Morpho-functional studies regarding the fertility prognosis of mares suffering from equine endometrosis

The aim of the present study was to characterize the morpho-functional features of endometrosis in barren and foaling mares, using both conventional histopathological and immunohistochemical methods. Endometrial biopsy samples were collected during the physiological breeding season from 159 estrous, clinically healthy mares (mean age 12 years), and the quality and degree of endometrosis was histomorphologically defined. The mares were bred and those that foaled were put in the foaling group whereas those that did not foal were placed in the barren group. Foaling mares were then compared with barren mares. Sixty-four percent (101/159) of uterine samples showed varying degrees of endometrosis and were used for this study. The sample population consisted of 51 barren and 50 foaling mares suffering from endometrosis. Expression of steroid hormone receptors (estrogen receptor, progesterone receptor) and endometrial protein secretion patterns (uteroglobin [UG], uterocalin [UC], calbindin_D9k [CAL], uteroferrin [UF]) was evaluated by immunohistochemistry (barren mares N = 51, foaling mares N = 31). In comparison with unaffected glands, fibrotic glands generally showed a cycle-asynchronous, partially patchy protein expression pattern which is interpreted as a sign of endometrial maldifferentiation within fibrotic areas. In barren mares (N = 51) more than half of biopsy samples (27/51) showed a destructive mostly moderate (20/27) type of endometrosis. In affected glands, staining for UG (17/21) was decreased (P < 0.001). Foaling mares (N = 50) frequently showed a mild, nondestructive endometrosis (35/50). Compared with barren mares, foaling mares had statistically (P < 0.05) more often a cycle-synchronous or increased UG expression pattern within fibrotic glands. Obvious deviations of either UG or UC rarely occurred. Within fibrotic foci, UF often demonstrated a cycle-synchronous or more intense expression pattern in both foaling (28/31) and barren mares (41/51), compared with healthy glands. Mares of both groups showed a cycle-asynchronous staining for estrogen receptor and progesterone receptor in the stromal cells in areas of periglandular fibrosis and the glandular epithelia. These findings indicate that affected areas become independent of the uterine control mechanisms and exhibit specific differentiation dynamics. Immunohistochemical investigations showed that the secretory patterns differ between barren and foaling mares. The findings in this study should be considered as a useful addition to the “classical” Kenney categorization.     

Field fertility of sex-sorted and non-sorted frozen-thawed stallion spermatozoa

In the 2004/2005 breeding season, the fertility of sex-sorted (SS) and non-sorted (NS) frozen stallion spermatozoa from two Hannovarian stallions was compared. A hysteroscopic insemination technique [Morris, L.H., Tiplady, C., Allen, W.R., 2003a. Pregnancy rates in mares after a single fixed time hysteroscopic insemination of low numbers of frozen–thawed spermatozoa onto the uterotubal junction. Equine Vet. J. 35, 197–201] was used to deposit low doses (6, 13 or 25 × 10⁶ frozen–thawed SS or NS spermatozoa) onto the utero-tubal junction at 32 or 38 h after the administration of Chorulon (2500 IU, Intervet). Fertility was low, with one pregnancy (13 × 10⁶ spermatozoa, 500 μL) obtained after artificial insemination with frozen SS spermatozoa (n = 29 cycles) which resulted in the birth of a filly. Two pregnancies were obtained in mares inseminated with 6 × 10⁶ NS spermatozoa in 250 μL (n = 31 cycles). Mares failing to conceive on two experimental cycles were allocated to the conventional insemination group. Insemination with >500 × 10⁶ motile NS frozen–thawed spermatozoa, yielded satisfactory per cycle conception rates (35.5%, 22/62) for both stallions combined and was within the values of their normal fertility as quoted by the stud's records. This suggests that the quality of the frozen semen was acceptable and that the freezing processes yielded viable spermatozoa capable of fertilisation. The poor fertility after hysteroscopic insemination with low doses of sex-sorted or non-sorted spermatozoa from the same stallions may be directly attributable to the low dose insemination conditions with frozen–thawed rather than sex-sorted spermatozoa.     

Microbial quality of equine frozen semen

Bacteriological surveillance is little applied in management of equine frozen semen but it is quite important to verify the microbial contamination in order to find out the chance of transmission of pathology to the mare in AI. Authors describe a qualitative and quantitative analysis for bacterial contamination on long time (3–17 years) equine frozen semen stored in liquid nitrogen. The semen checked, produced in Italy and in another Europe country, was cryopreserved in liquid nitrogen inside sealed plastic straws. One hundred and ten straws were checked out for pathogenic and no pathogenic bacteria, aerobes and anaerobes and fungi (moulds and yeasts). The Total Microbial Charge was quite variable with an average of about 1.4 × 10⁵ CFU/ml. Mostly the microbial agents identified were fungi (17.5%), Enterobacter-coccus spp. (15%), Pseudomonas spp. (6.25%), Stenothophomonas maltophila (6.25%) and anaerobic bacteria like Propionibacterium granulosum (7.5%) and Clostridium spp. (3.75%). 3.75% were unidentified Gram-negative rod and cocci. Streptococcus spp., Staph. aureus, E. coli, Th. equigenitalis and Mycoplasma spp. were not detected. The most represented species were Enterobacter-coccus spp. (1.1 × 10⁵ CFU/ml), St. maltophila (8 × 10⁴ CFU/ml) and Pr. granulosum (7 × 10⁴ CFU/ml) while yeast and even more moulds were little abundant (4.7 × 10⁴ and 3.4 × 10⁴ CFU/ml respectively). The knowledge of equine frozen semen microbial quality is essential to check out transmission of venereal disease and improve the quality of cryopreserved germplasm.     

Evaluation of the presence of equine viral herpesvirus 1 (EHV-1) and equine viral herpesvirus 4 (EHV-4) DNA in stallion semen using polymerase chain reaction (PCR)

In the horse, the risk of excretion of two major equine pathogens (equine herpesvirus types 1 (EHV-1) and 4 (EHV-4)) in semen is unknown. The objective of our study was to assess the possible risks for the horizontal transmission of equine rhinopneumonitis herpesviruses via the semen and the effect of the viruses on stallion fertility.Samples of stallion semen (n = 390) were gathered from several different sources. Examination of the semen involved the detection of viral DNA using specific PCR. The mean fertility of the stallions whose sperm tested positive for viral DNA and the mean fertility of stallions whose sperm did not contain viral DNA, were compared using the Student's t-test.EHV-4 viral DNA was not detected in any of the semen samples. EHV-1 DNA was identified in 51 of the 390 samples, (13%). One hundred and eighty-two samples came from 6 studs and there was significant difference (p < 0.05) among the proportion of stallions whose semen tested positive for viral DNA from 0 to 55% between the studs.There was a significant difference (p < 0.014) between the fertility of stallions whose semen tested positive for viral DNA and those whose semen was free from viral DNA. The stallions that excreted the EHV-1 virus in their semen appeared to be more fertile than the non-excretors, but this difference was in fact related to the breeding technique since higher proportion of excretors were found among those whose semen was used fresh rather than preserved by cooling or freezing.In conclusion, this study suggests that the EHV-1 virus may be transmitted via the semen at mating or by artificial insemination as demonstrated with other herpes viruses in other species.     

Use of cholesterol-loaded cyclodextrin: An alternative for bad cooler stallions

During the cooling process, sperm may suffer irreversible damage that compromises the fertility rate. Incorporating cholesterol-loaded cyclodextrin (CLC) represents a strategy to increase sperm resistance at low temperatures; however, high levels of cholesterol in the cell membrane can interfere with sperm capacitation. The goals of this study were to determine the CLC concentration and cooling temperature that produce optimal kinetic parameters and viability of sperm from stallions identified as bad coolers (BCs) and good coolers (GCs), as well as the effect of adding CLC on the occurrence of the acrosome reaction (ACR) and on the fertility rate of cooled sperm. In experiment 1, each ejaculate was divided into four groups: Control and treated with 1 (CLC-1), 1.5 (CLC-1.5), or 2 mg (CLC-2) of CLC/120 × 10⁶ sperm and cooled for 48 hours at 5 °C. In experiment 2, each ejaculate was divided into four groups: Control and CLC-1.5 cooled at 15 °C or 5 °C for 24 hours. For experiment 3, GC and BC stallions were used, and the ejaculates were divided into control and CLC-1.5 cooled at 5 °C for 48 hours. According to experiment, the sperm kinetics (SK) and plasma membrane integrity (PMI) were analyzed before and after 24 and 48 hours of cooling. In experiment 4, the ejaculates were divided into four groups: Control and CLC-1.5 maintained at room temperature or cooled at 5 °C for 24 hours. Each group was incubated with ionophore calcium at 37 °C for 3 hours. The incidence of ACR was analyzed before and after 1, 2, and 3 hours of incubation. For experiment 5, two cycles of 10 mares for a GC stallion and two cycles of 25 for a BC stallion were used. The inseminations were performed with control and CLC-1.5 groups cooled at 5 °C for 24 hours. According to results, all groups treated with CLC exhibited higher PMI compared with controls, and CLC-1.5 and CLC-2 exhibited the best SK results. The cooling temperature of 5 °C was superior to 15 °C when the sperm was treated with CLC. The GC and BC stallions benefited from the CLC-1.5 treatment, but the BCs were more evident, which presented greatly increased PMI and SK. There was a delay in capacitation of at least 3 hours for the fresh sperm and at least 1 hour for cooled sperm supplemented with CLC-1.5. After adding CLC-1.5, the fertility of BC stallion significantly increased, but that of the GC was not altered. Thus, incorporating CLC is an effective technique to cool equine semen, although it is indicated mainly for BC stallions.     

Seasonal functional relevance of sperm characteristics in equine spermatozoa

A group of stallions with different reproductive indexes were used to study seasonal variations in sperm quality (Equus caballus). Semen samples were collected from late September to July and analyzed according to four seasonal periods: late September-December, January-March, late March-May, and June-July. Parameters monitored included sperm concentration, sperm motility, sperm morphology, sperm viability, acrosomal status, plasma membrane stability, and sperm mitochondrial membrane potential. Overall, seminal parameters monitored are affected mostly by time period, followed by animal and lastly by fertility, stressing the importance of individual variations in out-bred animal models. The analysis of multiple ejaculates from the same animals showed clear seasonal-based differences (P < 0.05) with poor semen quality in winter and a noticeable improvement in sperm quality with increasing photoperiod. Better semen quality was observed between late March and May. Interactions between month period, animal, and fertility were evident (P < 0.05) for sperm concentration, head and tail sperm anomalies, and acrosomal integrity. Thus, it may be advisable to adjust the use of stallion semen according to seasonal variations.     

Maintenance of fertility in cryopreserved Indian gerbil (Tatera indica) spermatozoa

This study is the first attempt at sperm cryopreservation, as well as a further examination of frozen sperm fertility by the hamster test, applied to the maintenance of an Indian gerbil (Tatera indica) colony, which is a newly developing experimental animal.The osmotic tolerance of the spermatozoa was initially investigated by subjection to hypertonicity, up to 620 mOsm/kg, for 5 min at room temperature prior to freezing. Although the percentage of total motile sperm was not affected, that of progressive motile spermatozoa began to drop at 400 mOsm/kg, and a significant decrease was observed at 620 mOsm/kg (p < 0.01). According to these results, the osmolality of the solutions for the freezing experiment, in which 6–22% raffinose was present, was fixed at approximately 400 mOsm/kg. Sperm, suspended in a plastic straw, were frozen in liquid nitrogen vapor for 5 min, followed by immersion in liquid nitrogen. Motile sperm were recovered from all freezing conditions, and high survival was obtained when sperm were frozen in the presence of 14% and 18% raffinose, with a normalized motility higher than 40%. Fertility of cryopreserved Indian gerbil sperm was examined by the zona-free hamster test. Thawed sperm adhered to 88% of the zona-free hamster oocyte surface, and some oocytes were penetrated and exhibited swollen sperm heads or male pronuclei, which we used to define fertilization. Although the fertilization rate of cryopreserved sperm to zona-free hamster eggs was significantly lower than that of fresh sperm (6% vs. 30%, p < 0.01), we demonstrated that thawed Indian gerbil spermatozoa have the ability to maintain their fertility.     

Infection of embryos following insemination of donor mares with equine arteritis virus infective semen

The objective was to evaluate the potential risks associated with embryo transfer from mares bred with equine arteritis virus (EAV) infective semen. Twenty-six mares were embryo donors, whereas 18 unvaccinated and EAV antibody seronegative mares were embryo recipients. Of the 26 donor mares, 15 were unvaccinated and seronegative for antibodies to EAV and 11 were vaccinated for the first time with a commercially available modified live virus vaccine against EVA before breeding and subsequent embryo transfer. All donor mares were bred with EAV-infective semen from a stallion persistently infected with the virus. Twenty-four embryos were recovered 7 d post-ovulation; all were subjected in sequential order to five washes in embryo flush medium, two trypsin treatments, and five additional washes in embryo flush medium (prior to transfer). Twelve and seven embryos (Grades 1 or 2) were transferred from the non-vaccinated and vaccinated donors, respectively, and pregnancy was established in 3 of 12 and 2 of 7. Perhaps trypsin reduced embryo viability and pregnancy rate. The uterine flush fluid of 11 mares (9 of 15 and 2 of 11 from non-vaccinated and vaccinated donor groups, respectively) was positive for EAV by VI (confirmed by real-time RT-PCR); the wash fluid from the embryos of nine of these mares was negative following 10 washes and two trypsin treatments. However, the embryo wash fluid from two mares was still positive for EAV after all 10 washes and the two trypsin treatments, and one embryo was positive for EAV. Two of 18 recipient mares had seroconverted to EAV 28 d after embryo transfer. Virus was not detected in any fetal tissues or fluids harvested after pregnancies were terminated (60 d). In conclusion, we inferred that the washing protocol of 10 washes and two trypsin treatments did not eliminate EAV from all embryos; due to limitations in experimental design, this requires confirmation. Furthermore, there may be a risk of EAV transmission associated with in vivo embryo transfer from a donor mare inseminated with EAV infective semen.     

Influence of seminal plasma on fertility of fresh and frozen-thawed stallion epididymal spermatozoa

The use of epididymal stallion spermatozoa for routine artificial insemination can secure easy future use of valuable genetics after unforeseen death or injury of a valuable stallion.     

Quality and fertility of cooled-shipped stallion semen at the time of insemination

Stallion semen processing is far from standardized and differs substantially between AI centers. Suboptimal pregnancy rates in equine AI may primarily result from breeding with low quality semen not adequately processed for shipment. It was the aim of the study to evaluate quality and fertility of cooled-shipped equine semen provided for breeding of client mares by commercial semen collection centers in Europe. Cooled shipped semen (n = 201 doses) from 67 stallions and 36 different EU-approved semen collection centers was evaluated. At arrival, semen temperature was 9.8 ± 0.2 °C, mean sperm concentration of AI doses was 68 ± 3 x 10⁶/ml), mean total sperm count was 1.0 ± 0.1 x 10⁹, total motility averaged 83 ± 1% and morphological defects 45 ± 2%. A total of 86 mares were inseminated, overall per season-pregnancy rate in these mares was 67%. Sperm concentration significantly influenced semen motility and morphology at arrival of the shipped semen. Significant effects of month of the year on volume, sperm concentration and total sperm count of the insemination dose were found. The collection center significantly influenced all semen parameters evaluated. Semen doses used to inseminate mares that became pregnant had significantly higher total and progressive motility of spermatozoa and a significantly lower percentage of morphological semen defects than insemination doses used for mares failing to get pregnant. Results demonstrate that insemination with semen of better quality provides a higher chance to achieve pregnancy. Besides the use of stallions with good semen quality, appropriate semen processing is an important factor for satisfying results in artificial insemination with cooled-shipped horse semen.     

Improvement of rooster semen quality using coenzyme Q10 during cooling storage in the Lake extender

Sensitivity of rooster semen to stressful condition of cooling restricts the semen storage in commercial flocks for artificial insemination. This study was accomplished to investigate the effect of coenzyme Q10 (CoQ10) addition to the Lake extender during chilled-storage on the parameters of sperm quality and fertility performance. Roosters’ pooled semen samples were assigned into equal parts and diluted with Lake extender supplemented with different concentrations of CoQ10 (0, 1, 2, 5 and 10 μM CoQ10). Then, semen samples were cooled to 5 °C and stored over 48 h. Total and progressive motilities, abnormal morphology, viability, membrane functionality, lipid peroxidation (LPO) and mitochondria active potential of diluted sperm were evaluated at 0, 24 and 48 h of cooling storage. Fertility performance of cooled stored semen was examined at 24 h of cooling storage. Although CoQ10 did not affect sperm quality at the starting time of cooling storage (0 h), extender supplementation with 5 μM of CoQ10 showed higher (P ≤ 0.05) sperm total and progressive motilities, membrane functionality, viability and mitochondria active potential at 24 h as well as total motility, viability and membrane functionality at 48 h in contrast with other groups. Moreover, lipid peroxidation was lower (P ≤ 0.05) in semen samples diluted with 5 μM CoQ10 at 24 and 48 h compared to others. After artificial insemination with 24 h chilled-stored sperm, fertility efficiency was higher (P ≤ 0.05) in treatments contained 5 μM CoQ10 compared to the control group. According to the results, using optimum dose of CoQ10 could be helpful to save rooster semen against chilled storage structural and functional damages.     

Redox status of equine seminal plasma reflects the pattern and magnitude of DNA damage in sperm cells

Antioxidant status of seminal plasma from 23 stallions was evaluated. We found a negative correlation between total antioxidant capacity (ABTS^•+ decolorization assay) and thiol content of seminal plasma, and sperm DNA damage (8-oxoG immunostaining, TUNEL reaction, comet assay). Low seminal redox status was the strongest correlated with 8-oxoG level which may indicate that seminal total antioxidant capacity influences mainly the formation of single strand DNA breaks in sperm cells. Since inter-individual differences in seminal antioxidant status were reported, we postulated that the redox status of seminal plasma may be an additional important parameter, both with sperm quantitative and morphological analysis, for evaluation of equine semen quality.     

Danish A.I. field data with sexed semen

The objective of this study was to compare conception rates, non-return rates and sex ratios of sexed and conventional semen from the same sires in commercial dairy herds in Denmark. The semen was produced from three bulls from each of the three major dairy breeds in Denmark: Holstein, Jersey and Danish Red Dairy Breed (nine bulls total), in order to answer questions on breeds differences in field results. AI was performed by trained technicians using a minimum of 150 doses of sorted sperm and 50 control doses from each bull. During the trial, a total of 2087 doses were used in 63 herds.The trial showed that the conception rate using sorted semen was 5% points lower than with conventional doses for Danish Reds, 7% points for Jerseys, and 12% points for Holsteins. Translating this into non-return rate revealed differences of 10-20% points among bulls. These differences are thought to be a good indicator of what to expect from commercial use of sexed semen.The sex ratios varied from 89% to 93% female calves among breeds, which on average is consistent with the theoretical average sex ratio of 93% females considering the low number of inseminations.     

Analysis of selected sperm by density gradient centrifugation might aid in the estimation of in vivo fertility of thawed ram spermatozoa

The aim of the present study was to evaluate the effect of selecting a sperm subpopulation by means of a discontinuous density gradient centrifugation (DGC) on the quality of ram thawed semen, and the relationships between sperm parameters assessed in unselected and in selected sperm samples with in vivo fertility after intrauterine artificial insemination (IUI) using unselected sperm samples. Semen samples from twenty males were collected by artificial vagina and cryopreserved following a standard protocol. After thawing, unselected sperm samples were used in an in vivo fertility trial and sperm motility (subjective and objective, assessed by means of CASA) and membrane and acrosomal integrities (microscopy) were evaluated on unselected and selected sperm samples. In addition, plasmalemma integrity (YO-PRO-1/PI), membrane fluidity (Merocyanine 540/YO-PRO-1), mitochondrial activity (Mitotracker Deep Red/YO-PRO-1), and DNA fragmentation index (%DFI) assessed by Sperm Chromatin Structure Assay (SCSA^®) were evaluated by flow cytometry before and after sperm processing using DGC. Results showed that DGC improved all sperm parameters significantly, except the %DFI, which increased after the selection procedure. No relationships were found between sperm parameters evaluated in unselected sperm samples and in vivo fertility. However, we found a positive correlation between spermatozoa with high membrane fluidity within the viable sperm population (VIABMerocyanine+) evaluated in selected sperm samples and in vivo fertility (r = 0.370, P = 0.019). In conclusion, our results suggest that selected spermatozoa represent a sperm subpopulation different to the unselected one that could be related with the in vivo fertility.     

Potential applications of equine genomics in dissecting diseases and fertility

Following the recent development of high-resolution gene maps and generation of several basic tools and resources to use them in analyzing traits that are economically important to horse owners, genome analysis in horses is witnessing a shift towards developing an ability to analyze complex traits. The likelihood of this happening in the very near future is great, mainly because of the recent availability of the whole genome sequence in the horse. The latter has triggered the development of novel tools like SNP-chip and expression arrays that will permit rapid genome-wide analysis. While these tools will be used for a range of multi-factorial disease traits, attempts are underway to develop focused tools that can target reproduction, fertility and sex determination. For this, a catalog of sex and reproduction related (SRR) genes is being developed in horses. A recently developed dense map of the horse Y chromosome will provide genes that are expressed exclusively in males and, therefore, have an impact on stallion fertility. Overall, these advances in equine genome analysis hold promise for improved diagnosis and treatment of various conditions in horses.     

L-carnitine is a survival factor for chilled storage of rooster semen for a long time

Rooster sperm is sensitive to cooling, which restricts procedures to store sperms for extended periods of time for artificial insemination of commercial flocks. This study was conducted to evaluate the suitability of adding L-carnitine (LC) to chilled-storage of rooster sperm and its effects on sperm quality parameters and its fertility potential during storage at 5 °C. Pooled semen from roosters were divided into six equal aliquots and diluted with media supplemented with different concentrations of LC (0, 0.5, 1, 2, 4 and 8 mM LC). Diluted semen samples were cooled to 5 °C and stored over 48 h. Motility, viability, membrane functionality, lipid peroxidation and mitochondria activity of the sperm were assessed at 0, 24 and 48 h of storage. Moreover, fertility potential of chilled stored sperm was considered at 24 h of storage. While sperm quality was not affected by LC at the beginning of storage (0 h), supplementation of extender with 1 and 2 mM of LC significantly improved the percentage of sperm motility, viability, membrane integrity and mitochondria activity at 24 h and 48 h compared to other groups. Lipid peroxidation was significantly reduced in sperm samples diluted with 1 and 2 mM LC at 24 h (2.15 ± 0.52 nmol/ml and 2.21 ± 0.52 nmol/ml) and 48 h (3.42 ± 0.49 nmol/ml and 3.38 ± 0.49 nmol/ml) compared to other groups. Furthermore, fertility rates during artificial insemination using sperms cooled for 24 h in the presence of 1 and 2 mM LC were significantly higher (78%) than in the control group (64%). These findings suggest that optimum doses of LC could protect rooster sperm against cool storage-induced functional and structural damages.     

Heterologous in vitro fertilization is a good procedure to assess the fertility of thawed ram spermatozoa

A heterologous in vitro fertilization (IVF) test using calf oocytes with zona pellucida was employed to assess the fertility of thawed ram sperm samples. Six males with significant differences in fertility (P = 0.003) were used. The males were classified as having high fertility (≥42%) and low fertility (≤41%). Male fertility was not influenced by number of inseminated ewes (P = 0.584), insemination technician (P = 0.156), insemination date (P = 0.323) or farm (P = 0.207). Thawed sperm samples were employed to assess several sperm parameters for each male: motility, acrosomal integrity, viability, membrane stability, membrane phospholipid disorder, mitochondrial membrane potential and chromatin stability. These samples were used to carry out a heterologous in vitro fertilization. In vitro-matured calf oocytes (n = 716) were inseminated with thawed ram semen and in vitro cultured for 40 h. Overall, at thawing, variability among males respect to sperm quality was high. Despite this variability, there were not differences (P < 0.05) between fertility groups. Yield of hybrid embryos ranged from 31 to 59% between males. There were not differences between males (P = 0.340). However, there were differences between fertility groups (high fertility: 55%; low fertility: 39%; P = 0.020). Multiple regression analysis showed that the heterologous in vitro fertility was the only predictive parameter for in vivo male fertility. Correlation between both parameters was fair (r² = 0.760; P = 0.025). These results indicate that heterologous in vitro fertilization tests can be useful to predict the fertility of ram spermatozoa using calf oocytes with intact-zona pellucida.     

Effects of a lecithin and catalase containing semen extender and a second dilution with different enhancing buffers on the quality of cold-stored canine spermatozoa

In the present study, a diluent containing 0.8% lecithin (Minitube®, Tiefenbach, G) for the cold storage of canine semen was compared to a Tris-egg yolk extender (TRIS-EY) containing 20% egg yolk. For this purpose, aliquots of 10 mixed ejaculates (main fractions) were either diluted with TRIS-EY or with three lecithin extenders containing 0.8% lecithin with or without catalase and tyrosine. All samples were examined by computer assisted sperm analysis (CASA), chlortetracycline assay (CTC) and flow cytometry, sperm chromatin structure assay (SCSA) and zona pellucida binding assay (ZBA). Samples were then cold stored for 8 d and examinations repeated at days 3 and 8. Measurement in the CASA were repeated daily and prior to measurement, each sample was diluted with each of 4 enhancers with or without acetylcarnitine. The use of an enhancer proved to be essential for all extenders and after 8 d of cooling, progressive motility (P) and viability (V) still averaged > 70% and > 80% with the lecithin extenders containing additives, whereas with TRIS-EY and without additives it was significantly lower (P < 0.05). The percentage of capacitated spermatozoa did not differ between extender groups and there was no significant increase in acrosome reactions (AR) within 3 d. The chromatin status of cells was not changed by cooling within 8 d. The ZBA showed that with additives, significantly more spermatozoa bound to oocytes when a lecithin extender with additives was used (P < 0.05). In conclusion, the 0.8% lecithin extender containing catalase, conserved P and V during 8 d of cold storage better than the TRIS-EY extender, however, only when an enhancer was used; addition of acetylcarnitine to the enhancer did not further improve semen quality. The here introduced lecithin extender / enhancer combination is a useful tool for prolonged storage of cooled semen with excellent longevity and binding ability; addition of tyrosine to the extender did not improve semen quality.     

The effect of supplementation of cryopreservation diluents with sugars on the post-thawing fertility of ram semen

This study was conducted to elucidate the effect of increasing the osmolality of a basic Tris, extender supplemented with sucrose, trehalose or raffinose on post-thawing ram semen quality (sperm motility, viability, acrosome integrity, total sperm abnormalities and membrane integrity). After primary evaluation of the collected ejaculates, only semen samples with more than 70% motile sperm, and a sperm concentration of higher than 3 × 10⁹ sperm/ml were used for cryopreservation. The semen samples were pooled and diluted (1:4) with a Tris-citric acid-fructose-yolk extender, supplemented with different concentrations (50, 70 or 100 mM) of sucrose, trehalose or raffinose. As control, semen was diluted and frozen in the base diluent, without additional sugars. Pooled semen samples were aspirated into 0.25 ml straws, cooled to 5 °C within 90 min and frozen by exposure to liquid nitrogen vapor (4-5 cm above the liquid nitrogen surface) for 10 min - before plunging into liquid nitrogen, for storage. After 24 h, straws were thawed in a water bath (37 °C) for 30 s. The frozen-thawed sperm characteristics were improved significantly (P < 0.05) by increasing the level of the sugars. Optimal results being obtained with 70 and 100 mM trehalose or raffinose. All extenders containing supplemental sugars were superior in terms of sperm quality to the control (P < 0.01) group. The highest sperm motility (60.6 ± 1.9%), viability (60.6 ± 2.5%) and membrane integrity (58.2 ± 2.1%) were recorded using 100 mM trehalose and the lowest with 50 mM sucrose (48.6 ± 1.9%, 51.4 ± 2.5% and 47.9 ± 2.1%, respectively). All sugar concentrations decreased the percentage of acrosomal and total sperm abnormalities (P < 0.05). The extenders containing 100 mM trehalose or raffinose significantly (P < 0.05) decreased the occurrence of sperm abnormalities, compared to the other treatments. The fertility rates obtained after cervical insemination of the frozen-thawed sperm were 46.8%, 44.1% and 16.7% for 100 mM trehalose, 100 mM raffinose and the control with supplementation of the diluents, respectively. The study showed that ram sperm can tolerate hyperosmotic diluents, and that a range of sugar concentrations (50-100 mM) may successfully be incorporated in the ram semen cryopreservation diluents, although further research is warranted.     

Effect of sperm numbers and time of insemination relative to ovulation on sow fertility

We examined the effect of inseminating mixed parity sows (n = 231) once with fewer sperm at different times relative to ovulation. Lactation length was 19 days and sows received an IM injection of 600 IU equine chorionic gonadotrophin (eCG) 12 h before weaning. At 80 h after eCG injection, sows received an IM injection of 5 mg porcine luteinizing hormone (pLH). Predicted time of ovulation (PTO) was 38 h after pLH injection. Sows were assigned by parity to receive a single transcervical artificial insemination (AI) at either 6 or 24 h before PTO with semen doses containing either 2.5 or 1.25 × 10⁹ sperm. A positive control group of sows (n = 49) was subject to conventional AI 24 and 6 h before PTO. Detection of estrus was performed in the presence of a boar and only sows exhibiting estrous behavior at the assigned time of AI were included in the study. Farrowing rate for sows receiving 2.5 × 10⁹ sperm at 6 h before PTO was greater than that for sows receiving 1.25 × 10⁹ sperm at 24 h before PTO (85% versus 61%, P < 0.05). All other groups were intermediate. There was no effect of time of AI or sperm numbers on subsequent litter size. These data indicate that single insemination of fewer sperm may compromise sow fertility, even when performed transcervically, if not appropriately timed relative to ovulation.