A device and method used to image wells and other fluid-carrying tubulars having localized features of interest. The device scans large areas of the tubular first in a low-resolution mode, then identifies areas that contain those localized features with some probability. The device images the identified areas in a high-resolution mode and stores the images for further image processing. The device may comprise two sensors axially spaced-apart on the device, which sensors may be electromagnetic, acoustic, or cameras.

Exemplary probes including longitudinal marker elements arranged parallel to the probe axis are provided for reducing or eliminating non-uniform rotational distortions (NURD) in imaging systems. Additional ring marker elements may also be provided to reduce or eliminate non-uniform linear distortion (NULD). These probes, as well as systems and methods of use provide for images having better image quality and reduced NURD.

A catheter-based ultrasound imaging system configured to provide a full circumferential 360-degree view around an intra-vascular/intra-cardiac imaging-catheter-head by generating a three-dimensional view of the tissue surrounding the imaging-head over time. The ultrasound imaging system can also provide tissue-state mapping capability. The evaluation of the vasculature and tissue characteristics include path and depth of lesions during cardiac-interventions such as ablation. The ultrasound imaging system comprises a catheter with a static or rotating sensor array tip supporting continuous circumferential rotation around its axis, connected to an ultrasound module and respective processing machinery allowing ultrafast imaging and a rotary motor that translates radial movements around a longitudinal catheter axis through a rotary torque transmitting part to rotate the sensor array-tip. This allows the capture and reconstruction of information of the vasculature including tissue structure around the catheter tip for generation of the three-dimensional view over time.

A catheter-based ultrasound imaging system configured to provide a full circumferential 360-degree view around an intra-vascular/intra-cardiac imaging-catheter-head by generating a three-dimensional view of the tissue surrounding the imaging-head over time. The ultrasound imaging system can also provide tissue-state mapping capability. The evaluation of the vasculature and tissue characteristics include path and depth of lesions during cardiac-interventions such as ablation. The ultrasound imaging system comprises a catheter with a static or rotating sensor array tip supporting continuous circumferential rotation around its axis, connected to an ultrasound module and respective processing machinery allowing ultrafast imaging and a rotary motor that translates radial movements around a longitudinal catheter axis through a rotary torque transmitting part to rotate the sensor array-tip. This allows the capture and reconstruction of information of the vasculature including tissue structure around the catheter tip for generation of the three-dimensional view over time.

An ultrasound probe according to an embodiment includes a plurality of piezoelectric transducer elements and a substrate. The plurality of piezoelectric transducer elements is divided in grid sections. The piezoelectric transducer elements have an ultrasound wave transmitting/receiving surface. The substrate is provided on a rear surface of the plurality of piezoelectric transducer elements. The substrate has a wiring configured to connect a plurality of electrodes for a group of piezoelectric transducer elements to driving circuitry. The group of piezoelectric transducer elements is located in a substantially concentric circle among the plurality of piezoelectric transducer elements. The rear surface of the plurality of piezoelectric transducer elements is a surface opposite to the ultrasound wave transmitting/receiving surface.

An apparatus and method for converting localized laser absorption in lipid-rich biological tissue into ultrasonic waves through thermoelastic expansion to image the entire arterial wall with chemical selectivity and depth resolution. The apparatus including a sensitive quasi-collinear dual-mode photoacoustic/ultrasound catheter with elaborately selected sheath material.

An ultrasound image generating apparatus is disclosed, which includes a signal output unit configured to be connected to an ultrasound transducer that transmits ultrasound based on a drive signal toward a subject and generates a detection signal based on the ultrasound reflected from the subject, and the signal output unit is configured to output the drive signal to the ultrasound transducer. The signal output unit includes a plurality of pulsers that each output a pulse-like drive signal, and are connected in parallel to the ultrasound transducer, and a buffer that is connected to input sides of the pulsers, and stabilizes a signal to be input into each of the pulsers.

Provided herein are imaging systems such as a system for quantitative tomography and a laser optoacoustic ultrasonic imaging system assembly (LOUISA) for imaging a tissue region, for example, a breast, in a subject. Generally, the system components are a laser that emits instant pulses of laser light in a wavelength cycling mode, fiberoptic bundles or optical arc-shaped fiber bundles configured to deliver laser light, an imaging module with an imaging tank, an optoacoustic array(s) of ultrawide-band ultrasonic transducers and ultrasound array(s) of ultrasonic transducers and a coupling medium and an electronics subsystem. Also provided is a method for imaging quantitative functional parameters and/or molecular parameters and anatomical structures in a volumetric tissue region of interest, such as a breast, in a subject utilizing the system for quantitative tomography.

Methods and instrumentation for pulse scattering estimation and imaging of scattering parameters in a material object by transmitting a pulse along a transmit beam and directing a receive beam that crosses at least one transmit beam at an angle <45 deg. The receive beam is at least in an azimuth direction at the transmit beam, and records scattered receive signal from the overlap region. A receive interval of the receive signal is gated for further processing to form measurement and/or image signals from cross-beam observation cells.

The ultrasonic probe according to the present embodiment includes a first transducer set, a second transducer set and a transducer set supporter. The first transducer set arranges transducers in a direction parallel with an axis of the ultrasonic probe. The second transducer set arranges transducers on a plane substantially orthogonal to the axis. The transducer set supporter supports the first transducer set and the second transducer set, and is configured to pivot around the axis.