Abstract:
An apparatus and method for imaging biochip spots in which a linearly spaced array of micro-lenses has a set of optical fibers which are associated with each micro-lens to receive and transmit the image magnified by the micro-lens. The micro-lenses are spaced to that of the biochip spots so that the microlens array can be positioned over a selected group of biochip spots, one for each micro-lens. The microlens array can be translated to be over selected groups of biochip spots. A detector and user devise such as a computer and a screen are used to record and view the collected images.
Abstract:
Apparatus for analyzing biological samples includes a unique surface which promotes adhesion, growth and optical analysis of samples. The unique surface is formed at the bottom of each well of a microplate and provides increased surface area with a distribution of features operative also to shape and redirect light used to sense test results. The unique surface may be used in forms such as a monolith, a microplate, a chamber, a flask and others.
Abstract:
An apparatus for in-depth three dimensional tumor mapping including (A) a light source; (B) a multi-fiber bundle including at least one illumination fiber and at least two receiving fibers, the at least one illumination fiber being connected to the light source; (C) a spectrometer connected to the at least two receiving fibers; and (D) a hybrid neural network connected to the spectrometer, said hybrid neural network including a principle component analysis processor and a neural network classifier.