Abstract: A catheter for use in a patient's body lumen, having a shaft section configured to minimize ultrasonic image artifacts and the direct ultrasonic image brightness of the shaft surface and its internal components, and to produce its image at a wide range of imaging angles, preferably with an intensity not substantially different than surrounding tissue of the body lumen under ultrasound visualization. The shaft section is operative for the desired use of the catheter, yet is also configured to facilitate accurately imaging the shape and location of the shaft section, and easily differentiate it from the surrounding anatomy without unduly obscuring the images of the adjacent anatomy using an ultrasound imaging system.

Abstract: A site marker and method of using a site marker are described and disclosed. The site marker comprises a bio-compatible and a plurality of elements, wherein the biocompatible material and at least one of the plurality of elements are imageable under different modalities.

Abstract: The present invention provides procedures and systems that use a closed-loop approach for directing ultrasound energy at a clot while monitoring blood flow and/or liquification of the clot tissue so as to allow automated and/or manual adjustments to various treatment parameters.

Abstract: An imaging system divides image pixels intensities by exposure time to generate image data in units of intensity per time. The imaging system divides a fluorescent light image in intensity per time units by an excitation light image in intensity per time units to provide a quantitative corrected fluorescent light image that is generally invariant to position of an imaging instrument relative to a biological tissue being imaged.

Abstract: A device configured to measure the viscoelastic properties of biological tissues using a processing of ultrasound waves reflected by these tissues when a shear wave runs across them is presented. The device includes memories for forming lines of data such that each line comprises data relative to the ultrasound waves reflected from the same shot and a calculator for determining a parameter relative to the displacement between the tissues and a transducer emitting the shots, a calculator for calculating an intrinsic displacement of the medium from a set of lines forming an acquisition, and a processor for processing the first ultrasound lines, by using the relative parameter, before or during the formation of second ultrasound lines from this same acquisition, in order to determine the intrinsic displacement of the biological tissues from these first lines.

Abstract: A method for removing position-dependent bias from tracking systems computes invertible transformations between a tracking system and a reference system, and applies an inverse of the transformation to measurements in the tracking system to estimate the locations of reference points in the reference system and to determine relative bias at the measured points.

Abstract: RF signals in predetermined time regions are extracted respectively from a plurality of RF signals which are produced when an examinee is scanned by an ultrasonic wave, and respective IB values are calculated in the time regions. A variance value of the calculated IB values is calculated, and information based on the calculated variance value is output.

Abstract: A system includes an acoustic radiation force source that is structured to generate an acoustic radiation force at one or more frequencies. A shear wave transmission device is embedded in a mass including a biologic material. The shear wave transmission device is responsive to the acoustic radiation force source to transmit shear waves through the biologic material. A Doppler ultrasonic device detects the shear waves and generates data representative of the shear waves. A processing device determines one or more mechanical properties of the biologic material from the data.

Abstract: A device and method for imaging body tissue, the device comprising a catheter for accessing body cavities having a catheter end, the catheter end having there within an ionizing radiation source for emitting ionizing radiation; and at least one ionizing radiation detector for detecting ionizing radiation; and wherein preferably a signal is emitted by the ionizing radiation source, said signal comprising photons or electrons, said photons or electrons are reflected from the body tissue or provoke the body tissue to generate photons or electrons.

Abstract: A system and method for recording and depicting ultrasound images of a moving object are disclosed. In a preferred embodiment, ultrasound images are acquired as the field of view of an ultrasound probe is advanced across the tissues of interest during a resting period between periods of relatively large-scale heart cycle motion. A series of images acquired during a particular resting period may be represented as a three-dimensional volume image, and the comparison of volume images from adjacent cardiac resting periods enables three-dimensional volume image modulation analysis which may be presented for a user as a moving volume image of the objects of interest within the field of view.

Abstract: A handheld ultrasound probe includes force detection and feedback to permit control and/or characterization of applied forces. The probe may, for example, be operated to maintain a substantially constant applied force over a period of use independent of a user's hand position, or to measure applied forces that might contribute to deformation of an imaging subject.

Abstract: A high intensity focused ultrasound transducer includes an ultrasonic emitter having a surface that emits ultrasonic energy along a beam path, at least one low attenuation polymeric ultrasonic lens acoustically coupled to the surface in the beam path of the ultrasonic energy, such that the lens can direct the ultrasonic energy in at least one direction, and at least one stress mitigation feature, such as a kerf, a heat sink, or an acoustic matching layer, to mitigate thermal expansion mismatch stresses within the transducer. For manufacturing simplicity, the first surface is typically either flat or monotonically curvilinear. The lens may take a variety of shapes, including Fresnel features, and may focus, collimate, or defocus the ultrasonic energy. Any orientation and positioning of the at least one ultrasonic lens relative to the first ultrasonic emitter is contemplated. Manufacture is further simplified by molding, casting, or thermoforming the lens.

Abstract: A catheter for use in a patient's body lumen, having a shaft section configured to minimize ultrasonic image artifacts and the direct ultrasonic image brightness of the shaft surface and its internal components, and to produce its image at a wide range of imaging angles, preferably with an intensity not substantially different than surrounding tissue of the body lumen under ultrasound visualization. The shaft section is operative for the desired use of the catheter, yet is also configured to facilitate accurately imaging the shape and location of the shaft section, and easily differentiate it from the surrounding anatomy without unduly obscuring the images of the adjacent anatomy using an ultrasound imaging system.

Abstract: A medium area (S) filled with liquid xenon (2) is formed between an external cylindrical body (1a) and internal cylindrical body (1b), and a pair of anode pads (11, 12) are disposed in two-dimensional form in opposite end portions of the medium area (S) in the intersection direction with respect to the gamma-ray incident direction. An intermediate electrode (10) is disposed between a pair of anode pads (11, 12), and a plurality of photomultiplier tubes (5) is installed in two-dimensional form in the external cylindrical body (1a). Then, the gamma-ray reaction point within the liquid area (S) is identified from signals output from the anode pads (11, 12) and photomultiplier tubes (5).

Abstract: A small-scale diagnostic system and a display control method are provided. In the diagnostic system, while image data on a patient is displayed on a screen of a medical image control device, when image data on another patient is received from an image generating device, and the medical doctor wants to display the received image data on the another patient on the screen for examining the image and diagnosing the another patient, the displayed image on the screen can be switched to that of the image data on the another patient by a simple operation of depressing a patient selection button. This enables the medical doctor to perform image diagnosis efficiently in a small-scale facility such as a clinic.

Abstract: A treatment device and methods for HIFU treatment of thyroid and parathyroid disorders are provided. The treatment method includes steps of identifying a treatment zone and directing high intensity focused ultrasound energy towards the treatment zone. The treatment device has a first sensor for detecting swallowing motion and a second sensor for tracking the motion of the thyroid and parathyroid tissue with ultrasound imaging.

Abstract: The embodiment of the present invention provides an ultrasound diagnostic system, including: an ultrasound diagnosis unit for transmitting ultrasound signals to a target object and receiving ultrasound echo signals to acquire B-mode image signals and Doppler spectrum image signals; a processor for forming at least one B-mode image based on the B-mode image signals and forming a plurality of Doppler spectrum images for a plurality of sample volumes designated on the B-mode image based on the Doppler spectrum image signals; a user input unit for allowing a user to input selection information indicating locations and sizes of the plurality of sample volumes; and an image display unit for displaying at least one B-mode image and the plurality of Doppler spectrum images.

Abstract: A handheld ultrasound probe includes force detection and feedback to permit control and/or characterization of applied forces. The probe may, for example, be operated to maintain a substantially constant applied force over a period of use independent of a user's hand position, or to measure applied forces that might contribute to deformation of an imaging subject.

Abstract: A handheld ultrasound probe includes force detection and feedback to permit control and/or characterization of applied forces. The probe may, for example, be operated to maintain a substantially constant applied force over a period of use independent of a user's hand position, or to measure applied forces that might contribute to deformation of an imaging subject.

Abstract: The invention relates to a method for the MRT representation of a blood vessel (A) and/or of the territory supplied by the blood vessel (A) by labeling the blood, which is guided by this blood vessel (A), by means of continuous arterial spin labeling (CASL), in a specified labeling plane (E). The position of the labeling plan (E) is varied with the provision that a specified location of the blood vessel (A) remains in the labeling plane (E). This enables, for example, a selective labeling of a blood vessel of interest to be saturated by varying the position of the labeling plane.