Abstract: A method for investigating biological cells or cell cultures in a microplate reader receives at least one microplate with wells containing biological cells or cell cultures by a receiving device; positions the wells with respect to measuring devices of the microplate reader and detects integral measurement signals by at least one of the measuring devices. The biological cells or cell cultures in the specific wells of the microplate(s) are transilluminated by an illumination source of the microplate reader and imaged by an imaging camera. Each of the detected integral signals is compared with the image of the biological cells or cell cultures in the corresponding wells of the microplate(s) by a processor and is related to the imaged number, adherence, confluence or morphology of these biological cells or cell cultures.

Abstract: Setting method for microplate washing devices has a receptacle for receiving a microplate and a washing head having washing cannulas. The cannulas are in an array corresponding to a well array with lowermost ends define a work plane. This work plane is parallel to a reference plane. In a first phase, the receptacle and/or washing head are moved together until the lowermost ends of the cannulas touch a surface defining the reference plane. A sensor device has a controller linked thereto and from the sensor device is registered using the controller and a relative altitude value is determined therewith, which indicates touching of the surface by the lowermost ends of the cannulas or for determining the position of this surface. Based on this, an active altitude of the lowermost ends of the washing cannulas in relation to an inner surface of the well bottoms of a microplate is determined.

Abstract: Method for registering filling potential of a waste container of a microplate washing device has a needle for aspirating liquids, a waste container, a pump for generating a partial vacuum and a pressure sensor for determining air pressure in the container, a sensor controller, and a first valve for blocking the line between the needle and the waste container. The pump and needle are connected to the container and the method includes closing the first valve, generating a partial vacuum in a test range, closing a further valve between the container and the pump, opening the first valve, triggering a partial vacuum dissipation in the container, measuring a test time for the partial vacuum dissipation in the test range, comparing the test time to a known threshold time, and deciding that the waste container is fillable or not.

Abstract: A method for investigating biological cells or cell cultures in a microplate reader receives at least one microplate with wells containing biological cells or cell cultures by a receiving device; positions the wells with respect to measuring devices of the microplate reader and detects integral measurement signals by at least one of the measuring devices. The biological cells or cell cultures in the specific wells of the microplate(s) are transilluminated by an illumination source of the microplate reader and imaged by an imaging camera. Each of the detected integral signals is compared with the image of the biological cells or cell cultures in the corresponding wells of the microplate(s) by a processor and is related to the imaged number, adherence, confluence or morphology of these biological cells or cell cultures.

Abstract: Setting method for microplate washing devices has a receptacle for receiving a microplate and a washing head having washing cannulas. The cannulas are in an array corresponding to a well array with lowermost ends define a work plane. This work plane is parallel to a reference plane. In a first phase, the receptacle and/or washing head are moved together until the lowermost ends of the cannulas touch a surface defining the reference plane. A sensor device has a controller linked thereto and from the sensor device is registered using the controller and a relative altitude value is determined therewith, which indicates touching of the surface by the lowermost ends of the cannulas or for determining the position of this surface. Based on this, an active altitude of the lowermost ends of the washing cannulas in relation to an inner surface of the well bottoms of a microplate is determined.

Abstract: Method for registering filling potential of a waste container of a microplate washing device has a needle for aspirating liquids, a waste container, a pump for generating a partial vacuum and a pressure sensor for determining air pressure in the container, a sensor controller, and a first valve for blocking the line between the needle and the waste container. The pump and needle are connected to the container and the method includes closing the first valve, generating a partial vacuum in a test range, closing a further valve between the container and the pump, opening the first valve, triggering a partial vacuum dissipation in the container, measuring a test time for the partial vacuum dissipation in the test range, comparing the test time to a known threshold time, and deciding that the waste container is fillable or not.

Abstract: Relates to a measuring apparatus (4) and corresponding methods carried out in e.g. hybridization systems for determining fluid parameters provided by a laboratory system (1). The measuring apparatus (4) comprises a measuring unit (5) and a processing unit (6) for determining the fluid parameters provided by the laboratory system (1) and the measuring unit (5) is accomplished to be able to be integrated into this laboratory system (1). The measuring apparatus (4) according to the invention is characterised in that the measuring unit (5) comprises a measuring block (15) without a reaction room (34) and at least one sensor (17). The measuring block (15) comprises hollow spaces (16) for receiving or guiding fluids (13) provided by the laboratory system (1). The at least one sensor (17) is arranged, for determining physical and/or chemical parameters of fluids (13) located in the hollow spaces (16), on or in fluidic operative connection with these hollow spaces (16) of the measuring block (15).