Abstract: A magnetic memory includes a deformable base plate, a spin device element coupled with the deformable base plate and storing a data as a magnetization direction, and a bending mechanism to bend the deformable base plate. At least one of upper and lower surfaces of the deformable base plate faces a space which is not filled with solid substance.

Abstract: A multi-channel optical coherence tomography probe for use in a medical procedure is provided. The probe comprises: a plurality of first optical fibers optically connectable to an OCT light source; a plurality of second optical fibers different from the plurality of first optical fibers; a scanning device comprising: an actuator configured to rotationally move the plurality of second optical fibers between a first position and a second position, relative to the plurality of first optical fibers; and, a mirror configured to, as the plurality of second optical fibers is moving rotationally, convey light from exit faces of the plurality of first optical fibers to entrance faces of the plurality of second optical fibers; and, a housing containing the plurality of second optical fibers.

Abstract: Described herein is a ROM architecture featuring a ROM bitcell without a transistor, a ROM architecture wherein the bitcell device gate goes to a column address and the local bitline is sensed per row per mux, a ROM architecture wherein the bitcell device gate goes to the column address and the full row of bitcells is enabled by a row enable signal, and a ROM architecture wherein the bitcell device gate goes to the row address and the full column of bitcells is enabled by a column enable signal. The presently described architectures provide large advantages in terms of PPA.

Abstract: A medical imaging system for reconstructing quantitative dynamic nuclear medicine images of a subject may include a three dimensional positron emission tomography (3D PET) scanner and a data processing system. The three dimensional positron emission tomography (3D PET) scanner may: perform scans of the subject at each of multiple bed positions, each scan being of only a sub-portion of the subject that is within an axial length covered by the scanner; and generate dynamic list-mode PET data that: represents a total number of photon pairs arriving at each of multiple detector pairs in the 3D PET scanner; and is organized in a list of elements, each element in the list including a detector pair index and an arrival time for each detected photon pair; and acquires PET data using a dynamic PET protocol with at least two scans at each of the multiple bed positions.

Abstract: The invention provides for a medical apparatus (300, 500, 600) comprising a high intensity focused ultrasound system (302), a memory containing instructions, and a processor. Execution of the instructions causes the processor to receive (100, 202) surface data (342) descriptive of the location of a surface (322). The surface data defines the location of the heating volume. Execution of the instructions further cause the processor to determine (102, 204) a set of transducer switching commands (344) using the heating location data and an ultrasound transducer element model (352) and control (104, 206) the high intensity focused ultrasound system with the set of transducer switching commands to heat the heating volume. The set of transducer switching commands comprises an intensity level for the multiple ultrasound transducer elements either above or below a predetermined intensity for controlling a cross sectional shape of the heating volume to encompass the surface.

Abstract: An embodiment of a receiver apparatus may include high pass components to pass high frequency components of an input signal, low pass components to pass low frequency components of the input signal, and an amplifier communicatively coupled to the high pass components and the low pass components to amplify respective signals passed by the high pass components and the low pass components, wherein the low pass components include a level shifter to shift a common mode voltage level of the input signal to a switch threshold voltage for the amplifier in accordance with at least two different types of memory devices. Other embodiments are disclosed and claimed.

Abstract: A split memory bank may comprise a number of memory matrices forming a memory bank and a shift register in which the shift register physically separates the matrices. An integrated circuit may comprise a number of shift registers and a plurality of memory matrices forming a memory bank in which the matrices are spatially separated by the shift register. An integrated printhead may comprise a number of memory banks each comprising a plurality of memory matrices and a number of shift registers in which each shift register spatially separates a number of the matrices.

Abstract: An ultrasound diagnosis apparatus is configured to generate an ultrasound image based on an ultrasound signal obtained by an ultrasound probe having an ultrasound transducer that transmits ultrasound to a subject and receives the ultrasound reflected from the subject. The apparatus includes: an analysis unit that analyzes a frequency of the ultrasound signal to calculate a frequency spectrum of the ultrasound signal for each reception depth; a calculation unit that calculates, in a predetermined order, a distance change rate and a frequency change rate in the frequency spectrum or in a function defined by using the frequency spectrum, to calculate a second-order change rate of the frequency spectrum or of the function; and an estimation unit that estimates an attenuation rate of the ultrasound signal, per unit distance and per unit frequency, in a predetermined region within a scanning region of the ultrasound transducer using the second-order change rate.

Abstract: Described herein is a ROM architecture featuring a ROM bitcell without a transistor, a ROM architecture wherein the bitcell device gate goes to a column address and the local bitline is sensed per row per mux, a ROM architecture wherein the bitcell device gate goes to the column address and the full row of bitcells is enabled by a row enable signal, and a ROM architecture wherein the bitcell device gate goes to the row address and the full column of bitcells is enabled by a column enable signal. The presently described architectures provide large advantages in terms of PPA.

Abstract: Medical ultrasound systems. A base unit is included having system electronics, a user interface and ultrasound control electronics. An ultrasound therapy head is in electronic communication with the base unit. The therapy head includes a replaceable, sealed transducer cartridge with a coupling fluid therein. A cooling system is provided for cooling the coupling fluid. A plurality of guide indicators are positioned around the therapy head to align with crossed lines on a patient so as to properly align the therapy head prior to use. The therapy head can provide variable treatments to an area while the therapy head is in contact with a patient.

Abstract: The object of the invention relates to an apparatus for the thermal treatment of biological tissues by means of the application of focused ultrasound waves, the apparatus including: a probe movement system for ensuring: the moving of the focal zone along a first direction, from a distal point of the treatment zone to a proximal point of the treatment zone, in order to create a sequence of elementary treatment zones; the juxtaposition of sequences of elementary treatment zones in order to completely cover the treatment zone; a control circuit controlling the probe, in order to ensure that the ultrasonic power delivered to the focal zone decreases between the distal point and the proximal point of the treatment zone.

Abstract: Coronary sinus cannulation apparatus and methods relating to tissue visualization catheters that can locate and/or cannulate a morphological feature within a body lumen, such as the coronary sinus, are described. Such devices can also perform a variety of therapeutic tissue treatments under direct in vivo visualization thereafter. Moreover, such apparatus and methods may also be utilized with guidewires to facilitate delivery into the coronary sinus to eliminate repositioning of the device and/or repeating an entire sequence of operations, consequently improving procedure effectiveness and reducing procedure time.

Abstract: An ultrasonic surgical system is provided. The ultrasonic surgical system includes an ultrasonic instrument that is configured to ultrasonically treat tissue. An ultrasonic generator configured to provide ultrasonic energy to the ultrasonic instrument provides an indication to a user that a specific outcome has been achieved. The indication is output via a device selected from an audio activation end-tone device, a visual activation end-tone device or a tactile activation end-tone device. The ultrasonic generator includes an end-tone outcome indicator module that includes memory having one or more data look up tables that is accessible by a microprocessor associated with the ultrasonic generator.

Abstract: In a method for slice positioning of an examination subject in a magnetic resonance system an item of localization information describing the arrangement of the examination subject is automatically determined at least one item of alignment information is automatically determined. At least one slice positioning entry is acquired by an operator, which includes a selection of one of the items of alignment information or an item of manual positioning information. Offset information, which includes a relative slice positioning effected by the manual positioning information, is automatically determined and the slice positioning is determined as a function of the slice positioning entries and the offset information. The offset information is stored separately from the slice positioning in a magnetic resonance measurement protocol, and is used in a further configuration of a further slice positioning.

Abstract: A low voltage detection circuit includes a first detection block configured to detect a level of an external voltage according to a reference voltage, and output a pre-detection signal; and a second detection block configured to generate a low voltage detection signal of a beginning level regardless of a variation in a level of the pre-detection signal when the level of the pre-detection signal is detected as the beginning level.

Abstract: The method determines parameters to generate confocal ultrasound beams (B1,B2) inside a medium (4), and uses a device (1) comprising first and second ultrasound means (11,12) and first and second displacement members (13,14) for moving the ultrasound means (11,12). The parameters include signals s1,s2 to the ultrasound means (11,12), and the positions x1,x2 of the ultrasound means (11,12). The parameters are optimized for having a minimum amplitude a1,a2 of the signals s1,s2 and having an acoustic effect inside the medium (4).

Abstract: Described herein is a ROM architecture featuring a ROM bitcell without a transistor, a ROM architecture wherein the bitcell device gate goes to a column address and the local bitline is sensed per row per mux, a ROM architecture wherein the bitcell device gate goes to the column address and the full row of bitcells is enabled by a row enable signal, and a ROM architecture wherein the bitcell device gate goes to the row address and the full column of bitcells is enabled by a column enable signal. The presently described architectures provide large advantages in terms of PPA.

Abstract: A read only memory including a ROM cell array, a plurality of word lines and a plurality of bit lines and a word line driver. The ROM cell array has a plurality of ROM cells. Each of the ROM cells coupled to corresponding bit line and corresponding word line. The word line driver is coupled to the word lines, and respectively provides a plurality of word line signals to the word lines. Each of the ROM cells is a first type ROM cell or a second type ROM cell. The first type ROM cell includes a first top metal structure and a first bottom metal structure. The first bottom metal structure is electrically isolated from the first top metal structure. The second type ROM cell includes a second top metal structure, a second bottom metal structure, and a connection structure. The connection structure is electrically connected the second top metal structure and the second bottom metal structure.

Abstract: Tactile sensing devices, systems, and methods to image a target tissue location are disclosed. When force is applied to the tactile sensing device, voltage data is detected and visualized on a screen, indicating the target tissue location.

Abstract: A device (1) and a method for therapeutic treatment comprising an acoustic treatment transducer (2) able to emit high intensity waves (HIFU) toward a target (3) in order to treat the target. The high intensity waves have a focal point. The device com-prises at least one detector (15) for detecting a change of tis-sue properties caused by the high intensity waves in the target (3). The device (1) further comprises at least one means for time measurement able to measure the time tmark from the beginning of the emission of a pulse of HIFU until a change of tissue properties is detected or means for detecting the frequency of appearance of changes of tissue properties.