Abstract: A method for dispensing a liquid sample by means of a dispensing apparatus in which it is determined whether a particle condition is satisfied, wherein the determination comprises checking whether at least one target particle present in a liquid of the liquid sample is contained in a monitoring region of the dispensing apparatus, wherein the monitoring region comprises a discharge region and a buffer region, wherein the buffer region is a region from which the at least one target particle is movable into the discharge region during a time delay between the determination of whether the particle condition is satisfied and an output operation of the dispensing apparatus. The method is characterised in that it is determined that the particle condition is satisfied when the at least one target particle is arranged in the buffer region and no target particle is arranged in the discharge region, and that the liquid sample is dispensed onto a target particle carrier if the particle condition is satisfied.

Abstract: The invention relates to a centrifuge for rotating a sample carrier, which has at least one container for receiving a liquid sample, with a rotatable rotor, which has at least one receiving section for receiving the sample carrier, and a rotor space in which the rotor is arranged. The centrifuge is characterized in that the centrifuge has at least one radiation source for emitting radiation into the rotor space with a wavelength of a maximum of 350 nm.

Abstract: The invention relates to a method for automatically examining a liquid sample, which has a liquid and at least one particle, by means of a first measurement signal which emanates from a liquid region and which serves to determine at least one particle with a first property, and by means of a second measurement signal which emanates from the liquid region and serves to determine at least one particle with a second property, the first measurement signal and the second measurement signal being evaluated independently of one another and whether a particle condition has been satisfied in the liquid region subsequently being determined on the basis of the evaluated first measurement signal and the evaluated second measurement signal.

Abstract: The invention relates to a method for detecting a particle in a container filled with liquid, the method having the following steps: dispensing a liquid sample into the container, scanning a partial volume area of the container in order to detect a particle located in the liquid sample, characterized in that an upper limit and a lower limit of the partial volume area is determined in a calibration operation upstream of the dispensing process.

Abstract: The invention relates to a method for dispensing a liquid sample by means of a dispensing apparatus in which it is determined whether a particle condition is satisfied, wherein the determination comprises checking whether at least one target particle present in a liquid of the liquid sample is contained in a monitoring region of the dispensing apparatus, wherein the monitoring region comprises a discharge region and a buffer region, wherein the buffer region is a region from which the at least one target particle is movable into the discharge region during a time delay between the determination of whether the particle condition is satisfied and an output operation of the dispensing apparatus.

Abstract: The invention relates to a method for examining a liquid sample that has a liquid and at least one cell located in the liquid and/or at least one particle located in the liquid, wherein at least one data element containing information about a sample region is determined with the method. The method is characterised in that the data element is supplied to a trained algorithm that generates a result dependent on the data element, and in that a dispensing process comprising the discharging of at least part of the liquid sample depends on the result.

Abstract: The invention relates to a method for producing at least one closed region on a carrier surface of a carrier, wherein the method comprises the following steps: a. adding a first fluid comprising at least one cell and/or at least one particle to the carrier surface and b. adding a second fluid, wherein the second fluid is immiscible with the first fluid and at least partially covers the first fluid and c. acquiring at least one item of cell information and/or of at least one item of particle information and d. producing the closed region on the basis of the at least one acquired item of cell information and/or the at least one acquired item of particle information.