Some effects of the composition of inseminated semen and the site of its deposition on fertility in Gallus domesticus

It is most probable that during natural copulation the semen of the fowl is ejaculated into a shallow position in the vagina of the hen, but during the commercial application of artificial insemination it is generally considered necessary to evert the distal vagina and deposit semen to a depth of at least 5 cm to produce optimal fertilisation of the succession of eggs laid daily by a female for a week post-insemination. Aspects of the artificial insemination technique in relation to the types of semen that are obtained from the male fowl artificially are re-appraised in relation to their effect on fertility. It was confirmed that a smaller number of spermatozoa (50 × 10⁶) than is normally used in commercial practice (>80 × 10⁶) produced good fertility, even when inseminated within 0.5 cm of the vaginal opening in the cloaca. The results were achieved whether or not glucose was present in the inseminate. When semen was deposited in the cloaca, a better fertilisation rate was obtained if ductus-deferens semen was diluted with transparent fluid, which is produced by tumescent tissue in the cloaca during semen collection. However, the same advantageous effect was shown by dilution with synthetic aqueous fluids with and without glucose. The likely role of transparent fluid during natural copulation is discussed. On the basis of the number of spermatozoa found to maintain good fertility by artificial insemination, only 10 μl semen would be required to be ejaculated into each hen during copulation. This may account for the well-known ability of the male fowl to copulate frequently in a day, because the small volume of semen would be replenished, naturally, very quickly in the ductus deferens.     

Semen backflow after insemination and its effect on fertilisation results in sows

The aim of the present study was to investigate the volume of and number of spermatozoa in semen backflow during and after insemination, and the effect of backflow on fertilisation results assessed at day 5 of pregnancy. Multiparous sows (n=140) were artificially inseminated with either (1, 3 or 6)×10⁹ mixed spermatozoa from three boars in a constant volume of 80 ml. Backflow of semen was measured three times: during insemination (M1); during the first half hour after insemination (M2); and from 0.5 h until about 2.5 h after insemination (M3). Transrectal ultrasonography was performed at intervals of 4 h to determine the time of ovulation. Sows were sacrificed at 120±0.4 h after ovulation to assess the results of fertilisation. Every sow had some backflow and the variation in volume, and number of spermatozoa within the backflow was high. The average semen backflow within 2.5 h after insemination was 70±3.4% of the volume and 25±1.4% of the spermatozoa of the inseminated dosage. The concentration of the backflow (% of the inseminated dosage) decreased with time after insemination from 65% at M1 to 40% and 26% at M2 and M3, respectively. The correlations between volume and number of spermatozoa were high: r=0.97, r=0.73 and r=0.81 in M1, M2 and M3, respectively. More than 5% of the inseminated spermatozoa in backflow during insemination affected fertilisation negatively in those sows inseminated with 1×10⁹ spermatozoa (P<0.05). Backflow after insemination had no effect on fertilisation results (P>0.05). Timing of insemination relative to ovulation and oestrus were not related to backflow during or after insemination (P>0.05). Of the sows which had backflow, those of parity 1 tended to have the highest proportion of sows with more than 5 ml backflow (47%; n=8 of 17) compared with sows from parity 2 and higher (24%; n=14 of 59) (P=0.075). It was concluded that excessive backflow of semen during insemination had a negative effect on fertilisation results when sows where inseminated with only 1×10⁹ spermatozoa. Causes of variation in backflow between sows were not clearly identifiable.     

Effects of different artificial insemination techniques and sperm doses on fertility of normal mares and mares with abnormal reproductive history

The effects of different artificial insemination (AI) techniques and sperm doses on pregnancy rates of normal Hanoverian breed mares and mares with a history of barrenness or pregnancy failure using fresh or frozen-thawed sperm were investigated. The material included 187 normal mares (148 foaling and 39 young maiden mares) and 85 problem mares with abnormal reproductive history. Mares were randomly allotted into groups with respect to AI technique (routine AI into the uterine body, transrectally controlled deep intracornual AI ipsilateral to the preovulatory follicle, or hysteroscopic AI onto the uterotubal junction ipsilateral to the preovulatory follicle), storage method of semen (fresh, frozen-thawed), AI volume (0.5, 2, 12 ml), and sperm dose (50 x 10(6) or 300 x 10(6) progressively motile sperm (pms) for fresh semen and 100 or 800 x 10(6) frozen-thawed sperm with >35% post-thaw motility). The mares were inseminated once per cycle, 24 h after hCG administration when fresh semen was used, or 30 h for frozen-thawed semen. Differences in pregnancy rates between treatment groups were analyzed by Chi-squared test, and for most relevant factors (insemination technique, mare, semen, and stallion) expectation values and confidence intervals were calculated using multivariate logistic models. Neither insemination technique, volume, sperm dose, nor mare or stallion had significant effects (P > 0.05) on fertility. Type of semen, breeding mares during foal heat, and an interaction between insemination technique, semen parameters, and mares did have significant effects (P < 0.05). In problem mares, frozen semen AI yielded significantly lower pregnancy rates than fresh semen AI (16/43, 37.2% versus 25/42, 59.5%), but this was not the case in normal mares. In normal mares, hysteroscopic AI with fresh semen gave significantly (P < 0.05) better pregnancy rates than uterine body AI (27/38, 71% versus 18/38, 47.3%), whereas in problem mares this resulted in significantly lower pregnancy rates than uterine body AI (5/15, 33.3% versus 16/19, 84.2%). Our results demonstrate that for problem mares, conventional insemination into the uterine body appears to be superior to hysteroscopic insemination and in normal mares, the highest pregnancy rates can be expected by hysteroscopic insemination.     

First successful artificial insemination with frozen-thawed semen in rhinoceros

The first successful artificial insemination (AI) in a rhinoceros was reported in 2007 using fresh semen. Following that success, we decided to evaluate the possibility of using frozen-thawed semen for artificial insemination. Semen, collected from a 35-36 year old Southern white rhinoceros (Ceratotherium simum simum) in the UK was frozen using the directional freezing technique. This frozen semen was used in two intrauterine AI attempts on a 30 years old female rhinoceros in Hungary. The first attempt, conducted 30 days postpartum with an insemination dose of ∼135 × 10⁶ motile cells, failed. The second attempt, conducted two estrus cycles later with an insemination dose of ∼500 × 10⁶ motile cells, resulted in pregnancy and the birth of a healthy offspring. This represents the first successful AI using frozen-thawed semen in a rhinoceros, putting it among very few wildlife species in which AI with frozen-thawed semen resulted in a live birth. The incorporation of AI with frozen-thawed semen into the assisted reproduction toolbox opens the way to preserve and transport semen between distant individuals in captivity or between wild and captive populations, without the need to transport stressed or potentially disease carrying animals. In addition, cryopreserved spermatozoa, in combination with AI, are useful methods to extend the reproductive lifespan of individuals beyond their biological lifespan and an important tool for managing genetic diversity in these endangered mammals.     

Artificial insemination of ewes with frozen-thawed semen at a synchronised oestrus. 2. Effect of dose of spermatozoa and site of intrauterine insemination on fertility

Three experiments were conducted to examine the effect of dose of inseminate, number of uterine horns inseminated and site of insemination on subsequent fertility of Merino ewes after synchronisation of oestrus, with progestagen-impregnated sponges (inserted for 12 days) and an injection of PMSG, and intrauterine insemination with frozen-thawed semen.The percentages of ewes lambing after insemination with 0.5, 5, 25 and 50 × 10⁶ spermatozoa were 29.3, 26.8, 56.3 and 62.1% respectively. A similar trend was observed in a second test resulting in 23.5, 38.8 and 53.1% ewes lambing after insemination with 5, 10 and 20 × 10⁶ spermatozoa respectively.The percentage of ewes lambing was higher for ewes inseminated in two uterine horns than one horn (76.8 vs. 44.9, P < 0.001). When semen was deposited in the tip, middle and bottom of the uterine horn, the percentages of ewes lambing and lambs born per ewe inseminated were 43.6 and 52.7, 52.8 and 84.9, and 41.2 and 64.7% respectively. Although site of insemination did not affect the percentage of ewes lambing, the percentage of lambs born per ewe inseminated was higher after insemination in the middle of the uterine horn than at the other sites (P < 0.001).     

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.     

Fertility of ram semen after storage at 5°C

In five experiments, fertilization, early (18–19-day) pregnancy, and lambing were examined after insemination with semen stored at 5°C in tris-fructose-egg yolk diluent.After deposition into uterine horns by surgical insemination of semen stored for 0 (control), 2, 4, 6, 8, 9 or 10 days, fertilized eggs were recovered in $\text{32}\text{34}\text{,}\text{16}\text{16}\text{,}\text{21}\text{22}\text{,}\text{15}\text{20}$, $\text{9}\text{17}\text{,}\text{2}\text{18}$ and $\text{1}\text{15}$ ewes; the 18–19-day pregnancy rates determined by progesterone assay were $\text{32}\text{48}\text{,}\text{15}\text{28}\text{,}\text{11}\text{20}\text{,}\text{12}\text{20}\text{,}\text{9}\text{20}$, $\text{2}\text{20}$ and $\text{1}\text{21}$ for the respective storage periods. There was a linear decrease in fertilization rates beyond 4 days of storage and in early pregnancy rates after 6 days of storage (P<0.001). The decline with time of storage in the fertilization rate was not associated with an increase in early embryonic loss. Surgical insemination with semen stored for 0, 4, 6, 8, 9 and 10 days resulted in 53, 35, 40, 25, 5, and 0% lambing.Single cervical (normal) insemination of a total of 281 ewes with 0, 1, 2 or 3-day-old semen, using within each semen treatment 90 × 10⁶ and 180 × 10⁶ spermatozoa, yielded mean lambing rates of 60.0, 34.3, 33.8, and 17.1%; and after using 150 × 10⁶ and 300 × 10⁶ spermatozoa in a total of 393 ewes the mean lambing rates for the above semen treatments were 69.0, 46.4, 36.1, and 24.2% (linear, P < 0.001). In both tests the lambing results were better after insemination of the higher number of spermatozoa, but the slope of decline in fertility with age of semen was not affected by the sperm dose.When single and double cervical inseminations were performed in a total of 411 ewes, with 150 × 10⁶ and 300 × 10⁶ spermatozoa per inseminate, the lambing rates for semen stored for 0, 1, 2 and 3 days were 57.7, 30.4, 26.8, and 4.7% after single insemination, and 66.7, 56.8, 46.4, and 41.5% after double inseminations. The sperm dose within method of insemination and semen treatment had no effect. The lambing rate was better after double than single insemination (P<0.001), but the slope of decline in fertility with age of semen was not significantly affected by number of inseminations.In the final experiment, involving 408 ewes, 300 μg of prostaglandin F₂α added to the inseminate did not improve the fertility of fresh semen or semen stored for 1 day.     

Artificial insemination in cattle with DNA‐treated sperm

Abstract

We have investigated the use of sperm cells as vectors for transferring exogenous DNA into the genome of cattle by artificial insemination with DNA‐treated sperm. First we demonstrated the DNA‐binding ability of cattle sperm with radioactively labeled DNA. For artificial insemination ejaculated semen was washed and incubated with 1 μg DNA/10⁶ sperm for one hour at 37°C. Three hundred synchronized heifers were inseminated once with a dose of 40×10⁶ sperm. Forty‐five calves and 41 fetuses were obtained. Southern analysis revealed in one calf a signal after probing with the 1 kb Pst I fragment of pSV2‐cat.     

The effects of cryopreservation on the morphometric dimensions of caprine sperm heads

Cryopreserved semen has been utilised in the artificial insemination of livestock species for over 40 years, even though the detrimental effects of cryopreservation on sperm function and fertility are well documented. In the present study, computer-automated sperm-head morphometry was used to determine if goat sperm-head morphometry was affected by freezing and thawing. A microscope slide was prepared from single semen samples, collected by artificial vagina, from 10 sexually active Saanen bucks. The remainder of each sample was frozen in a tris-citrate-yolk extender. After thawing, semen smears were prepared on microscope slides. All slides were stained in haematoxylin and mean sperm-head measurements of length, width, width/length, area and perimeter were determined for each slide by computer aided sperm morphometry analysis. The effects of sperm freezing on sperm-head dimensions within and among all bucks were determined. No significant (P > 0.10) freezing effect was found between fresh semen and postthaw samples for length (7.00 μm vs 7.13 μm), width (3.77 μm vs 3.87 μm), width/length (0.54 μm vs 0.54 μm), area (19.67 μm² vs 20.57 μm²) and perimeter (18.62 μm vs 18.83 μm) when analysed across all bucks. Significant differences (P < 0.05) were however found within three bucks for area, perimeter, length and width, with the percentage increase in measurements being significantly greater than in the remaining bucks. The variability of the morphometric dimensions were not affected by freezing. The results indicate that semen freezing did not affect the overall dimensions of sperm heads across the entire population of bucks sampled. However, since sperm-head dimensions from three bucks were affected, changes in sperm-head morphometry may be indicative of spermatozoa of the semen from individuals to successfully freeze. Because the overall mean sperm-head dimensions acquired from frozen/thawed semen were not different from those of fresh semen, previously reported measurements of goat sperm heads are probably reflective of fresh semen. More importantly, retrospective studies of sperm-head morphometry and fertility may now be performed utilising extensive breeding records from frozen semen.     

First pregnancies in jennies with vitrified donkey semen using a new warming method

Sperm vitrification has been recently developed, but fertility trials have not been performed yet in equine species. In this study, a new warming technique for vitrified donkey semen was developed and the uterine inflammatory response and fertility were compared to conventional freezing. In Experiment 1, sperm was vitrified in straws and warmed in 3 ml of extender or in a water bath at: 37 °C/30 s; 43 °C/10 s; and 60 °C/5 s. Sperm motility, plasma and acrosome membranes and DNA integrity were compared between treatments. In Experiment 2, jennies were inseminated twice (500 × 10⁶ sperm) in the uterine body either with vitrified or frozen semen (2 cycles/jenny). Pregnancy rates and the uterine inflammatory response (polymorphonuclear neutrophil concentration; PMN) were evaluated after artificial insemination (AI). No differences between warming in extender/water bath were found and 43 °C/10 s was better than lower temperatures in terms of total (53.8 ± 13.2%) and progressive sperm motility (41.4 ± 11.4%). No differences in PMN concentration (× 10³ PMN/ml) were found between vitrified (276.8 ± 171.6) or frozen (309.7 ± 250.7) semen after AI. However, PMN decreased faster (P < 0.05) using vitrified semen. Pregnancy rates were greater for vitrified (22%) than frozen semen (10%) but not statistically different. In conclusion, donkey sperm vitrified in straws could be directly warmed in a water bath at 43 °C/10 s, reducing the uterine inflammatory response obtained after AI and promoting positive pregnancy outcomes. These findings confirm the possibility to use vitrified semen as an alternative for AI in jennies.     

Effect of Uremia on Semen Quality and Reproductive Function in Humans

In this study, we sought to evaluate the effect of uremia on semen quality and reproductive function in humans. For this purpose, 53 end-stage uremic patients were randomly selected. The semen samples were produced by masturbation. Fertility index (FI) was calculated according to the following formula: sperm density (×10⁶/ml) × sperm motility (%) × normal sperm morphology rate (% per 10,000). The semen samples of uremic patients were compared with those of fertile and infertile males. The results show that three patients failed to produce semen. There were no sperm found in four semen samples. The sperm motility, survival rate, sperm density, and normal sperm morphology rate of the remaining 46 patients were found to be significantly lower than those of controls. The uremic patients had the FI of 0.68(2.08) which was obviously lower than that of fertile 7.7(13.51) and infertile 4.13(5.77) males. It was, therefore, concluded that uremia caused a significant decline in sperm quality and reproductive function which resulted in consequential infertility in humans.     

Pregnancy in the domestic cat after vaginal or transcervical insemination with fresh and frozen semen

The objective was to compare pregnancy rates in domestic cats using fresh semen for intravaginal artificial insemination (IVI), either at the time of hCG treatment for induction of ovulation, or 28 h later, and to compare pregnancy rates following IVI or transcervical intrauterine insemination (IUI) of frozen–thawed semen. Eighteen queens were inseminated during 39 estrus cycles. Fresh semen with 13.5 ± 5.4 × 10⁶ sperm (range, 6.8–22 × 10⁶) collected by electroejaculation from four male cats was used in Experiment 1, and cryopreserved semen (20 × 10⁶ sperm, with 70 ± 5% post-thaw motility) from one male cat was used in Experiment 2. Serum concentrations of estradiol-17β and progesterone were determined in most queens on the day of AI and again 30–40 days later. Treatment with 100 IU of hCG 3 days after the onset of estrus induced ovulation in 95% of treated queens. Pregnancy rates to IVI with fresh semen at the time of hCG administration versus 28 h later were not different (P = 0.58); overall 33% (5/15) of the queens became pregnant. For frozen–thawed semen, AI was consistently done 28 h after hCG administration; IUI and IVI resulted in pregnancy rates of 41.7% (5/12), whereas no queen (0/12) became pregnant by IVI (P = 0.0083). In conclusion, an acceptable pregnancy rate was obtained with frozen–thawed semen in the domestic cat by non-surgical transcervical IUI; this method might also be useful in other small felids.     

Effect of Dietary Selenium and Vitamin E on Ganders’ Response to Semen Collection and Ejaculate Characteristics

Compared to other domestic bird species, geese exhibit the lowest reproductive efficiency (poor semen quality, low egg production, and poor fertility and hatchability rates). From an economic perspective, it is a necessity of improve these reproductive traits. Studies have demonstrated that the essential trace element—selenium—plays key roles in testicular development and the maintenance of spermatogenesis. The aim of the present study was to determine the effect of feed supplementation with organic selenium and vitamin E on ganders’ response to manual semen collection and semen quality. Sixteen 3-year-old White Koluda ganders were randomly divided into two groups. The control group was provided commercial feed while the experimental group was provided with the same commercial feed supplemented with selenium (0.3 mg/kg) and vitamin E (100 mg/kg). The response of individual ganders from both groups to manual semen collection and the quality of the semen collected were evaluated. The supplements increased (P?≤?0.05) the frequency and decreased the time interval of a complete ejaculatory response of the ganders to manual semen collections (82.7 % supplement vs. 73.5 % control). Males from the supplemented group had significantly higher (P?≤?0.01; P?≤?0.05) ejaculate volumes, sperm concentrations, and percentages of viable sperm and lower percentages of immature sperm (spermatids). Lipids peroxidation, expressed in terms of the malondialdehyde concentration, was lower (P?≤?0.01) in semen of the supplemented group (0.172 nmol/50?×?10⁶) as compared to the controls (0.320 nmol/50?×?10⁶). Moreover, the duration of the reproductive period of the ganders in the experimental group was 1 week longer. The results show that supplemental dietary selenium and vitamin E improved both the ganders’ response to manual semen collection and semen quality. We conclude that such feed supplementation could lead to greater economic benefits through increased reproductive efficiency within the goose production industry.     

Effects of reduced seawater pH on fertilisation, embryogenesis and larval development in the Antarctic seastar Odontaster validus

The effects of ocean acidification will be pronounced in high-latitude marine communities, although little is known on how reproduction in free-spawning polar invertebrates will respond. Using the circum-Antarctic sea star Odontaster validus, we examined fertilisation, larval survival and development under a controlled seawater treatment (temperature = ?0.5 °C, pH 8.1, pCO₂(aq) = 326.6 μatm, TA = 2,274.2 μmol kg soln^?1), two near-future pH treatments (pH 7.8 and 7.6) and an extreme treatment (pH 7.0). At a sperm concentration of 3.5 × 10⁵ sperm ml^?1, percentage of fertilisation was 98–90 % across a pH 8.1–7.0 range. At near-future pH ranges (pH 7.8 and 7.6), fertilisation was not significantly lower than in the control pH 8.1 except at the lowest sperm concentration (2.2 × 10³ sperm ml^?1) where fertilisation was reduced to 60 and 61 % in pH 7.6 and 7.8, respectively. Larval survival was not significantly affected by a decrease in pH of 0.3 units, but at pH 7.6 survival was significantly reduced. This difference was apparent at 9 days, and at the end of the experiment at 58 days, survival was 55 % compared with 85 % in the ambient treatment. Near-future changes to pH yielded smaller larvae, a result of both subtle differences in their morphology and slowed development rates, while larvae at pH 7.0 showed evidence of abnormal development. O. validus fertilisation and larval success declines in seawater pH conditions expected in coastal Antarctica over the coming decades, although the responses observed are within the range observed in warmer-water echinoderms.     

Comparative Examination of Capercaillie (Tetrao urogallus L.) Behaviour Responses and Semen Quality to Two Methods of Semen Collection

Artificial insemination (AI) is very helpful in solving the reproductive and biodiversity problems observed in small, closed avian populations. The successful production of fertilized eggs using AI is dependent on the collection of good quality semen. Two methods of male sexual stimulation and semen collection from captive kept capercaillie (Tetrao urogallus L.), one of the most seriously endangered grouse species in Europe, are compared in this study. Ejaculates were obtained either with the use of a dummy female or by the dorso-abdominal massage method. Differences in the individual responses of the males to the two methods of semen collection as well as in their semen quality were noted. Only sperm concentration (432.4 x 10⁶ mL^-1 with dummy female and 614.5 x 10⁶ mL^-1 for massage method) was significantly affected by capercaillie stimulation method. Sperm motility and morphology were not affected (P≥0.05). Thus, for semen collection from captive kept capercaillie both methods can be used successfully. The dummy female can be an alternative to dorso-abdominal massage method, commonly used for semen collection from domesticated bird species.     

Sperm transport and survival in the mare: a review

After the deposition of semen in the mare's uterus, spermatozoa must be transported to the site of fertilization, be maintained in the female tract until ovulation occurs, and be prepared to fertilize the released ovum. Sperm motility, myometrial contractions, and a spontaneous post-mating uterine inflammation are important factors for the transport and survival of spermatozoa in the mare's reproductive tract. Fertilizable sperm are present in the oviduct within 4 h after insemination. At this time, the uterus is the site of a hostile inflammatory environment. Our data suggest that spermatozoa trigger an influx of polymorphonuclear neutrophils (PMNs) into the uterine lumen via activation of complement. Furthermore, semen plasma appears to have a modulatory effect on the post-mating inflammation through its suppressive effect on PMN chemotaxis and migration. Spermatozoa that safely have reached the oviduct can be stored in a functional state for several days, but prolonged sperm storage in the female tract is not required for capacitation and fertilization in the horse. The caudal isthmus has been proposed as a sperm reservoir in the mare. The pattern of sperm transport and survival of spermatozoa in the mare's reproductive tract are different between fertile and subfertile stallions, between fertile and some infertile mares, and between fresh and frozen/thawed semen. Possible explanations for these differences include a selective phagocytosis of damaged or dead spermatozoa, impaired myometrial activity in subfertile mares, bio-physiological changes in spermatozoa during cryopreservation, and the removal of semen plasma during cryopreservation of equine semen.     

Artificial insemination of sheep: the fertility of semen extended in diluents containing egg yolk and inseminated soon after dilution or stored at 5 degrees C for 24 or 48 hours.

In an experiment involving the artificial insemination (AI) of 1175 ewes, ram semen was diluted 10- or 30-fold in a buffered glucosesaline solution containing either 1.5% or 6% (v/v) egg yolk. Part of each semen collection was used undiluted for control AI of 10⁸ sperm/dose. Diluted samples were reconcentrated to 10⁹ sperm/ml by centrifugation and, from these preparations, 10⁸ spermatozoa were inseminated in a standard volume of 100 μl. Fertility was assessed by 28–45 day non-returns to oestrus.The processes of dilution and reconcentration caused a significant drop in the non-return rate (NRR) and cooling to 5°C and storage for up to 48 hrs at this temperature gave a further large, and highly significant, reduction in NRR. There was no significant effect of level of egg yolk in the diluent on NRR.     

Effect of semen dilution to low-sperm number per dose on motility and functionality of cryopreserved bovine spermatozoa using low-density lipoproteins (LDL) extender: Comparison to Triladyl and Bioxcell

Artificial insemination with doses containing low-sperm numbers has been utilized to optimize the use of elite bulls. Hen egg yolk is widely used as a cryoprotective agent in semen freezing extender protecting the spermatozoa. Its action is due to the presence of low-density lipoproteins (LDL) in the hen egg yolk. The objectives of the present study were to evaluate the effects of the semen dilution to low-sperm number/dose on sperm motility and integrity of sperm plasma membrane in the cryopreservation process, using two commercial extenders (Triladyl^®, Bioxcell^®) and LDL extender prepared in our laboratory, 97% purity. Fifteen ejaculates were collected from five fertile crossbred bulls (Bos taurus × Bos indicus). After collection, sperm motility was examined by Computer-Assisted Semen Analysis (Hamilton Thorne), morphological sperm characteristics were evaluated by differential interference microscopy and the integrity of plasma membranes was determined using the hypo-osmotic swelling test. The semen was subsequently divided into three aliquots and diluted with the three extenders into 120 × 10⁶, 60 × 10⁶ and 20 × 10⁶ sperm/mL, corresponding to 30 × 10⁶, 15 × 10⁶ and 5 × 10⁶ sperm/dose, respectively. This study revealed that LDL extender was more effective in preservation of motility and integrity of the plasma membrane of spermatozoa than Bioxcell^® and Triladyl^® (p < 0.05), but no significant difference was observed between Triladyl^® and Bioxcell^®. Therefore we can conclude that LDL extender could be used instead of Triladyl^® or Bioxcell^® at low semen concentration per dose for elite bulls, it also could be envisaged for the industry of sex-stored semen.     

Effect of storage duration, storage temperature, and diluent on the viability and fertility of fresh ram sperm

Cervical artificial insemination (AI) in sheep with fresh semen yields a much higher pregnancy rate than when frozen-thawed semen is used, and consequently frozen semen is only acceptable for laparoscopic insemination. The short life span of fresh semen is a major constraint on the use of AI in genetic improvement programs for sheep. The main objective of this study was to examine the effects of storage conditions on viability and fertilization ability of fresh ram (Ovis aries) semen up to 72 h postcollection. Experiment 1 was designed to evaluate the effect of diluent type (standard skim milk, AndroMed, OviPro, and INRA 96) and storage temperature (5 °C and 15 °C) on the motility and viability of fresh ram semen. Storage temperature, irrespective of diluent, had a significant effect on both motility and viability. Storage at 5 °C maintained acceptable motility and viability up to 72 h compared with that of storage at 15 °C. In Experiment 2, the penetrating ability of fresh ram semen, diluted in either skim milk, AndroMed, or INRA 96, was assessed using artificial mucus. Flat capillary tubes containing artificial mucus were suspended in 250 μL semen at a sperm concentration of 20 × 10⁶/mL. Semen was stored at 5 °C and tested after 6, 24, 48, and 72 h. There was a significant diluent by time interaction. In Experiment 3, the fertilizing ability of fresh ram semen stored at 5 °C was evaluated in vitro. Fresh semen (diluted in either skim milk, AndroMed, or INRA 96) was added to matured ewe oocytes at 6, 24, or 72 h after semen collection. Cleavage rate was recorded at 48 h postinsemination, and blastocyst development was recorded on Days 6 to 9. There was a significant treatment effect on cleavage and blastocyst rates; insemination of semen stored for 24 h resulted in higher rates than those for storage at 72 h. In Experiment 4, the fertilizing ability of fresh ram semen was evaluated in vivo. Semen was diluted in INRA 96, stored at 5 °C, and used to inseminate ewes on the day of collection or at 24, 48, and 72 h postcollection. Multiparous ewes were cervically inseminated at a synchronized estrus. Fertility rate decreased linearly (P < 0.001) up to 72 h after semen collection.     

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.