A tissue processing station includes a housing and a first heated plate that is either disposed on or forms a first horizontally oriented surface of the housing. The first heated plate is configured to either (i) contain water, or (ii) receive a dish containing water. The tissue processing station may also include a vertically-oriented heated well for heating slides. A second heated plate is either disposed on or forms an angled surface of the housing for supporting one or more laboratory slides. The angled surface is angled relative to the first horizontally oriented surface. A third heated plate is either disposed on or forms a second horizontally oriented surface of the housing for supporting one or more laboratory slides. The first and second horizontally oriented surfaces are defined at different elevations on the housing. The angled surface extends between the two horizontally oriented surfaces.

A tissue processing station includes a housing and a first heated plate that is either disposed on or forms a first horizontally oriented surface of the housing. The first heated plate is configured to either (i) contain water, or (ii) receive a dish containing water. The tissue processing station may also include a vertically-oriented heated well for heating slides. A second heated plate is either disposed on or forms an angled surface of the housing for supporting one or more laboratory slides. The angled surface is angled relative to the first horizontally oriented surface. A third heated plate is either disposed on or forms a second horizontally oriented surface of the housing for supporting one or more laboratory slides. The first and second horizontally oriented surfaces are defined at different elevations on the housing. The angled surface extends between the two horizontally oriented surfaces.

Paraffin-embedded tissue is prepared removing paraffin from the tissue. The paraffin is removed by generating an electric field effective to produce plasma and direct charged species of the plasma to the paraffin, thereby rendering the paraffin responsive to the electric field. The electric field may move the paraffin out from the tissue due to electrostatic force. Movement of the paraffin may be assisted by moving an electrode utilized to generate the electric field relative to the paraffin. Movement of the paraffin also may be assisted by applying a solvent and/or heat energy to the tissue.

A reference sample for calibrating and/or adjusting a microscope and to uses of the reference sample. The latter has at least one carrier structure made of a carrier material which, at least in regions of its extent, is excitable to emit luminescence light, and at least one two-dimensional and/or three-dimensional structure consisting of a number of substructures. The carrier material is diamond or silicon carbide and is doped in or around the regions of the two-dimensional and/or three-dimensional structure in order to be excitable to emit the luminescence light.

A flow chamber for live-cell microscopic observation. The flow chamber includes a top portion having at least two perfusion tubes and a central aperture throughout. A pressure distribution/perfusion ring is adjacent to the top portion. An upper gasket engages and seals the pressure distribution/perfusion ring and the microaqueduct slide. The microaqueduct slide is placed between the upper gasket and the lower gasket. A cover slip is arranged intermediate the lower gasket, and a base. A flow chamber is formed between the cover slip, the microaqueduct slide, and the lower gasket. The flow chamber is in fluid communication with the at least two perfusion tubes in the top portion. The microaqueduct slide has perfusion grooves and micro-channels are formed through the microaqueduct slide and through the upper and lower gaskets. The base has a raised rim portion to receive the pressure distribution/perfusion ring in a non-rotational fit.

A method for the microscopy scanning of a specimen. An immersion medium is used between a slide and a microscope objective, said immersion medium wetting a surface of the slide, and the microscope objective being relatively displaced over the surface of the slide for imaging. The surface is provided with a coating which repels the immersion medium.

A method for the microscopy scanning of a specimen. An immersion medium is used between a slide and a microscope objective, said immersion medium wetting a surface of the slide, and the microscope objective being relatively displaced over the surface of the slide for imaging. The surface is provided with a coating which repels the immersion medium.

A portable ring-type fluorescence optical system for observing microfluidic channel and an operating method thereof are disclosed. The portable ring-type fluorescence optical system includes a photographic chip, a first polarizer, an objective lens, a ring-type fluorescent light source, a biological sample on a microfluidic chip, a second polarizer and a bottom illumination light source arranged in order from top to bottom. The ring-type fluorescent light source is used to generate a ring-type fluorescent light to the biological sample on the microfluidic chip. The objective lens is used to magnify a fluorescent image of the biological sample on the microfluidic chip to focus on the photographic chip. The first polarizer disposed under the photographic chip and the second polarizer disposed under the biological sample form a non-zero angle to each other to block reflected lights that the biological sample reflects the lights emitted by the bottom illumination light source.

A tissue processing station includes a housing and a first heated plate that is either disposed on or forms a first horizontally oriented surface of the housing. The first heated plate is configured to either (i) contain water, or (ii) receive a dish containing water. The tissue processing station may also include a vertically-oriented heated well for heating slides. A second heated plate is either disposed on or forms an angled surface of the housing for supporting one or more laboratory slides. The angled surface is angled relative to the first horizontally oriented surface. A third heated plate is either disposed on or forms a second horizontally oriented surface of the housing for supporting one or more laboratory slides. The first and second horizontally oriented surfaces are defined at different elevations on the housing. The angled surface extends between the two horizontally oriented surfaces.

A tissue processing station includes a housing and a first heated plate that is either disposed on or forms a first horizontally oriented surface of the housing. The first heated plate is configured to either (i) contain water, or (ii) receive a dish containing water. The tissue processing station may also include a vertically-oriented heated well for heating slides. A second heated plate is either disposed on or forms an angled surface of the housing for supporting one or more laboratory slides. The angled surface is angled relative to the first horizontally oriented surface. A third heated plate is either disposed on or forms a second horizontally oriented surface of the housing for supporting one or more laboratory slides. The first and second horizontally oriented surfaces are defined at different elevations on the housing. The angled surface extends between the two horizontally oriented surfaces.