Disclosed is an approach to differentiating between different particle types in samples flowing through microfluidics chips. A sample may have an initial proportion of a first cell type to a second cell type. An illuminating light source may emit a coherent light at the sample, and light leaving the chip in a first direction may be detected using a first light detector, and light leaving the chip in a second direction (e.g., orthogonal to the first direction) may be detected using a second light detector. The detected light may be fluorescence. An orientational feature of a plurality of cells in the sample may be determined based on the light detected by the detectors. Based on the orientational features and the detected light, a biasing operation may be performed for each cell in the sample to obtain a modified proportion of cell types in the sample.

The present invention provides a device and system for monitoring the accuracy of procedures in the course of the performance of a task, the task comprising at least one procedure to be performed, the device comprising: an input interface for receiving input data relating to the procedures; a data store for storing data relating to the procedures; a processor for: comparing the input data with the stored data; and generating a comparison result indicating the result of that comparison; and an output interface for outputting the comparison result.

Methods and compositions directed to altering a population of sRNAs in a sperm using vesicles isolated from an epididymosome are provided. Methods and compositions directed to altering a population of sRNAs in an oocyte using vesicles isolated from an epididymosome are also provided. Methods for altering an sRNA population in a sperm or an oocyte can be used to prevent, or reduce the severity of, a disease, disorder, or condition that would otherwise be inherited by progeny. For example, certain epigenetic inherited conditions due to paternal effects, such as certain metabolic and stress disorders and conditions, can be ameliorated in progeny using sperm or oocytes having an altered sRNA population.

Methods and compositions directed to altering a population of sRNAs in a sperm using vesicles isolated from an epididymosome are provided. Methods and compositions directed to altering a population of sRNAs in an oocyte using vesicles isolated from an epididymosome are also provided. Methods for altering an sRNA population in a sperm or an oocyte can be used to prevent, or reduce the severity of, a disease, disorder, or condition that would otherwise be inherited by progeny. For example, certain epigenetic inherited conditions due to paternal effects, such as certain metabolic and stress disorders and conditions, can be ameliorated in progeny using sperm or oocytes having an altered sRNA population.

Methods for improving the functionality and/or fertility of sperm, for example, by enhancing motility and/or extending the lifespan of sperm by subjecting the isolated sperm to a starvation protocol and/or ionophore are provided. Such methods may be used in, for example, artificial insemination to reduce the number of sperm needed for insemination and to improve conception rates.

Methods for improving the functionality and/or fertility of sperm, for example, by enhancing motility and/or extending the lifespan of sperm by subjecting the isolated sperm to a starvation protocol and/or ionophore are provided. Such methods may be used in, for example, artificial insemination to reduce the number of sperm needed for insemination and to improve conception rates.

A process to bulk sex-select sperm which can involve such steps as: obtaining a subject sperm sample such as a collection of cells (1); inducing a sex-based differential alteration process for sperm in the sperm sample; presenting associationally active elements near the sperm within at least some of the sperm sample perhaps such as a fluid combination (4); causing such elements to differentially associate with at least portions of the elements based upon a sperm sex-based differential alteration state; acting on the elements together with their associated sperm through a separation modality (5) to bulk separate the sperm according to their differential sex-based properties. One type of associationally active element is potentially magnetic particles or differentially associatable particles (3) which may even be magnetic particles with inherent zeta potential charges that may associationally act and perhaps bind to an opposite zeta potential or other charges that the sperm may differentially acquire or achieve. This may present a method for magnetic separation of X-bearing and Y-bearing sperm perhaps such as having different charged membranes and perhaps such as after sialic acid activation.

The invention provides serialized artificial insemination straws, as well as systems and methods for authentication of the serialized artificial insemination straws.

The present invention relates to an auxiliary device for cryopreservation that is capable of stably holding a device for cryopreservation, facilitates coverage of a cell or tissue deposited on a strip with a cap without allowing the cap to come into contact with the cell or tissue, and enables quick immersion of the device for cryopreservation in liquid nitrogen. The present invention relates specifically to an auxiliary device for cryopreservation, including: a substrate; a cap holder; an observation section having an aperture structure; and a device body holder, the cap holder, the observation section having an aperture structure, and the device body holder being arranged in the substrate in a substantially straight line.

An apparatus for micromanipulation of biological material, includes a vessel (1) having a reservoir (2) wherein the vessel has a channel (3) formed in a portion of the reservoir, the channel including an intermediate restriction (4) dimensioned to resist passage of the biological material but allow passage of liquid treatment solutions.