Abstract: Automation of analysis of cells contained in different types of specimens collected from different organs or sites is enabled. This sample preparation method is a method for preparing a sample for analyzing cells contained in a specimen, and includes: obtaining a dispersion condition corresponding to the type of the specimen; and dispersing the cells aggregated and contained in the specimen, according to the obtained dispersion condition.

Abstract: Provided is a biological sample imaging device and a biological sample imaging method that are capable of disposing a sufficient number of large-sized particles in a biological sample so as to be moderately dispersed within an imaging range. The biological sample imaging method includes: a first step of introducing a biological sample containing particles into a liquid flow channel; a second step of causing the biological sample introduced into the liquid flow channel to flow in a forward direction; a third step of causing the biological sample to flow in a reverse direction after the second step; and an imaging step of taking, in an imaging cell, images of the particles contained in the biological sample that remains in the liquid flow channel after the third step.

Abstract: A pretreatment method and an in-vivo component measuring device in which problems caused by bubbles is suppressed is provided. The pretreatment method uses an electrode sensor 21 for measuring a measurement target component contained in a measurement sample collected from a subject, and a liquid used for pretreatment of measurement, the pretreatment includes step (A) for forming a droplet 8 of liquid, step (B) for pressing the droplet 8 of liquid onto the surface of the electrode type sensor 21 by relative movement of the droplet 8 of liquid and the electrode type sensor 21, and step (C) for removing the droplet 8 pressed against the surface of the expression sensor 21.

Abstract: Provided is a biological sample imaging device and a biological sample imaging method that are capable of disposing a sufficient number of large-sized particles in a biological sample so as to be moderately dispersed within an imaging range. The biological sample imaging method includes: a first step of introducing a biological sample containing particles into a liquid flow channel; a second step of causing the biological sample introduced into the liquid flow channel to flow in a forward direction; a third step of causing the biological sample to flow in a reverse direction after the second step; and an imaging step of taking, in an imaging cell, images of the particles contained in the biological sample that remains in the liquid flow channel after the third step.

Abstract: A sample preparation device includes: a filter member including a filter configured to separate cells being an analysis target from other components in a sample; a first receptacle and a second receptacle configured to be connected to each other via the filter; a third receptacle capable of holding the sample therein; a negative pressure section configured to apply a negative pressure into the second receptacle, thereby to move the sample in the third receptacle toward the filter via the first receptacle, and thereby to move components other than the analysis target into the second receptacle via the filter; and a positive pressure section configured to apply a positive pressure from the second receptacle side to the filter to which cells being the analysis target are attached.

Abstract: A sample preparation device includes: a filter member including a filter configured to separate cells being an analysis target from other components in a sample; a first receptacle and a second receptacle configured to be connected to each other via the filter; a third receptacle capable of holding the sample therein; a negative pressure section configured to apply a negative pressure into the second receptacle, thereby to move the sample in the third receptacle toward the filter via the first receptacle, and thereby to move components other than the analysis target into the second receptacle via the filter; and a positive pressure section configured to apply a positive pressure from the second receptacle side to the filter to which cells being the analysis target are attached.

Abstract: A sample preparation apparatus is provided. The apparatus comprises a first receiving part, a second receiving part, a filter part, a third receiving part, a flow path, a first moving means and a second moving means. The first receiving part is configured to accept a pipette and to receive a sample discharged from a pipette. The second receiving part is disposed at a position removed from the first receiving part in the plane of view. The filter part is configured to retain the cells to be analyzed within the second receiving part. The third receiving part is disposed opposite the second receiving part through the filter part The flow path is configured to connect the first receiving part and the second receiving part The first moving means is for moving a sample that has been received at the first receiving part to the filter part through the flow path and the second receiving part, and moving the components other than the cells to be analyzed to the third receiving part through the filter part.

Abstract: The present invention is to present a cuvette that is able to prevent a liquid splash and dispersion within the cuvette. The cuvette comprises: a body which is essentially cylindrical and has an opening at an upper end; and a bottom part which has a concave inner surface and is connected to a lower end of the body, wherein the inner surface of the bottom part comprises a tapered part whose inner diameter linearly decreases toward a bottom of the cuvette.