Disclosed are a focused ultrasound device and an image transducer protection method. The focused ultrasound device according to an embodiment comprises: an ultrasound probe structure including a treatment transducer for transmitting a focused ultrasound signal and an image transducer for transmitting and receiving an ultrasonic image signal; a reception switch for selecting a plurality of first elements among elements of the image transducer as protection areas and deactivating same, and selecting a plurality of second other elements among the elements of the image transducer as reception areas and activating same; an image beamformer for forming a reception beam signal by focusing ultrasonic echo signals received from the plurality of second elements; an image generation unit for generating an image for a target area in an object on the basis of the reception beam signal; and a control unit for controlling the selection of the protection areas and reception areas by means of a reception switch.

In accordance with the present disclosure, ultrasound-based techniques using a combined scanning and treatment array module are employed to find and treat anomalies corresponding to bleed events. By way of example, ultrasound data may be acquired with a scanning array at one or more locations on a patient anatomy. A treatment array may deliver heat to a targeted anomaly to provide therapy. Such a technique may be useful outside of a hospital environment.

Disclosed are a focused ultrasound device and a method for setting an order of focused ultrasound treatment thereof. When using an ultrasound treatment method using mechanical energy, the focused ultrasound device according to an embodiment determines a next focal point position in consideration of at least one previous focal point position of focused ultrasound and thus can minimize thermal increase of an affected area and maximally utilize the mechanical energy.

In embodiments, devices, methods and systems to analyze the different mediums of brain function in a mathematically uniform manner may be provided. These devices, methods and systems may manifest at several levels and ways relating to brain physiology, including neuronal activity, molecular chirality and frequency oscillations. For example, in an embodiment, a computer-implemented method for determining structure of living neural tissue may comprise receiving at least one signal from at least one read modality, the signal representing at least one physical condition of the living neural tissue, determining action potentials based on the signals received from the read modalities, determining frequency oscillations based on the signals received from the read modalities and the action potentials, and determining neuron network structures based on the signals received from the read modalities, the action potentials, and the frequency oscillations.

Systems and methods for transvaginal high intensity concentrated ultrasound. Urinary incontinence is treated through application of high intensity ultrasound to tissue structures to affect a change in the tissue.

The present invention relates to an ultrasonic surgical device in which a cartridge comprises: a cartridge housing having an empty inner space filled with a medium; an ultrasonic therapy part which is movably provided inside the cartridge housing and includes a transducer for generating focused ultrasonic waves; a window through which the ultrasonic waves generated from the transducer pass; and a driving part which moves the ultrasonic therapy part inside the cartridge housing, wherein, as the transducer moves in one direction, the distance between the window and the transducer repeatedly increases and decreases.

Methods of treating tumors by administering compounds to a patient are provided. Compounds such as drugs, may be administered to the patient orally, by injection, intravenously, or topically, which then accumulate as compounds such as a protoporphyrin compound in tumor cells. After such accumulation, such compounds are then activated in various aspects to treat tumors cells, thereby treating cancer. Cancers such as glioblastoma may be treated.

An ultrasound system according to an embodiment of the present invention includes an imaging and therapy integrated transducer including a therapy transducer and an imaging transducer, a linear motor module configured to linearly move the imaging and therapy integrated transducer along a therapy target region, and a rotation motor module configured to rotate the imaging and therapy integrated transducer to switch the imaging transducer and the therapy transducer, wherein the therapy transducer and the imaging transducer are arranged to be switchable to each other by rotation in a housing.

Systems and methods for transvaginal high intensity concentrated ultrasound. Urinary incontinence is treated through application of high intensity ultrasound to tissue structures to affect a change in the tissue.

Various approaches for computationally generating a protocol for treatment of one or more target BBB regions within a tissue region of interest using a source of focused ultrasound include specifying (i) settings of sonication parameters for applying one or more sequence of sonications to the target BBB region using the source of focused ultrasound and (ii) a characteristic of microbubbles selected to be administered into the target BBB region; electronically simulating treatment in accordance with the protocol at least in part by computationally executing the sequence(s) of sonications and computationally administering the microbubbles having the characteristic; and computationally predicting a tissue disruption effect of the target BBB region resulting from the treatment.