A centrifuge to which sample tubes can be introduced while the centrifuge is in motion. The centrifuge comprises a carousel having an upper portion and a lower portion. The upper portion of the carousel has a plurality of positions for sample tubes for a centrifugation operation, a plurality of drive mechanisms attached to the upper portion of the carousel, a movable element mounted upon each drive mechanism, the movable element capable of traversing the length of the drive mechanism when the drive mechanism is actuated, a sample tube-holding assembly comprising a sample tube holder and a bearing attached to each movable element, and at least one balancing element capable of contributing to a force vector that cancels an imbalance vector generated by rotation of the centrifuge.

According to one embodiment, an automatic container processing apparatus includes a tube socket, an operation part, and a control device. The tube socket has a container holding part for holding a container. The operation part is capable of operating the container holding part of the tube socket. The control device controls the operation part. The container held by the container holding part is dropped by operating the operation part.

The present invention provides an apparatus and a method for a lysis procedure, in particular for an automated and/or controlled lysis procedure of a sample, in particular a biological sample. The apparatus comprises at least one rotation disc (31), at least one vial holder (90) which is configured to receive a vial (100), wherein the vial holder (90) is arranged on the disc (31), at least one driving device (20) which is configured to rotate the disc (31) and the vial holder (90), at least one heating device (60) which is configured to heat the sample to a determined incubation temperature, andat least one control device (70) which is configured to control the driving device (20) and/or the heating device (60) by means of a timing and/or step control, and/orat least one transmitting device (80) for inductive coupling for energy and signal transmission, which is configured to transmit the energy for heating to the heating device (60), and/orwherein the driving device (20) is configured to rotate the disc (31) in a first direction (A1) and/or with a first speed, and to rotate the vial holder (90) in a second direction (A3) and/or with a second speed. The apparatus and the method are adapted for an (automated) lysis procedure, wherein the lysis can be carried out in a safe, efficient and effective manner.

A biological material measuring instrument is described. The biological material measuring instrument includes a rotating body and a main body. The rotating body includes one or more cartridge holders having cuvettes in which a reagent and an analyte in a sample react. The main body includes a pair of light-emitting parts and light-receiving parts to optically measure the analyte in the sample. The rotating body further includes a light-emitting optical waveguide for guiding the light of the light-emitting parts to the cuvette, and a light-receiving optical waveguide for guiding.

The present disclosure relates to blood sample preparation devices and methods. In some embodiments, a method for preparing a blood sample comprises: receiving at a sample preparation machine a sample container containing the blood sample; scanning an identifier of the sample container, the identifier containing information indicative of a characteristic of at least one of the sample container or the blood sample contained therein, actuating, after the scanning, and based on the information, the sample container to repeatedly change a position of the sample container; determining, based on the information, whether the sample container should be centrifuged; and transporting the sample container to a centrifuge to be centrifuged and then to a storage compartment when the determining indicates that the sample container should be centrifuged, and to the storage compartment without entering the centrifuge when the determining indicates that the sample container should not be centrifuged.

A biological material measuring instrument is described. The biological material measuring instrument includes a rotating body and a main body. The rotating body includes one or more cartridge holders having cuvettes in which a reagent and an analyte in a sample react. The main body includes a pair of light-emitting parts and light-receiving parts to optically measure the analyte in the sample. The rotating body further includes a light-emitting optical waveguide for guiding the light of the light-emitting parts to the cuvette and a light-receiving optical waveguide for guiding.

According to one embodiment, an automatic container processing apparatus includes a tube socket, an operation part, and a control device. The tube socket has a container holding part for holding a container. The operation part is capable of operating the container holding part of the tube socket. The control device controls the operation part. The container held by the container holding part is dropped by operating the operation part.

A pretreatment apparatus (100) for performing pretreatment of a sample is provided with a holder (610) for holding a container (10) containing a sample, a centrifugal separation device (600) for rotating the container (10) held by the holder (610) to perform a centrifugal separation, a temperature adjustment device (420) for adjusting the temperature of the sample in the container (10) in the holder (610), an input device (320) for receiving from a user a designated temperature that is adjusted by the temperature adjustment device (420), a controller (300) for controlling the temperature adjustment device (420) in accordance with the designated temperature received via the input device (320).

The present invention provides an apparatus and a method for a lysis procedure, in particular for an automated and/or controlled lysis procedure of a sample, in particular a biological sample. The apparatus comprises at least one rotation disc (31), at least one vial holder (90) which is configured to receive a vial (100), wherein the vial holder (90) is arranged on the disc (31), at least one driving device (20) which is configured to rotate the disc (31) and the vial holder (90), at least one heating device (60) which is configured to heat the sample to a determined incubation temperature, andat least one control device (70) which is configured to control the driving device (20) and/or the heating device (60) by means of a timing and/or step control, and/orat least one transmitting device (80) for inductive coupling for energy and signal transmission, which is configured to transmit the energy for heating to the heating device (60), and/orwherein the driving device (20) is configured to rotate the disc (31) in a first direction (A1) and/or with a first speed, and to rotate the vial holder (90) in a second direction (A3) and/or with a second speed. The apparatus and the method are adapted for an (automated) lysis procedure, wherein the lysis can be carried out in a safe, efficient and effective manner.

A biological material measuring instrument is described. The biological material measuring instrument includes a rotating body and a main body. The rotating body includes one or more cartridge holders having cuvettes in which a reagent and an analyte in a sample react. The main body includes a pair of light-emitting parts and light-receiving parts to optically measure the analyte in the sample. The rotating body further includes a light-emitting optical waveguide for guiding the light of the light-emitting parts to the cuvette, and a light-receiving optical waveguide for guiding.