Apparatus and method for ultrasound beam shaping are disclosed herein. In one embodiment, an ultrasonic therapy system is configured to apply ultrasound to a target in a body. The system includes: an ultrasonic transducer configured to generate the ultrasound; and a customizable lens configured to focus the ultrasound onto a focal area of the target. The target is an object or a portion of the object in the body. The customizable lens is designed and produced based on at least one acquired image of the target.

Systems and methods for treating skin and subcutaneous tissue with energy such as ultrasound energy are disclosed. In various embodiments, ultrasound energy is applied at a region of interest to affect tissue by cutting, ablating, micro-ablating, coagulating, or otherwise affecting the subcutaneous tissue to conduct numerous procedures that are traditionally done invasively in a non-invasive manner. Lifting sagging tissue on a face, neck, and/or body are described. Treatment with heat is provided in several embodiments.

A lens system for a camera objective has a plurality of optical lenses that are arranged one after another along an optical axis and are configured for imaging in the visually perceivable spectral range. At least a part of the optical lenses has two types of lens faces that intersect a beam path of the camera objective. At least three of said lens faces are provided with a first anti-reflective coating which has a larger reflectance in at least one partial region of the visible spectral range than a second anti-reflective coating of the remaining lens faces. In addition, a camera objective including the lens system and a method for producing a lens system are provided.

Various embodiments provide a method for an extended field of view treatment. The method can include the steps of imaging a region; targeting a region with directed ultrasound energy; monitoring the region; moving the imaging, treatment, and monitoring region while spatially correlating to one or more prior regions via imaging and/or position sensing; continuing the extended field of view treatment; and, achieving an ultrasound induced biological effect in the extended field of view treatment region.

Various embodiments provide methods and systems for ultrasound treatment of tissue are provided. Accordingly, a method can include locating an implant in a site in a body, directing a medicant to at least one of the implant and the site, directing ultrasound energy to the site, and accelerating healing of the implant and/or native tissue at the site.

A catheter-implemented transducer device for intravascular thrombolysis, is described herein. Such a transducer device includes a catheter defining a longitudinal axis and having opposed proximal and distal ends. At least one ultrasonic transducer arrangement is disposed about the distal end. The ultrasonic transducer arrangement is oriented with acoustic waves propagating parallel or perpendicular to the longitudinal axis. Optionally, the ultrasonic transducer arrangement is configured as a multi-layer stacked structure of ultrasonic transducer elements. Optionally, the ultrasonic transducer arrangement is a laser ultrasonic transducer arrangement. Optionally, the ultrasonic transducer arrangement is configured to operate in a lateral mode.

A system for individualized treatment of a tissue condition with acoustic pressure shocks includes personalized determination and automatic adjustment of a shock wave treatment regimen or shock wave dosage to be administered for personalized treatment based on factors such as a patient's comorbidities, state of the tissue condition, individual physical characteristics and lifestyle parameters.

Systems and methods for treating skin and subcutaneous tissue with energy such as ultrasound energy are disclosed. In various embodiments, ultrasound energy is applied at a region of interest to affect tissue by cutting, ablating, micro-ablating, coagulating, or otherwise affecting the subcutaneous tissue to conduct numerous procedures that are traditionally done invasively in a non-invasive manner. Lifting sagging tissue on a face, neck, and/or body are described. Treatment with heat is provided in several embodiments.

A system for delivering mechanical waves to treat a lesion present in a vessel of a body, including an external mechanical wave source for generating mechanical waves from outside of the body, and a wave directing device insertable in the vessel, the wave directing device configured to receive the mechanical waves generated by the external mechanical wave source and to redirect the mechanical waves according to a target direction.

Disclosed herein is a novel reconfigurable spatial and temporal light modulation method that exploits the imaging medium itself by employing a multi-element ultrasonic transducer array as an in-situ acoustic modulator. The medium density can be modulated using different ultrasonic pressure patterns to pattern an incident collimated beam of light.