Disclosed herein are an a medical imaging apparatus capable of easily detecting the location of specific tissue, for example, a lymph node, and a method of providing medical images. The medical image providing method includes: arranging and displaying n thumbnail images for n first photoacoustic images acquired by initially scanning an object, wherein n is a natural number; and enhancing a thumbnail image that is identical to a second photoacoustic image acquired by secondarily scanning the object, among the n thumbnail images.

A system for collecting a sample from a tissue includes a medical instrument having a sample collection region. One or more sensors is configured to detect one or more properties of a sample, and is configured to output at least one measured value representative of the one or more properties of the sample. An indicator is operatively connected to the one or more sensors and is configured to provide a notification to a user of the medical instrument based on the one or more properties of the sample detected by the at least one sensor. A method of guiding sample collection is also provided.

The present disclosure provides devices, systems and methods for hyperthermia cancer treatment by supplying ferromagnetic nanoparticles to a target area having or suspected of having cancer cells, the ferromagnetic nanoparticles are configured to attach to the cancer cells and heat by absorbing magnetic energy, and radiating the target area with microwaves such that the target area is within a nearfield range of the radiated microwave, and the microwave radiation nearfield is magnetically biased such that the ratio of magnetic energy to electric energy is greater than 1.

A device for observing a sentinel lymph node (SLN) in a human body. The present invention relates to a device for observing an SLN by detecting near-infrared (NIR) fluorescence caused by a fluorescent material such as indocyanine green (ICG) at the SLN and a method for detecting NIR fluorescence at an SLN. Particularly, in the implementation of a composite image obtained by reproducing a fluorescent material such as ICG and NIR fluorescence emitted by excitation light together with a visible light image, it is possible to detect an SLN with high accuracy through a color contrast method and/or a temporal modulation method using an NIR fluorescence image signal and a visible reflection light image signal.

A system and method for accounting for motion of a target in a medical procedure includes an endoscope (302) including a tracking mechanism (304) for tracking positions and orientations of the endoscope. Memory storage (310) is configured to record the positions of the endoscope when positioned at or near moving target tissue. A motion sensor (312) is configured to track cyclical motion of an organ such that the cyclical motion of the organ can be correlated to the recorded positions of the endoscope and the target tissue.

A device for observing a sentinel lymph node (SLN) in a human body. More particularly, the present invention relates to a device for observing an SLN by detecting near-infrared (NIR) fluorescence caused by a fluorescent material such as indocyanine green (ICG) at the SLN and a method for detecting NIR fluorescence at an SLN. Particularly, in the implementation of a composite image obtained by reproducing a fluorescent material such as ICG and NIR fluorescence emitted by excitation light together with a visible light image, it is possible to detect an SLN with high accuracy through a color contrast method and/or a temporal modulation method using an NIR fluorescence image signal and a visible reflection light image signal.

One aspect of the invention relates to a method for intraoperative detection of parathyroid gland viability in a surgery, comprising obtaining speckle contrast images of a parathyroid gland of a patent; and displaying the speckle contrast images of the parathyroid gland in real-time.

The present invention provides compositions and methods for imaging tumor resections.

A system and method for locating magnetic material. In one embodiment the system includes a magnetic probe; a power module in electrical communication with the magnetic probe to supply current to the magnetic probe; a sense module in electrical communication with the magnetic probe to receive signals from the magnetic probe; and a computer in electrical communication with the power module and the sense module. The computer generates a waveform that controls the supply of current from the power module and receives a signal from the sense module that indicates the presence of magnetic material. The magnetic probe is constructed from a material having a coefficient of thermal expansion of substantially 10.sup.6/ C. or less and a Young's modulus of substantially 50 GPa or greater. In one embodiment magnetic nanoparticles are injected into a breast and the lymph nodes collecting the particles are detected with the probe and deemed sentinel nodes.

The present disclosure relates generally to medical imaging, and more specifically to techniques for identifying at least one lymph node of a subject using fluorescence images. An exemplary method comprises obtaining a fluorescence image of a field of view including the at least one lymph node of the subject; obtaining a template image; comparing the template image with the fluorescence image to obtain one or more similarity values; and identifying at least one portion of the fluorescence image that corresponds to a location of the at least one lymph node based on the one or more similarity values.