It is an object to provide a cover slip sticking device capable of improving matching between types of clearing agents and cover slips. As a means for solving the problem, a cover slip sticking device includes a dipping bath (21) in which slide glasses (22) on which specimens are attached are housed to be dipped in a clearing agent, a holder (11) having a cover slip (10) and cover slip information (14), a mounting part (C) on which the holder is mounted, a sticking part (B) sticking the cover slip (10) taken out from the holder (11) on the slide glass (22), a reading unit (62) reading the cover slip information (14), a storage unit (65) storing a type of the clearing agent and matching information between types of clearing agents and types of cover slips and a determination unit (66) comparing the cover slip information (14) read by the reading unit (62) and the type of the clearing agent stored in the storage unit (65) with the matching information to determine whether the types match with each other or not.

The invention provides a method for selecting a color for a chemistry or instrument based upon a parameter of a test, the method including: identifying a color corresponding to a parameter of a test for the parameter; selecting, if the color corresponding to the parameter has not previously been used for another parameter, the color for designating a chemistry or an instrument as corresponding to the parameter; selecting, if the color corresponding to the parameter has previously been used for another parameter, a different color other than the color for designating a chemistry or an instrument as corresponding to the parameter, wherein the selecting a color other than the color comprises identifying a color having a measure of change in visual perception of the different color against other previously selected colors a predetermined value from the other previously selected colors; and utilizing the selected colors for parameters across both chemistries (102, 104, 105) and instruments (101, 103) that are utilized in tests for the parameters.

The invention relates to a device for analyzing solid biological elements and to a device for implementing same. The device comprises a plate (1) of tubes, the lower ends (2) of which are perforated and the upper ends (4) of which are open on the tube plate (1) to allow the introduction of an element to be analyzed (5), a deep-well plate (6) into which the tube plate (1) is inserted and a lifter (7) for raising the tube plate (1) from the deep-well plate (6). Each tube (3) in the tube plate (1) comprises at least one opening (9) toward its upper end (4) to allow air to pass through and each tube (3) can be closed at its upper end (4) with a stopper (8). The invention is applicable particularly in the medical, agri-food and forensic science fields.

The present invention relates to a method for protecting and. recovering nucleic acids. This method may be applied in a verification method of products using molecular code systems or it may be applied in a storage method for nucleic acids. The invention further provides specific particles, their use in secure marking; products suitable for such verification method, to processes for manufacturing such products and methods for reading the information.

A specimen collection device and a method of using the specimen collection device are disclosed herein. In some aspects, the specimen collection device allows for the individual collection of specimens via a removable specimen tray that can easily be swapped during a procedure. The specimen collection device includes a flexible sealing element for the continual use of suction during the procedure even when the specimen tray is not inserted.

A system for fluorescence activated cell sorting includes at least two excitation lasers and an objective that directs light from the at least two excitation lasers to a common point in an interrogation region of a fluidic channel. The fluidic channel directs a flow of a plurality of fluorescently labeled particles through the interrogation region. At least one modulator temporally multiplexes light from the at least two excitation lasers such that pulses of light from different lasers intersect the common point at different times. The system further includes at least one detector and at least one optical element that directs light emitted from the particles and transmitted through the objective to the at least one detector. The system may further include optics for generating and detecting side and forward scattered light. Methods for operating example systems to collect fluorescent, side scattered and forward scattered light are also described herein.

A test device is configured for diagnostic testing and includes an optical readable medium, in turn including a pattern of spots of material arranged on a surface of the device. Several patterns may be provided. The patterns accordingly formed may be human and/or machine readable. They may notably encode security information, e.g., indicating whether the device has already been used. The spots may notably be inkjet spotted. In addition, a method is provided for decoding information encoded in a pattern of such a test device. In embodiments, liquid is introduced in the device, which comprises additional spots having a substantially different solubility than spots forming the actual pattern. Thus, the additional spots get solubilized in and flushed by the liquid as the latter wets them, and an initially hidden pattern may be read, which is formed of the remaining spots (not solubilized). Encoding methods are also provided.

The present invention relates to a method for selecting and recovering products, including providing an emulsion (6) comprising a plurality of drops (4) contained in a carrier fluid (10), each drop comprising an internal fluid (8), measuring at least one physical parameter for several drops (4) of the emulsion (6), classifying at least some of the drops (4) of the emulsion in a class based on measurements obtained during measuring, tagging at least some of the classified drops (4) based on the class of the drop (4), and selectively recovering the drop (4) or part of the drop (4) using the tag of the drop or part of the drop (4).

An apparatus for distributing medicines, vitamins and/or samples, including an organizer and dispensing units for medicines, vitamins and/or samples. The organizer includes seats in which to place the dispensing units. The apparatus includes an identification device connected to a data processing device and containing dispensing data on medicines, vitamins and/or samples, including detecting members controlled to a detecting state by detecting signals generated on the basis of dispensing data in the data processing device. The identification device is configured to be brought in connection with the organizer so that at least some of the detecting members are aligned with at least some of the seats of the organizer, wherein at least those dispensing units, which are aligned with at least one detecting member, can be identified by means of detecting signals generated on the basis of dispensing data in the data processing device.

A printing module configured to print a label on a curved surface of an article includes an expandable printing mechanism configured to be expanded to an open configuration for receiving the article or contracted to a closed configuration placing the curved surface in an operative position with respect to a print head and an article moving assembly configured to grasp and hold the article and effect relative movement between the curved surface and the print head. The printing mechanism includes contact elements, such as rollers, that contact or otherwise engage the article when the printing mechanism is in the closed configuration and maintain the curved surface in the operative position with respect to the print head during relative movement between the curved surface and the print head.