A device for viewing a target, the device including a housing, an objective lens positioned within the housing, where the objective lens has a first lens group including at least a first lens and a second lens group including at least a second lens, the first lens positioned closer to the target than the second lens, and a camera positioned within the objective lens between the first lens and the second lens, where the camera is configured to provide images of the target located near a focal point of the objective lens, and wherein the arrangement of the first lens, the second lens, and the camera provides for simultaneous capture of a first image of a surface of the target and a second image of a sub-surface cellular structure of the target.

Systems and methods for Broad Line Fundus Imaging (BLFI), an imaging approach that is a hybrid between confocal and widefield imaging systems, are presented. These systems and methods are focused on improving the quality and signal of broad line fundus images or imaging methods to create high contrast and high resolution fundus images. Embodiments related to improved pupil splitting, artifact removal, reflex minimization, adaptable field of view, instrument alignment and illumination details are considered.

A combined reflectance confocal and two-photon microscopy system for non-invasive high-speed/high-contrast examination of living tissue and a method for non-invasive high-speed/high-contrast examination of living tissue using the same, wherein the combined reflectance confocal and two-photon microscopy system enables high speed imaging while providing extracellular matrix/cell contrast together with information of existing reflectance confocal microscopy.

A base assembly includes an imaging sensor having a sensor surface to receive a sample, and a platform connected to the base assembly. The base assembly includes (a) an aperture configured to receive a lid surface of a lid in a position to define an imaging space between the sensor surface and the lid surface and (b) a movement portion movable toward and away from the base assembly. The platform and the base assembly are configured to limit contact between the sample and the base assembly other than at the sensor surface.

A sensor head is provided and achieves improved measurement accuracy while reducing measurement time. The sensor head includes: a case including a first case section having a lens therein, a second case section having an objective lens therein, and a third case section providing connection between the first case section and the second case section. Inside the third case section, a mirror member for folding light incident thereon from the lens toward the objective lens is disposed, and a hollow tube providing communication between through holes respectively formed in the mirror member and the objective lens is provided.

Systems and methods for Broad Line Fundus Imaging (BLFI), an imaging approach that is a hybrid between confocal and widefield imaging systems, are presented. These systems and methods are focused on improving the quality and signal of broad line fundus images or imaging methods to create high contrast and high resolution fundus images. Embodiments related to improved pupil splitting, artifact removal, reflex minimization, adaptable field of view, instrument alignment and illumination details are considered.

High-resolution 3D optical polarization tractography (OPT) images of the internal fiber structure of a target tissue. Manipulation of dual-angle imaging data of the fiber orientation inside a target tissue leads to the determination of 3D imaging properties of the target tissue, allowing transmission of the 3D image properties of the target tissue to an OPT processor to produce high-resolution 3D images.

Handheld devices and methods that integrate wide-field dermoscopy with reflectance confocal microscopy for non-invasive simultaneous capture of wide-field color images of the skin surface and images of the sub-surface cellular structure.

Aspects of the present disclosure relate to systems, devices and methods for performing a surgical step or surgical procedure with visual guidance using a head mounted display. A computer processor can be configured to adjust or select the focal plane and/or focal point of the display of the virtual data by the head mounted display using a measured or determined distance of the head mounted display to an anatomic structure or a physical surgical tool, instrument, implant and/or device.

Described herein are improved systems and methods for cellular ionic activity visualization. Specifically, for example, the systems and methods can observe and characterize biological ionic channel activity and subsequently detect, measure or manipulate a biological sample in the field of biological or medical sciences on the cellular level. Such a capability can be implemented across any type of biological cell which possesses ionic channels on the surface or contained within.