Sperm evaluation in cryopreserved bovine semen recovered by two selection methods

Microfluidics-A novel technique for high-quality sperm selection for greater ART outcomes

Microfluidics represent a quality sperm selection technique. Human couples fail to conceive and this is so in a significant population of animals worldwide. Defects in male counterpart lead to failure of conception so are outcomes of assisted reproduction affected by quality of sperm. Microfluidics, deals with minute volumes (μL) of liquids run in small-scale microchannel networks in the form of laminar flow streamlines. Microfluidic sperm selection designs have been developed in chip formats, mimicking in vivo situations. Here sperms are selected and analyzed based on motility and sperm behavioral properties. Compared to conventional sperm selection methods, this selection method enables to produce high-quality motile sperm cells possessing non-damaged or least damaged DNA, achieve greater success of insemination in bovines, and achieve enhanced pregnancy rates and live births in assisted reproduction-in vitro fertilization (IVF) and intracytoplasmic sperm injection (ICSI). Besides, the concentration of sperm available to oocyte can be controlled by regulating the flow rate in microfluidic chips. The challenges in this technology are commercialization of chips, development of fully functional species-specific microfluidic tools, limited number of studies available in literature, and need of thorough understanding in reproductive physiology of domestic animals. In conclusion, incorporation of microfluidic system in assisted reproduction for sperm selection may promise a great success in IVF and ICSI outcomes. Future prospectives are to make this technology more superior and need to modify chip designs which is cost effective and species specific and ready for commercialization. Comprehensive studies in animal species are needed to be carried out for wider application of microfluidic sperm selection in in vitro procedures.

Filtration techniques are advantageous over colloidal centrifugation in improving freezability of low-quality buffalo bull (Bubalus bubalis) ejaculates

The study compared efficacy of three sperm selection techniques in improving freezability of low-quality Murrah buffalo bull ejaculates. Sephadex (SEP), Sephadex ion-exchange filtration (SIE), and 40/80% BoviPure™ (BP) gradient centrifugation protocols were standardized (ejaculates, n = 24). In Experiment-I, Sephadex G-75, G-100, and combined Sephadex G (75-100) column filtrates were compared. In Experiment-II, BP protocols: 200 g-10 min, 250 g-5, and 10 min, 300 g-10, and 15 min were compared. In fresh semen, Sephadex G (75-100) filtration and 250 g-5 min BP protocol improved sperm functions and were used in Experiment-III, where SEP G (75-100), SIE G (75-100), and 250 g-5 min BP processed ejaculates (n = 48) were cryopreserved and compared at post-thaw stage. The mean recovery rate differed in order: SEP > SIE > BP. SIE filtration significantly improved progressive motility, livability, membrane integrity, bovine cervical mucus penetration and live non-apoptotic sperm. Compared with control, all three techniques equally reduced post-dilution and post-thaw lipid peroxidation (LPO) rate. SEP post-thaw filtrates observed lower cryocapacitation-like changes, LPO (C11-BODIPY581/591), and higher active mitochondria than other treatments. SIE and SEP equally improved post-thaw acrosome-intact sperm over BP. Filtration techniques, preferably, Sephadex ion-exchange filtration can most efficiently process low-quality buffalo bull ejaculates for cryopreservation and improve freezability.

Integration of microfluidics in animal in vitro embryo production

The in vitro production of livestock embryos is central to several areas of animal biotechnology. Further, the use of in vitro embryo manipulation is expanding as new applications emerge. ARTs find direct applications in increasing genetic quality of livestock, producing transgenic animals, cloning, artificial insemination, reducing disease transmission, preserving endangered germplasm, producing chimeric animals for disease research, and treating infertility. Whereas new techniques such as nuclear transfer and intracytoplasmic sperm injection are now commonly used, basic embryo culture procedures remain the limiting step to the development of these techniques. Research over the past 2 decades focusing on improving the culture medium has greatly improved in vitro development of embryos. However, cleavage rates and viability of these embryos is reduced compared with in vivo indicating that present in vitro systems are still not optimal. Furthermore, the methods of handling mammalian oocytes and embryos have changed little in recent decades. While pipetting techniques have served embryology well in the past, advanced handling and manipulation technologies will be required to efficiently implement and commercialize the basic biological advances made in recent years. Microfluidic systems can be used to handle gametes, mature oocytes, culture embryos, and perform other basic procedures in a microenvironment that more closely mimic in vivo conditions. The use of microfluidic technologies to fabricate microscale devices has being investigated to overcome this obstacle. In this review, we summarize the development and testing of microfabricated fluidic systems with feature sizes similar to the diameter of an embryo for in vitro production of pre-implantation mammalian embryos.

Glass wool filtration of bull cryopreserved semen: a rapid and effective method to obtain a high percentage of functional sperm

Frozen-thawed bull sperm are widely used in assisted reproductive technologies, but cryopreservation negatively affects semen quality. Several sperm selection techniques have been developed to separate motile sperm from non-motile cells. The aim of the present study was to evaluate the effectiveness of the glass wool column filtration to select functional sperm from frozen-thawed bull semen samples. Frozen semen from six Holstein bulls was thawed and filtered through a glass wool column, followed by assessment of routine and functional sperm parameters. In a set of experiments, sperm aliquots were also processed by swim up to compare both selection methods. Samples recovered in the glass wool filtrate had high percentages of viable (94 ± 3%, mean ± SD), progressively motile (89 ± 4%), acrosome-intact (98 ± 1%), and non-capacitated (80 ± 10%) sperm; these values were higher (P < 0.05) than those obtained after performing the swim up procedure. Moreover, the glass wool filtration yielded 67 ± 19% motile cells, in comparison with 18 ± 8% obtained with swim up (P < 0.05), calculated as the concentration of progressively motile cells selected relative to their concentration in the sample before the selection procedure. Glass wool-filtered sperm were able to undergo capacitation-related events, based on the increase in the percentage of cells classified as capacitated by CTC staining (B-pattern) after incubation with heparin (50 ± 5%) in comparison with control conditions with no heparin (17 ± 4%) or heparin + glucose (16 ± 2%; P < 0.05). Moreover, they underwent acrosomal exocytosis in response to pharmacologic (calcium ionophore A23187 and lysophosphatidylcholine) and physiological (follicular fluid) stimuli, and they fertilized in vitro matured cumulus-oocyte complexes and denuded oocytes (two-cell embryos: 72 ± 4% and 52 ± 6%, respectively). We conclude that glass wool filtration is a low-cost, simple, and highly effective procedure to select functionally competent sperm for reproductive technologies in the bull, which may be useful for other domestic and farm animals, as well as for endangered species.

Bull semen variables after experimental exposure with Bovine Herpesvirus type 5

The influence of Bovine Herpesvirus type 5 (BoHV-5) infection on semen variables and sperm morphology collected from healthy bulls with no reproductive disorder was evaluated in ten ejaculates distributed into two experimental groups: group I, bull semen exposed to 10(2.3) (tissue culture infectious dose) TCID(50)/50 μl of a Brazilian strain of BoHV-5 (US9/BR/2007; GU9457818) and group II, unexposed bull control semen. After experimental infection, the semen was frozen-thawed prior to computerized analysis (CASA) of sperm motility and movement. Also analyzed were sperm phosphatidylserine transposition, acrosomal integrity, mitochondrial function, plasma membrane integrity and Annexin V expression. Viable BoHV-5 particles and their DNA were detected in infected semen after virus isolation and in situ hybridization (ISH) assay. The ISH revealed the BoHV-5 US9 gene in the acrosome and tail of infected spermatozoa. The only remarkable differences between groups I and II were the sperm kinetic variables, whereby infected sperm had a lesser mean velocity (VAP) and curvilinear velocity (VCL) values as compared to controls (P≤0.05). However, the straightness coefficient (STR) and beat cross frequency (BCF) values were higher in infected sperm. These results indicate that BoHV-5 can be found in infected sperm but induces no functional and morphological damage even after freeze-thawing, and, importantly, BoHV-5 can be spread via in vitro and in vivo reproductive biotechnology procedures.

A comparative study of Sephadex, glass wool and Percoll separation techniques on sperm quality and IVF results for cryopreserved bovine semen

The aim of this study was to compare the effects of spermatozoa separation techniques on sperm quality and in-vitro fertilization (IVF) results for cryopreserved bovine semen. Sephadex, glass wool and Percoll gradient separation techniques were used for sperm separation and sperm motility, morphology and membrane integrity were evaluated before and after separation. Also, cleavage and blastocyst developmental rate were investigated after IVF with sperm recovered by each separation technique. The motility of samples obtained by the three separation techniques were greater compared to the control samples (p < 0.05). The percentage of spermatozoa with intact plasma-membrane integrity, identified by 6-carboxyfluoresceindiacetate/propidium iodide fluorescent staining and the hypo-osmotic swelling test, was highest in the glass wool filtration samples (p < 0.05). The cleavage and blastocyst rate of total oocytes produced from glass wool filtration samples were also higher than the control and Sephadex filtration samples (p < 0.05), but were not significantly different from Percoll separation samples. However, a significantly greater number of cleaved embryos produced by glass wool filtration developed to blastocyst stage than those produced by Percoll separation (p < 0.05). These results indicate that spermatozoa with good quality can be achieved by these three separation techniques and can be used for bovine IVF. In particular, it suggests that glass wool filtration would be the most effective method of the three for improving sperm quality and embryo production for cryopreserved bovine spermatozoa.