Abstract: Provided are devices, systems, and methods configured to uniformly illuminate a biological sample with a patterned illumination source and determine a contour of the biological sample.

Abstract: A device for measuring and classifying ocular misalignment of a patient's eyes includes an enclosure, two lenses at the front of the enclosure, one corresponding to each eye of a patient, a divider within the enclosure, positioned laterally between the lenses, a screen within the enclosure, an integrated microprocessor connected to the screen, and at least one input control connected to the integrated microprocessor, at least one input control operable by the patient; where the integrated microprocessor generates and transmits two images to the screen, each image corresponding to each lens; where the integrated microprocessor receives input from the patient via at least one input control to manipulate at least one image on the screen; and where the integrated microprocessor calculates and outputs a quantification of ocular misalignment based on that input.

Abstract: A device for measuring and classifying ocular misalignment of a patient's eyes includes an enclosure, two lenses at the front of the enclosure, one corresponding to each eye of a patient, a divider within the enclosure, positioned laterally between the lenses, a screen within the enclosure, an integrated microprocessor connected to the screen, and at least one input control connected to the integrated microprocessor, at least one input control operable by the patient; where the integrated microprocessor generates and transmits two images to the screen, each image corresponding to each lens; where the integrated microprocessor receives input from the patient via at least one input control to manipulate at least one image on the screen; and where the integrated microprocessor calculates and outputs a quantification of ocular misalignment based on that input.