Abstract: The present invention provides a device and method for measuring tissue deformation during an invasive medical procedure. A device is provided comprising a flexible fiber having a proximal end and a distal end; at least one sensor embedded in the flexible fiber; a rigid mount having a transverse opening for the flexible fiber; a mechanism for inserting the flexible fiber into a tissue; a detector for receiving information from the sensor; and a tracking system for receiving information from the detector to calculate the sensor location.

Abstract: An optical device is described that may be used as a microscope system for real-time, three-dimensional optical imaging. The device includes a miniature, fiber optic, intra-vital probe microscope that uses a dual-axes confocal architecture to allow for vertical scanning perpendicular to a surface of the sample (e.g., a tissue surface). The optical device can use off-axis illumination and collection of light to achieve sub-cellular resolution with deep tissue penetration. The optical device may be used as part of an integrated molecular imaging strategy using fluorescence-labeled peptides to detect cell surface targets that are up-regulated by the epithelium and/or endothelium of colon and breast tumors in small animal models of cancer.

Abstract: A device may include a three-dimensional image sensor configured to scan an area including a closed or partially closed container, an output display, and a controller. The controller may be configured to: recognize an instrument that is detected by the three-dimensional image sensor, where a first section of the instrument is located inside of the container and a second section of the instrument is located outside of the container, and represent, on the output display, three-dimensional positions and orientations of the instrument, where a first position and a first orientation of the first section of the instrument is inferred from a second position and a second orientation of the second section of the instrument.

Abstract: The invention relates to a system for monitoring a position of a distal end of a tube with respect to a blood vessel of a mammal. The system comprises a source for generating an outgoing beam of electromagnetic radiation having a predefined electromagnetic spectrum. The system furthermore comprises a guideway for guiding the outgoing beam to the distal end, and for guiding an incoming beam of electromagnetic radiation reflected by surroundings of the distal end in response to said outgoing beam to a measurement arrangement, which is arranged for measuring a parameter associated with an electromagnetic spectrum of the incoming beam. The system furthermore comprises a comparator arrangement for comparing said parameter with a reference parameter associated with a reference electromagnetic spectrum representing a predefined location of the distal end inside the mammal.

Abstract: Changes in electrical stimulation therapy delivered via a medical device are coordinated with Functional Magnetic Resonance Imaging (fMRI) scans. In one example, a medical device delivers electrical stimulation therapy to a patient in an MRI unit, where the medical device is configured to cycle electrical stimulation therapy between a plurality of stimulation states. An indication that the medical device will cycle the electrical stimulation therapy or has cycled the electrical stimulation therapy while the patient is in the MRI unit or being imaged by the MRI unit is generated, and an MRI scan of the patient via an MRI workstation is initiated based on the indication. In another example, a medical device detects activation of an MRI scan and automatically switches stimulation states based upon the detection of the MRI scan, such that the scan is associated with a particular stimulation state.

Abstract: Methods, devices, apparatuses and systems are disclosed for performing mammography, such as utilizing tomosynthesis in combination with breast biopsy.

Abstract: A medical luminaire for photodynamic diagnosis. The medical luminaire including: a broad-band lamp for generating broad-band background light; a semiconductor lamp for generating short-wave excitation light, wherein the semiconductor lamp comprises a laser diode, the light from which is fed alternatively or additionally into a light path of the broad-band lamp, and a light fiber bundle for transporting the light, wherein the excitation light is transported in a partial bundle.

Abstract: A magnetic resonance imaging system to be used over a target area of a subject includes first and second RF coils for receiving an RF signal from the subject. The first RF coil is fixed to a position device and movable over the target area of subject. The second RF coil is larger than the first RF coil and has a larger field of view than the first RF coil. The system further includes an image processing device programmed to process RF signals coupled from the first RF coil and the second RF coil to form an MRI image.

Abstract: Cardiac ablation is monitored to detect hemopericardium by iteratively acquiring magnetic resonance imaging (MRI) data that includes the pericardium, measuring the pericardium by analyzing the sets of MRI data, making a determination that a measurement of the pericardium in consecutive sets of MRI data differ, and responsively to the determination reporting a change in configuration of the pericardium.

Abstract: This document describes a system for determining positioning of an intubation tube in a patient. The system can include a first acoustic sensor configured to be disposed to listen to one of a lung and a stomach of the patient and to provide a first signal. The system includes a signal processing unit, coupled to the first acoustic sensor, configured to analyze spectral components of the first signal and determine whether a frequency of the spectral components of the first signal are characteristic of sounds induced by ventilation via the intubation tube of airflow to the lung or the stomach of the patient.

Abstract: A method for colon screening and collecting data by using Magnetic Particle Imaging wherein an imaging magnetic field is generated with a spatial distribution of the magnetic field strength such that the area of examination in the colon consists of a first sub-area with lower magnetic field strength, where the magnetization of a magnetic particle which was pre-delivered to the colon is not saturated, and a second sub-area with a higher magnetic field strength, where the magnetization of said magnetic particle is saturated. The spatial location of both sub-areas in the area of examination is modified so that the magnetization of said particles changes locally. Signals are acquired and are evaluated to obtain information about the spatial distribution of the signals in the area of examination. The method may be carried out during an entire peristaltic cycle in a colon portion or segment.

Abstract: According to one embodiment, an image processing apparatus includes a storage unit configured to store data of a series of slice images associated with a region including a target region of an object, a first rest period specifying unit configured to specify a first rest period based on a change between images of the series of slice images, and a second rest period specifying unit configured to specify a second rest period shorter than the first rest period by tracking the target region on a plurality of slice images corresponding to the specified first rest period or a rest period enlarged from the first rest period.

Abstract: An apparatus for vascular denervation, comprising a catheter configured for delivery into a vessel of a patient. A balloon is mounted on a distal tip of the catheter, the balloon being configured to be inflatable and further configured so that, upon inflation, the balloon adopts a shape that includes a first edge and a second edge that wind around each other in a double helix, the first edge and the second edge being separated from each other by a first crease and a second crease that also wind around each other in a double helix. A first electrode is attached to the balloon and is located to extend along the first edge.

Abstract: This invention relates to a vacuum-pump sucker for high-resolution microscopy comprising a sucker body and a transparent plate. The vacuum-pump sucker is designed as a stabilizer for sample stabilization in a clinical optical virtual biopsy system with sub-micron resolution. The sucker is connected with a vacuum pump. As the vacuum pump pumps out air or gas, tissues around the imaged area will be sucked by the sucker and the distance between objective lens and the imaged tissue can be stabilized. In this way, the stability and resolution of the clinical biopsy system can be greatly improved.

Abstract: A system for detecting bone defects includes a dental implant contacting member, at least one electromagnetic source, at least one first magnetic field detecting device, at least one second magnetic field detecting device and a computing device. The dental implant contacting member has a magnetic body. The electromagnetic source is used to generate a variable magnetic field to vibrate the magnetic body. The first magnetic field detecting device is used to detect a magnetic field of the magnetic body and the variable magnetic field, so as to generate first detected data. The second magnetic field detecting device is used to detect the variable magnetic field, so as to generate second detected data. The computing device is used to obtain vibration data based on the difference between the first detected data and the second detected data.

Abstract: The disclosure has an object to provide a medical-data processing device that allows generation of an MIP image suitable for diagnosis. With the medical-data processing device of the disclosure, intensity of a body surface region in three-dimensional space data is adjusted. The body surface region corresponds to a body surface of a stereoscopic image of a subject. Since the intensity of the body surface region is adjusted to be decreased, the maximum intensity is selected from a portion except for the body surface region to generate the MIP image. This prevents the body surface of the subject from appearing upon generating the MIP image. Therefore, the MIP image is obtainable having excellent visibility to the inside of the subject.

Abstract: A system includes acquisition of a first three-dimensional image of a patient volume using a magnetic resonance imaging scanner, acquisition of a second three-dimensional image of the patient volume using cone beam radiation emitted by the linear accelerator, and generation of a radiation treatment plan based on the first image and the second image.

Abstract: A surgical guidance system offering different levels of imaging capability while maintaining the same hand-held convenient small size of light-weight intra-operative probes. The surgical guidance system includes a second detector, typically an imager, located behind the area of surgical interest to form a coincidence guidance system with the hand-held probe. This approach is focused on the detection of positron emitting biomarkers with gamma rays accompanying positron emissions from the radiolabeled nuclei.

Abstract: Systems and methods are presented for delivering medical fluids to a patient. A data storage device (120) is either separately attached to or incorporated within the structure of a reusable fixture that may be detachably connected to a barrel (111) of a syringe (107). A filling station (110) and an power injector (108) may each include a read-write device (114, 122) that is operable to read the data storage device (120) within its field of view. When the read-write devices (114, 122) are attached to the filing station (110) and the power injector (40), respectively, and when the fixture including the data storage device (120) is attached to the syringe (107), the read-write devices (114, 122) may be operable to store data on and read data from the data storage device (120) associated with the syringe (107). After an injection procedure, the fixture may be detached from the syringe (107) and reused with a new or resterilized syringe (107).

Abstract: Injection systems and related methods including an injection device, an operator interface, and modules to determine operational parameters during an MRA imaging procedure. Such parameters may be used to optimize and/or maximize signal intensity during an MRA imaging procedure. The injection system may include a target in-bloodstream contrast agent concentration determination module that determines a target in-bloodstream contrast agent concentration at least partially based on contrast agent type and MRA imager parameters. The injection system may include a contrast agent injection rate determination module that determines a contrast agent injection rate at least partially based on the target in-bloodstream contrast agent concentration, an initial contrast agent concentration, and a cardiac output rate of a patient to be imaged. The injection system may include a diluent injection rate determination module that determines a diluent injection rate at least partially based on the contrast agent injection rate.