A system and method for sorting sperm is provided. The system includes a housing and a microfluidic system supported by the housing. The system also includes an inlet providing access to the microfluidic system to deliver sperm to the microfluidic system and an outlet providing access to the microfluidic system to harvest sorted sperm from the microfluidic system. The microfluidic system provides a flow path for sperm from the inlet to the outlet and includes at least one channel extending from the inlet to the outlet to allow sperm delivered to the microfluidic system through the inlet to progress along the flow path toward the outlet. The microfluidic system also includes a filter including a first plurality of micropores arranged in the flow path between the inlet and the outlet to cause sperm traveling along the flow path to move against through the filter and gravity to reach the outlet.

The disclosure provides, inter alia, methods of improving sperm function and related methods of fertilization, together with preparations of activated or potentiated sperm. The methods provided by the disclosure, in some embodiments entail energy depletion with subsequent staged reintroduction of different energy sources. The disclosure additionally provides articles of manufacture suitable for performing the methods provided by the invention. The invention provides kits for separating sperm and for processing and preparing sperm for, in some embodiments, IVF or IUI. Also provided are nutrient free reagents useful preparing sperm.

The disclosure provides, inter alia, methods of improving sperm function and related methods of fertilization, together with preparations of activated or potentiated sperm. The methods provided by the disclosure, in some embodiments entail energy depletion with subsequent staged reintroduction of different energy sources. The disclosure additionally provides articles of manufacture suitable for performing the methods provided by the invention. The invention provides kits for separating sperm and for processing and preparing sperm for, in some embodiments, IVF or IUI. Also provided are nutrient free reagents useful preparing sperm.

The disclosure provides, inter alia, methods of improving sperm function and related methods of fertilization, together with preparations of activated or potentiated sperm. The methods provided by the disclosure, in some embodiments entail energy depletion with subsequent staged reintroduction of different energy sources. The disclosure additionally provides articles of manufacture suitable for performing the methods provided by the invention. The invention provides kits for separating sperm and for processing and preparing sperm for, in some embodiments, IVF or IUI. Also provided are nutrient free reagents useful preparing sperm.

A system and method for sorting sperm is provided. The system includes a housing and a microfluidic system supported by the housing. The system also includes an inlet providing access to the microfluidic system to deliver sperm to the microfluidic system and an outlet providing access to the microfluidic system to harvest sorted sperm from the microfluidic system. The microfluidic system provides a flow path for sperm from the inlet to the outlet and includes at least one channel extending from the inlet to the outlet to allow sperm delivered to the microfluidic system through the inlet to progress along the flow path toward the outlet. The microfluidic system also includes a filter including a first plurality of micropores arranged in the flow path between the inlet and the outlet to cause sperm traveling along the flow path to move against through the filter and gravity to reach the outlet.

A device for in vitro culture of embryos includes: an array having at least one well formed therein; and a bottom surface formed in the well and made of polydimethylsiloxane (PDMS). The use of the culture vessel having the well bottom surface made of PDMS has the effect of further increasing the blastocyst formation rate of embryos compared to the use of conventional arrays made of plastic.

This disclosure relates to an apparatus and method for sorting motile sperms from crude semen. the enrichment of a population of spermatozoa with capacitated spermatozoa can be achieved by providing a 1-to-4-degree vertical temperature difference in combination with the swim-up method.

The present disclosure provides an iterative process for identifying culture conditions that maintain identity, growth, and survival of testicular cells in vitro. Testicular cell culturing systems for supporting human spermatogenesis and culture using identified culture conditions are also provided. The methods and the culture conditions can be used to culture healthy and viable spermatozoa with lower rates of deleterious or de novo mutations or epigenetic perturbations from fertile and infertile men for future use with assisted reproductive technologies.

Described herein are polymorphisms, and in particular single nucleotide polymorphisms (SNP) associated with late onset of sexual maturation in rainbow trout (Oncorhynchus mykiss). In particular, provided are methods for predicting late onset of sexual maturation in rainbow trout, methods for selecting a rainbow trout having late onset of sexual maturation and kit suitable for carrying out said methods. Further provided are rainbow trout cells, sperm and unfertilized eggs carrying at least one allele conferring late onset of sexual maturation in their genome.

An improved cryopreservation process and substances can involve a cellular collection (1) in a cryopreservation fluid (4) that has been conditioned or treated (7) to enhance the cryopreservation process by adding (18) energy (19) such as in the surface energy of a substance in the cryopreservation fluid (4) prior to reducing energy for that same cryopreservation media for freezing. This can offer enhanced-post-cryogenic viability of the cryopreserved structures or a more optimum cooling curve (22) for a specific cell type.