer surface of the rolling member; b) sensing, using a contact sensor of the treatment device, a coupling between the therapeutic ultrasound energy source and the region of interest by identifying energy reflected back toward the therapeutic ultrasound energy source that is one half wavelength of the therapeutic ultrasound energy or a simple multiple of one half wavelength of the therapeutic ultrasound energy; c) moving the treatment device relative to the target surface; and d) either: terminating the therapeutic ultrasound energy transmission if the coupling between the therapeutic ultrasound energy source and the region of interest is interrupted; or transmitting the therapeutic ultrasound energy, provided by the therapeutic ultrasound energy source, through the at least one wall of the rolling member and into the second location if the coupling between the therapeutic ultrasound energy source and the region of interest is uninterrupted, wherein the therapeutic ultrasound energy source is positioned within the rolling member, wherein the wall has a thickness of one half wavelength of the therapeutic ultrasound energy or a simple multiple of one half wavelength of the therapeutic ultrasound energy, wherein the therapeutic ultrasound energy source is reflected by the wall when the therapeutic ultrasound energy source is uncoupled from the region of interest, which signals the ultrasound controller to terminate the delivery of the therapeutic ultrasound energy. 13. The method according to claim 12 , wherein the rolling member is sealed and contains a coupling medium to facilitate coupling between the therapeutic ultrasound energy source and the region of interest. 14. The method according to claim 12 , the method further comprising monitoring, using a position sensor of the treatment device, a position of the treatment device relative to the target surface or a speed of the treatment device relative to the target surface. 15. The method according to claim 14 , wherein step d) comprises either: terminating the therapeutic ultrasound energy transmission if the coupling between the therapeutic ultrasound energy source and the region of interest is interrupted, if the position of the treatment device is outside a pre-defined area of treatment, or if the speed of the treatment device is greater than an upper threshold; or transmitting the therapeutic ultrasound energy, provided by the therapeutic ultrasound energy source, through the at least one wall of the rolling member and into the second location if the coupling between the therapeutic ultrasound energy source and the region of interest is uninterrupted, the position of the treatment device is inside the pre-defined area, and the speed of the treatment device is less than the upper threshold. 16. The method according to claim 12 , wherein the target surface is a skin surface. 17. The method according to claim 12 , wherein the region of interest is a subcutaneous region of interest. 18. A treatment device for delivering an energy into a region of interest b