This study was carried out to investigate the general characteristics, such as volume, pH, sperm motility and sperm concentration of the semen collected from Beagle dogs (age $24{\sim}48$ months, weight $10{\sim}15\;kg$) by using the method of digital manipulation of the penis, and the effect of preservation temperature and time on motility of fresh semen. Multiple ejaculates were collected from 4 male Beagles. The average volume, pH, motility and sperm concentration of the second fraction (contained with small volume of the third fraction) per ejaculation were $2.94{\pm}0.24(SD)\;ml$, $6.43{\pm}0.42(SD)$, $97.04{\pm}3.50(SD)%$ and $1.67{\pm}0.23(SD){\times}10^8\;cells/ml$, respectively. Average semen volume per ejaculate, semen pH, sperm motility and sperm concentration of the first fraction from the ejaculate were $1.24{\pm}0.20(SD)\;ml$, $6.03{\pm}0.26(SD)$, $1l.30{\pm}4.02(SD)%$ and $7.25{\pm}1.02(SD){\times}10^5\;cells/ml$. Those of second fraction were $2.52{\pm}0.32(SD)\;ml$, $6.32{\pm}0.31(SD)$, $96.25{\pm}3.52(SD)%$ and $2.35{\pm}0.35(SD){\times}10^8\;cells/ml$. Those of third fraction were $2.71{\pm}0.27\;(SD)\;ml$, $6.52{\pm}0.20(SD)$, $95.65{\pm}2.78(SD)%$ and $5.72{\pm}0.29(SD){\times}10^7\;cells/ml$. Motility of semen was higher at $17^{\circ}C$ preservation temperature than $5^{\circ}C$ or $36^{\circ}C$ during preservation period. When preservation temperature was $17^{\circ}C$, motility was $96.54{\pm}2.05(SD)%$ at 1 h, $90.20{\pm}3.90(SD)%$ at 6 h, $89.05{\pm}2.01(SD)%$ at 12 h, $78.21{\pm}3.50(SD)%$ at 18 h, $45.24{\pm}6.25\;(SD)%$ at 24 h and $30.75{\pm}17.24(SD)%$ at 30 h, respectively.
Kim, Sung Woo;Lee, Jae-Yeong;Kim, Chan-Lan;Ko, Yeoung-Gyu;Lee, Sung Soo
Korean Journal of Poultry Science
/
v.48
no.4
/
pp.185-191
/
2021
Chicken spermatozoa have the ability to survive in low-temperature environments; however, the effects of low temperature on sperm motility and acrosome damage have not been studied in detail. The present study investigated semen longevity following dilution of rooster semen with Beltsville Poultry Semen Extender (BPSE) and Lake extender in preservation vessels (1.5 mL e-tube and 0.5 mL straw). Spermatozoa motility in the closed-type vessel (0.5 mL straw) was higher than that in the 1.5 mL e-tube on day 3 of preservation (68.6±3.1% vs. 22.1±5.7%). The motility of rooster semen diluted with BPSE in 0.5 mL straw was also higher than that of the Lake extender on day 3 of preservation (57.7±5.6% vs. 37.7±5.4%). Furthermore, acrosome intactness was higher in 0.5 mL straw than in the 1.5 mL e-tube, and the rate of acrosome cap damage increased with preservation days. The present study demonstrates that a closed 0.5-mL straw vessel could be used for low-temperature semen preservation, with an increased motility rate and acrosome integrity in fresh rooster semen.
An experiment was conducted to investigate the effect of caffeine, cAMP and cattle seminal plasma on preservation of semen at ultra low temperature ($-196{^{\circ}C}$). Each semen sample was divided into four parts equal in volume and sperm concentration; three were treated with caffeine, or cAMP, or cattle seminal plasma (CSP) and the fourth was kept as control. Sperm motility, abnormal spermatozoa, live-dead count and acrosomal damage were studied at different stages of freeze preservation viz.; just after dilution, at $5{^{\circ}C}$, at glycerolisation, before freezing, just after freezing, 24 hours of storage, and one week of storage. Sperm motility (58.39, 61.33, 52.00 and 50.39 per cent), non-eosinophilic spermatozoa (72.55, 69.98, 63.31 and 67.64 per cent), abnormal spermatozoa (5.71, 4.98, 8.04 and 5.66 per cent) and acrosomal damage (13.28, 13.33, 14.80 and 14.65 per cent) were observed in cAMP, caffeine, cattle seminal plasma and control, respectively, at every stage of freeze preservation. From this study it could be concluded that freezability of buffalo semen can be improved through the addition of caffeine followed by cAMP and cattle seminal plasma.
Kim, Y.S.;Lee, H.T.;Kim, I.C.;Ryu, J.W.;Kim, C.W.;Chung, K.H.
Journal of Embryo Transfer
/
v.21
no.4
/
pp.345-351
/
2006
The objective of this study was to investigate the effects of preservation period of porcine liquid semen on bacterial contamination and in vitro production of embryo. Extended liquid semen was prepared by three mixture of boar's ejaculates from each farm without antibiotics, and were kept in $17^{\circ}C$ semen preservation incubator until use. Sperm motility was significantly (p<0.05) decreased as semen preservation time goes by (78.7$\pm$2.4% for 1 day vs. 71.1$\pm$2.4 and 64.8$\pm$2.4% for 3 and 5 days of presentation, respectively). Quantitative of bacteria in semen was significantly (p<0.05) higher in 5 days ($57.8\pm105.2\times10^4$ Cfu) compared to 0 and 3 days ($32.1\pm76.8\times10^4$ and $26.9\pm46.6\times10^4$ Cfu, respectively) of preservation. In terms of development of in vitro fertilization of porcine embryos inseminated by preserved semen, the rate of normal fertilization (2PN) was significantly (p<0.05) decreased in 5 days (56.0$\pm$2.6%) compared to 1 and 3 days (66.0$\pm$2.7 and 64.0$\pm$2.7%, respectively) of preservation. Cleavage rate was also significantly (p<0.05) affected by preservation period (75.0$\pm$4% for 1 day, 70.0$\pm$0.3 and 71.0$\pm$0.3% for 3 and 5 days, respectively). The in vitro developmental rate of blastocyst stage embryo was significantly (p<0.05) affected by semen preservation period (15.0$\pm$1.0% for 1 day vs. 11.0$\pm$0.9 and 8.0$\pm$0.9% for 3 and 5 days, respectively). It is concluded that more than 3 days of liquid semen preservation without antibiotics increased the quantity of bacteria resulted in detrimental effect on sperm motility and decreased both normal insemination rate and the developmental rate of blastocyst stage embryo.
This study was carried out to investigate the general characteristics such as volume, sperm concentration, sperm motility, sperm abnormality on whole semen, RSP-S and RSP-T semen and fractional semen of small size dogs, and the effect of temperature and preservation time and cryoproservation on motility of whole and RSP-S and RSP- T semen. Multiple ejaculates were collected from small dogs by the digital manipulation of penis. 1. The volume per ejaculate semen, sperm of concentration and motility and abnormal sperm rate of 1st fractional semen were 0.65±0.09㎖, 4.52±0.35×10/sup 6/ cells/㎖, 15.64±3.85% and 5.50±0.62%. Also, 2nd fractional semen were 1.25±0.20㎖, 3.35±0.48×10/sup 6/cells/㎖, 96.25±4.65% and 4.24±0.46%. And 3rd fractional semen were 1.45±0.21㎖, 3.85±0.52×10/sup 6/cell/㎖, 92.82±4.24% and 4.66±0.58%, respectively. 2. The sperm of concentration and motility and abnormal sperm rates of whole, RSP-S and RSP-T semen were 5.45±0.82×10/sup 6/ cells/㎖, 95.55±4.65%, 4.58±0.45% and 4.82±0.36×10/sup 6/cells/㎖, 90.10±3.42%, 6.48±0.68% and 4.55±0.45× 10/sup 6/cells/㎖, 93.25±3.85%, 4.82±0.58%, respectively. 3. The motility of whole, RSP-S and RSP-T semen were higher at 4℃ than at 38℃. When preservation temperature was at 4℃, survival rates of RSP-S and RSP-T sperm were 97.54%-6.25% at 1-72 hrs, 97.40%-5.62% at 1-100 hrs, respectively. 4. The survival rates of slow and rapid frozen 2nd fraction, RSP-S and RSP-T semen were 67.3±4.45%, 88.8±4.46% and 46.4±3.84%, 74.4±4.20%, respectively. Survival rates was significantly higher in frozen RSP-S and RSP-T semen than that in control group(8.5±2.12%).
This study was designed to analyze boar sperm to compare motility, acrosome morphology, viability and ATP by various preservation methods between Duroc boar A with cold shock resistance sperm and Duroc boar B with cold shock sensitivity sperm. Semen volume, sperm concentration, motility and normal acrosome between Duroc boar A and B did not show any differences within 2 h after collection. There were no differences in sperm motility and normal acrosome between boar A and B at 1 day of preservation at $17^{\circ}C$ and $4^{\circ}C$, respectively. However, sperm motility and normal acrosome from 2 day of preservation at $17^{\circ}C$ and $4^{\circ}C$, respectively, were higher for boar A than boar B. The frozen-thawed sperm motility and normal acrosome were higher for boar A than boar B. The sperm viability and ATP concentration according to storage period of liquid semen at $17^{\circ}C$ and $4^{\circ}C$ were higher for boar A than boar B. Also, the sperm viability and ATP concentration of frozen-thawed semen were higher for boar A than boar B. In conclusion, we found out that the original quality of boar semen with cold shock resistance sperm played an important role.
Park, C.S.;Kim, M.K.;Lee, S.H.;Xu, Z.;Lee, C.Z.;Lee, Y.H.
Korean Journal of Animal Reproduction
/
v.21
no.1
/
pp.25-30
/
1997
This study was done to find out the preservation possibility of liquid boar semen at variabel room temperature of 9 to 16$^{\circ}C$. The percentages of sperm motility and NAR acrosome were highest in B tschwiler extender compared to B tschwiler+Hepes, Andro+Hepes and Andro extenders. The extenders with Hepes buffer showed detrimental effect for preservation of liquid boar semen. The pH of ejaculated sperm-rich fraction was 7.5. The pH of B tschwiler+Hepes, B tschwiler, Andro+Hepes and Andro extenders was 6.9, 7.5, 7.1 and 8.1, respectively. The pH of liquid boar semen with B tschwiler+Hepes, B tschwiler, Andro+Hepes and Andro extenders was 6.6, 6.9, 6.7 and 6.9 at 1st day of storage, and 5.5, 5.7, 5.6 and 5.8 at 7th day of storage, respectively. Gilts and sows were inseminated twice with liquid boar semen stored at 9~16$^{\circ}C$ in B tschwiler extender for 3~4 days. Farrowing rate, litter size and average pig weight at birth between AI and natural service did not differ significantly in gilt and sow, respectively. However, sow showed higher farrowing rate and litter size compared to gilt both in AI and in natural service. As a result of this study, we found out that liquid boar semen can be stored for 5~7 days at uncontrolled room temperature of 9~16$^{\circ}C$ in B tschwiler extender.
Garole is a prolific, rare, less known and small size Indian sheep breed found in low and humid Sunderban region of West Bengal. Although information on stored Garole ram liquid semen upto 24 h is available, but there is a need to further investigate the short-term and long-term preservability of Garole ram semen for extensive utilization of this valuable germplasm by artificial insemination. The aim of the present study was to apply computer-assisted sperm analysis technique for assessing the motion characteristics of Garole ram semen stored (i) in liquid state at refrigeration temperature for short-term preservation upto 48 h and (ii) in frozen state at $-196^{\circ}C$ for long-term preservation after packaging in mini straws. Short-term preservation had a significant effect on motility (p<0.01) as the motility progressively decreased from 90.1% at 0 h to 85.5% and 73.2% after 24 and 48 h of storage, respectively. Although the decline in rapid moving sperms was also significant (p<0.01) on storage but the decrease was more pronounced at 48 h as compared to 24 h of storage period. Storage of chilled semen had also a significant effect on % linearity (p<0.05), % straightness (p<0.01), sperm velocities (p<0.01), amplitude of lateral head displacement (p<0.01) and beat frequency (pO.Ol) of spermatozoa. The replication had a significant effect for all the variables except average path and straight line velocity. However, the interactions of short-term storage and replication were non-significant for most of the variables except % of medium moving sperms, sperm velocities and beat frequency. On long-term preservation of Garole ram spermatozoa under controlled conditions the mean post-thaw recovery of 70.4 and 71.4% motile spermatozoa was achieved having 48.8 and 48.9% of rapidly motile spermatozoa, respectively in both the replicates. The effect of replication on cryopreservation was significant (p<0.05) on amplitude of lateral head displacement and beat frequency, but there was no significant effect on motility, rapidly motile spermatozoa, linearity, straightness and sperm velocities of frozen-thawed spermatozoa. It can be concluded from these results that an average 70% motility can be achieved on storage of Garole ram semen in chilled liquid state upto 48 h or in liquid nitrogen after freezing under controlled conditions in straws. However, further studies are required to evaluate the fertility of short-term and long-term preserved Garole ram semen for extensive use of this prolific sheep breed.
The efficiency of artificial insemination (AI) for horses remains unsatisfactory. It is mainly because each process of AI causes a detrimental effect on semen quality. To sustain quality of semen properly, several factors including libido of stallions and sperm damage during sperm processing and preservation should be considered. Stallions with decent libido produce a high ratio of sperm to seminal plasma in their ejaculates, which is the ideal semen composition for maintaining sperm quality. Thus, to maximize the fertility rate upon AI, stallions should be appropriately managed to enhance their libido. Seminal plasma should have a positive effect on horse fertility in the case of natural breeding, whereas the effects of seminal plasma on both sperm viability and quality in the context of AI remain controversial. Centrifugation of semen is performed during semen processing to remove seminal plasma and to isolate fine quality sperm from semen. However, the centrifugation process can also result in sperm loss and damage. To solve this problem, several different centrifugation techniques such as Cushion Fluid along with dual and single Androcoll-E$^{TM}$ were developed to minimize loss of sperm and to damage at the bottom of the pellet. Most recently, a new technique without centrifugation was developed with the purpose of separating sperm from semen. AI techniques have been advanced to deliver sperm to optimal region of female reproductive tract at perfect timing. Recombinant equine luteinizing hormone (reLH) and low dose insemination techniques have been developed to maximize both fertility rate and the efficiency of AI. Horse breeders should consider that the entire AI procedure should be optimized for each stallion due to variation in individual horses for a uniformed AI protocol.
This experiment was to study semen properties of Charolais for the a, pp.ication ot artificial insemination. The result obtained were summarized as follows: 1. In the preservation of liquid semen for 6 days, the survival rates of Charolais semen averaged 57.14% in skim milk solution and 58.17% in tris buffer solution. There were not differences. 2. Recovery of semen after thawing was vigorous in the semen that was diluted and frozen in 48 hrs. 3. The real rates of survival sperm for Charolais averaged 83% after living sperm was diluted and stained for 6 days. 4. Methylene blue reduction test diluted semen was fresh when it was diluted within 48 hrs. 5. If the diluted semen was preserved below 5$^{\circ}C$ in Charolais, the pH decreased by 0.2 in a day. 6. Diluted semen was more resistant to the cold shock than fresh semen. 7. In resistance against hot shock, sperm was almost dead in 20 minutes in 46.5$^{\circ}C$ in diluted semen, while it was dead in 30 minutes in 42.5$^{\circ}C$ in diluted semen. 8. In examination of morphological changes of sperm acrosome for 6 days, normal sperm in skim milk solution and tris buffer solution was 80% and 76.97% respectively, swelling sperm 12.8% and 15.27%, deficient sperm 0.6% and 0.97% abnormal staining 3.07% and 5.25%, immature sperm 0.28%, and 0.23%, whereas other abnormal sperm was 1.28% and 1.42%.
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