Abstract: A method of sorting sperm cells and a method of producing at least one sexed embryo. The method of sorting sperm cells includes the steps of establishing a sheath fluid environment including a citrate for stained sperm cells, establishing a stream including stained sperm cells in said sheath fluid environment, sensing a property of the stained sperm cells, and discriminating between stained sperm cells for a desired sex characteristic. The method of producing at least one sexed embryo includes the steps for sorting sperm cells in addition to fertilizing at least one egg with the sexed sperm to form at least one sexed embryo.

Abstract: A method, optical apparatus and system for illuminating particles and for detecting emissions from illuminated particles in a flow cytometer. One configuration includes an objective lens coaxially aligned with the flow of particles being analyzed for collecting emissions at a detector.

Abstract: Compositions (3) and methods of using such compositions (3) to condition, clean, or disinfect the flow path of a conduit (8) of a microfluidic devices (16), such as flow cytometers or liquid chromatographs.

Abstract: Compositions (3) and methods of using such compositions (3) to condition, clean, or disinfect the flow path of a conduit (8) of a microfluidic devices (16), such as flow cytometers or liquid chromatographs.

Abstract: A sperm cell process system providing to generate sperm cell insemination samples having controlled sperm cell fertility characteristics of sperm cells.

Abstract: Isolated non-naturally occurring populations of spermatozoa (15) having high purity and technologies to differentiate spermatozoa (28) based on characteristics such as mass, volume, orientation, or emitted light including methods of analysis and apparatus such as beam shaping optics (30) and detectors (32).

Abstract: The present invention generally relates to a method and apparatus for exciting particles, and more specifically relates to analyzers or sorters for exciting fluorescently labeled particles with a multimode diode laser and the optics for making high resolution determinations from the multimode diode laser beam excitation.

Abstract: A method of continuously regulating fluid pressure of a first fluid in a fluid flow path by continuously adjusting at least one fluid flow characteristic of a second fluid flow which is engaged with the first fluid flow through a flexible barrier.

Abstract: A method of continuously regulating fluid pressure of a first fluid in a fluid flow path by continuously adjusting at least one fluid flow characteristic of a second fluid flow which is engaged with the first fluid flow through a flexible barrier.

Abstract: Devices, compositions, and methods for handling, separating, packaging, and utilization of spermatozoa (1) that can be derived from previously frozen sperm samples collected from a male mammal. Specifically, techniques to uniformily stain (2) spermatozoal DNA even when derived from previously frozen sperm and separation techniques to separate and isolate spermatozoa even when derived from previously frozen sperm samples into X-chromosome bearing and Y-chromosome bearing populations having high purity.

Abstract: Various optical apparatus, in particular embodiments, may provide a source of parallel light (7, 75). The parallel light (7, 75) may be generally achieved by directing an incident beam at the apex of a prism (1, 22, 24, 26, 28). The prism may have varying configurations. One configuration has a forward conical face (24). Another configuration has a pyramidal forward end (22). Other configurations are also disclosed. Various optical methods and methods for flow cytometry are also disclosed.

Abstract: Particular embodiments of the inventive technology relate to ‘off-axis detector’ technology that employs a third detector 23 exhibiting a flow orthogonal axis 43 as defined by its EMR collection angle, where such axis is from 30 degrees to 60 degrees from an intended, flow orthogonal, cell cross section long axis alignment line 13, in addition to employing a fourth detector 24 exhibiting a flow orthogonal axis 44 as defined by its collection angle, where such axis is orthogonal to the flow orthogonal, third detector axis 43. Particular embodiments of the inventive technology relate to ‘axially spaced illumination’ technology featuring more than one cell illumination site, where, other than the most upflow illumination site (e.g., 121), all illumination site(s) are downflow of at least one other illumination site. Particular embodiments of the inventive technology may feature aspects of both technologies.

Abstract: A fluid flow characteristic regulator (58) which provides a variable volume flow path in which a fluid flow can be continuously adjusted by a control fluid (57) to regulate at least one fluid flow characteristic of the fluid flow (11) within the variable volume flow path.

Abstract: A sperm cell process system providing to generate sperm cell insemination samples having controlled sperm cell fertility characteristics of sperm cells.

Abstract: Antimicrobial compositions and methods of using such antimicrobial compositions to provide a reduction in populations of viable microorganisms.

Abstract: An IVF system for successfully utilizing spermatozoa separated into X-chromosome bearing and into Y-chromosome bearing population for insemination. The IVF system includes fertilization medium that can shorten the time from insemination to cleavage and a portable incubator for the transportation of maturing oocytes and inseminated oocytes comprising a straw (19) and an incubation element (20) that can be sealed with a cap (22).

Abstract: Disclosed is a self-tuning flow cytometer that uses a mathematical model to perform sort decisions that is based upon the biological response of the particular types of cells that are being sorted. In one embodiment, statistical calculations of the likelihood of an event belonging to a certain population are used to make the sort decisions. Automated self-tuning processes are used to optimize the operating parameters of the flow cytometer to achieve a selected purity with higher yield at optimal sorting speeds. The fully automated processes minimize user input and allows the user to select a desired purity while maximizing yield.

Abstract: An optical apparatus for illuminating particles and for detecting emissions from illuminated particles in a flow cytometer having an optical configuration aligned with a flow or particles.

Abstract: A flow cytometry system (1) for sorting haploid cells, specifically irradiatable sperm cells, with an intermittingly punctuated radiation emitter (56). Embodiments include a beam manipulator (21) and even split radiation beams directed to multiple nozzles (5). Differentiation of sperm characteristics with increased resolution may efficiently allow differentiated sperm cells to be separated higher speeds and even into subpopulations having higher purity.

Abstract: A reduced dose inseminate and method for producing and using such reduced dose inseminate to fertilize the eggs of a female animal by artificial insemination with fewer sperm cells than compared with conventional dose inseminates.