Factors affecting follicular population, oocyte yield and quality in camels (Camelus dromedarius) ovary with special reference to maturation time in vitro

Three experiments were conducted to study a series of factors affecting in vitro reproductive parameters in camels. In Experiment 1, the effect of season and presence of a corpus luteum (CL) on ovarian follicular populations, oocyte yield and quality was studied using a total of 252 and 208 ovaries collected during the breeding and non-breeding season, respectively. Small, medium, large and the total number of ovarian follicles, oocyte yield and quality were measured. In Experiment 2, the effect of methods of oocyte retrieval and needle gauge on oocyte yield and quality was evaluated with oocytes recovered using slicing and aspiration with 18-, 19- or 20-gauge needle. Oocytes were evaluated microscopically and classified into three categories. The objective of Experiment 3 was to identify the optimum time for oocyte maturation in the dromedary camel. Oocytes were cultured in CR1aa medium at 38.5 degrees C under 5% CO(2) for 24, 32, 36, 48 and 72h. Maturation was calculated as the percentage of cumulus expansion and oocytes reaching metaphase II (MII). The number of small, medium, large and the total number of ovarian follicles were higher (P<0.01) during the breeding than non-breeding season. The recovery of total number of oocytes and Category I oocytes were also greater (P<0.01) during the breeding season. Ovaries without a CL possessed significantly (P<0.01) more ovarian follicles and more (P<0.05) small and large follicles. The total number of oocytes and Category I oocytes were also greater (P<0.01) in ovaries without CL. Slicing of camel ovaries increased (P<0.01) the yield of oocytes as compared to aspiration. The aspiration of follicles using a 20-gauge needle had greater yields of the total number of oocytes and Category I oocytes than when using 19- (P<0.05) and 18-gauge needle (P<0.01). The culture of camel oocytes for 36h produced higher (P<0.01) percentages of cumulus expansion and oocytes at MII. Increasing culture times up to 48 or 72h increased (P<0.01) the percentage of degenerated oocytes.In conclusion, the growth and development of ovarian follicles in the camel as well as yields of Category I oocyte were greater during the breeding season. Slicing or aspirations using a 20-gauge needle yielded greater numbers of total and Category I oocytes. Finally, maturation of oocytes in CR1aa medium for 36h produced higher percentages of cumulus expansion and oocytes at MII stage.     

Size of the donor follicle, but not stage of reproductive cycle or seasonality, influences meiotic competency of selected domestic dog oocytes

Ability of ovarian oocytes from the domestic dog to complete nuclear maturation in vitro (IVM) varies markedly among donors and generally is 20% or less of all oocytes cultured. To identify the cause(s) underlying these significant variations in meiotic maturation (to metaphase II; MII), we retrospectively analyzed data from 1,643 oocytes recovered from 90 bitches for which stage of reproduction and season of year were known. Neither stage of reproduction (proestrus/estrus, diestrus, anestrus, or prepuberty) nor season (P > 0.05) influenced the ability of oocytes to achieve nuclear maturation in vitro. A second study was conducted to examine the impact of follicular size on meiotic maturation. Populations of large oocytes were recovered from four categories of follicles (ranging from <0.5 to > 2 mm in diameter) and cultured in TCM 199 for 48 hr. Follicular size influenced (P < 0.05) meiotic competence. Mean percentages of MII oocytes were 16.9 +/- 9.2, 26.1 +/- 7.6, 38.4 +/- 9.2, and 79.5 +/- 10.9 for oocytes recovered from < 0.5 mm, > or = 0.5-< 1 mm, 1-2 mm, and > 2 mm diameter follicles, respectively. In summary, stage of reproduction and season have no impact on the ability of dog oocytes to achieve nuclear maturation in vitro. However, we demonstrated for the first time that dog oocytes acquire meiotic competency during follicular development. IVM success of selected oocytes from large size follicles (almost 80%) is about 60% higher than measured in most previous studies involving randomly collected oocytes.     

Interactions between oxygen tension and glucose concentration that modulate actions of heat shock on bovine oocytes during in vitro maturation

Exposure of oocytes to elevated temperature (i.e. heat shock) during maturation can reduce fertilization rate and development of the resultant embryos. Given the possible role of free radicals in actions of heat shock on cellular function, we tested the hypothesis that a high oxygen environment exacerbates the magnitude of deleterious effects of heat shock on in vitro maturation of bovine oocytes. A preliminary experiment was performed to establish conditions for oocyte maturation that would be independent of oxygen concentration. Oocytes were matured in a modified tissue culture medium-199 (mTCM-199) or modified synthetic oviduct fluid (mSOF) containing 5.6 or 20 mM glucose and under either high (atmospheric oxygen, approximately 21%, v/v) or low oxygen (5%, a value approximating oxygen content of the follicle). For oocytes matured in mTCM-199, development was greater in high oxygen than in low oxygen, whereas development was unaffected by oxygen using mSOF (mediumxoxygen, P<0.05). Accordingly, mSOF was used as the maturation medium in a second study to test the effect of oxygen concentration on the magnitude of actions of heat shock during maturation. Maturation was at 38.5 degrees C for 22 h (control) or 41 degrees C for 12h and 38.5 degrees C for 10h (heat shock). Heat shock slightly decreased cleavage rate, regardless of the maturation conditions, and decreased blastocyst development under all maturation conditions except for the group matured under high oxygen and high glucose (temperature x glucose for oocytes under low oxygen, P<0.05). The percentage of oocytes becoming blastocysts for control and heat shocked oocytes was 25.9% versus 22.5% (low oxygen -- 5.6 mM glucose), 41.6% versus 34.9% (low -- 20 mM), 41.7% versus 35.0% (high -- 5.6 mM), and 37.6% versus 37.5% (high -- 20 mM). In conclusion, under an oxygen tension that approached physiological conditions, heat shock during in vitro maturation reduced oocyte competence for fertilization and subsequent development.     

In vitro maturation of follicular oocytes of the Giant Panda (Ailuropoda melanoleuca): a case report

The Giant Panda is an endangered species that would benefit from biotechnological assistance in reproduction. However, because there are only a few of these animals left in the world, scientists hesitate to use them for research procedures. We were fortunate to obtain ovaries from a Giant Panda that died of hepatic cirrhosis during the nonbreeding season. Oocytes were harvested within 4 h of death by dissecting the ovarian cortex in physiological saline and collecting the cumulus-oocyte complexes from the fluid, and then were classified into large (> 125 microns) and small (100 to 124 microns) follicular oocytes and placed in TCM199 supplemented with FSH (10 micrograms/mL) and LH (20 micrograms/mL). After culture for 22 h at 37 degrees C in air with 5% CO2, response was evaluated by growth of oocytes and presence of the first polar body. Of the 26 large follicular oocytes that were harvested, 12 were considered suitable for IVM, and 14 were degenerated, had a broken zona pellucida or had lost some cytoplasm. Of the 12 cultured oocytes, all grew to a mean diameter of 141.1(SD = +/- 6.7, n = 12), and 4 released the first polar body. None of the small follicular oocytes showed growth or other signs of maturation. We conclude from our preliminary results that it is possible to obtain functional Giant Panda oocytes from ovaries obtained post mortem during the nonbreeding season.     

High environmental temperature and humidity decrease oocyte quality in Bos taurus but not in Bos indicus cows

Two experiments were conducted to assess the effects of environmental temperature and humidity on the quality and developmental capabilities of bovine oocytes. In Experiment 1, Bos taurus (Holstein and crossbred Angus) cows were subjected to 5 weekly sessions of ultrasound-guided follicle aspiration from February 16 through March 23 (cool season) and 5 sessions from May 22 through June 20 (hot season). In Experiment 2, Bos taurus (Holstein) and Bos indicus (Brahman) cows were superstimulated (Super-Ov) during the months of August (hot season) or January (cool season), and each cow was subjected to a single oocyte aspiration session. In each experiment, oocytes were classified as normal or abnormal based on ooplasm morphology and cumulus cell layers. In Experiment 1, oocytes classified as normal were in vitro matured and fertilized (IVM/IVF), and the resulting embryos cultured for 8 d. All oocytes recovered from superstimulated cows in Experiment 2 were matured and fertilized in vitro and the subsequent embryos cultured for 8 d, regardless of their morphological appearance. In Experiment 1, Bos taurus cows produced a higher (P = 0.02) percentage of normal oocytes during the cool season (75.9 +/- 8.0) than during the hot season (41.0 +/- 9.5). The percentage of fertilized oocytes developing to the 2-cell (82.4), 8-cell (65.4) and morula (46.6) stages were also greater (P < or = 0.06) during the cool season than the hot season (45.0, 21.2, 6.0 for 2-cell, 8-cell and morula stages, respectively). In Experiment 2, Bos taurus cows (Holstein) had a lower (P = 0.01) percentage of normal oocytes in the hot season (24.5 vs 80.0) and a lower (P < or = 0.003) percentage of fertilized oocytes developing to the 8-cell, morula and blastocyst stages. No difference (P > or = 0.57) in the percentage of normal oocytes or in embryo development was detected between seasons in Bos indicus (Brahman) cows. In conclusion, high environmental temperature and humidity resulted in a marked decline in the quality of oocytes retrieved from Bos taurus cows and markedly decreased their in vitro developmental capabilities. In contrast, a high percentage of oocytes retrieved from Bos indicus cows exhibited normal morphology and yielded a high proportion of blastocysts, regardless of season.     

The presence of cumulus cells on nuclear maturation of sheep oocytes during in vitro maturation

This study was carried out to investigate the role of maturation by cumulus cells and the initial bond between the cumulus cells and the oocyte on nuclear maturation of sheep oocytes. Ovaries collected from the local abattoir were transported to the laboratory in saline at 30–35 °C within 1–3 h after collection. The oocytes of follicles, 2–6 mm in diameter, were recovered by aspiration and collected in a pre-incubated (at 38.6 °C, 5% CO₂, and 100% humidity) Hepes-modified TCM 199 medium. After preliminary evaluation, the oocytes with evenly granulated cytoplasm and which were surrounded with at least two layers of cumulus cells (good quality oocytes) were selected and subjected to culture in pre-incubated bicarbonate-buffered TCM 199 supplemented with 0.05 IU/ml recombinant human follicle stimulating hormone (rhFSH), 1 IU/ml human chorionic gonadotropin (hCG), and 1 μg/ml estradiol (OCM: oocyte culture medium). Before culturing, the selected oocytes were randomly divided into four treatment groups: Group 1, cumulus enclosed oocytes cultured in OCM; Group 2, denuded oocytes cultured in OCM; Group 3, denuded oocytes co-cultured with a cumulus cell monolayer in OCM; Group 4, denuded oocytes cultured in OCM in the presence of cumulus cells-conditioned medium. After an incubation period (26–27 h), the nuclear status of the oocytes in each treatment group was assessed using a 2% orcein stain. The rate of oocytes reaching the metaphase II (MII) stage (metaphase of second stage of meiosis division) was 82%, 5%, 11%, and 47% for Groups 1, 2, 3, and 4, respectively. The differences between groups were significantly (P < 0.05) different. The percentage of MII oocytes in Group 4 (47%) was higher than that obtained in Group 3 (11%), indicating a higher efficiency in a cumulus cell-conditioned medium, compared to the cumulus cells monolayer in providing the proper condition for sheep oocyte nuclear maturation. The results suggest the ability of sheep oocytes to resume meiosis in the absence of gap junctional communication (GJC) between the cumulus cells and oocyte being drastically interrupted while for optimum oocyte nuclear maturation, the intact physical contact between the oocyte and cumulus cells is essential.     

In vitro maturation and fertilization of oocytes from Norwegian semi-domestic reindeer (Rangifer tarandus )

Reindeer oocytes were submitted to in vitro maturation, fertilization and culture (IVM,IVF,IVC) using the established procedures for bovine in vitro embryo production. The study was conducted outside the main breeding season. Semen was collected from epididymides immediately after slaughter, and was diluted in Tris-fructose-citric acid extender containing 6% glycerol and 20% egg-yolk and then frozen in liquid nitrogen. Following 24 h of maturation, cumulus expansion was complete, and 71% of the oocytes reached Metaphase II (MII), with extrusion of the first polar body. Of the remaining oocytes, 22% were at the germinal vesicle stage (GV), 2% at diakinesis and 5% at Metaphase I (MI). The percentages of fertilization and cleavage were 36.0 and 31.8%, respectively. Two of the fertilized oocytes developed to the morula stage after 7 d of culture.     

Comparative study of reproductive biology in single- and multiple-spawner cyprinid fish. I. Morphological and histological features

To clarify the dynamics and regulation of oogenesis in single- and multiple-spawning cyprinid fish with group-synchronous oocyte development, a multidisciplinary approach to their reproduction was undertaken using three species from the River Meuse (Belgium): the roach Rutilus rutilus as a single spawner, and the bleak Alburnus alburnus and the white bream Blicca bjoerkna as multiple spawners. The gonadosomatic index (GSI) and histomorphometric changes (distribution of oocyte size, relative proportion of the various oocyte stages) in the ovary are compared. Different patterns of GSI and oocyte growth were observed both between the single- and multiple-spawner fish and between the two multiple spawners. Maximum GSIs were higher in roach (21%) than in bleak and white bream (17.7 and 14.5%, respectively), and compared to the rapid decline of GSI in the roach population, the GSI of multiple spawners decreased progressively during the spawning season. In roach, a short gonadal quiescent period and an early onset of vitellogenesis was recorded from late summer onwards whereas, in bleak and white bream, exogenous vitellogenesis was not systematically observed before winter. A protracted spawning season and/or a low water temperature in autumn are hypothesized to explain this long period of gonadal quiescence. In bleak, during the spawning season, the oocytes recruited arose from the stock of endogenous vitellogenesis and attained the final maturation stage very rapidly. This recruitment occurred during the whole spawning season. In white bream, the differentiation of vitellogenic oocytes from smaller oocytes was completed before the onset of the spawning season. During the spawning period, the proportion of vitellogenic oocytes decreased progressively whereas the percentage of oocytes in the final maturation stage remained approximately constant.     

Effects of cooling ovaries before oocyte aspiration on meiotic competence of porcine oocytes and of exposing in vitro matured oocytes to ambient temperature on in vitro fertilization and development of the oocytes

Experiments were conducted to evaluate the effects of cooling porcine ovaries to low temperature (4 degrees C, 15 degrees C, 20 degrees C, 25 degrees C or 30 degrees C) for 1 h on the meiotic competence of their oocytes. Moreover, it was determined whether or not the exposure of in vitro matured oocytes to ambient temperature (20 degrees C, 25 degrees C or 30 degrees C) for 1 h affects the fertilization and developmental competence of the oocytes. There was no difference between the proportions of oocytes that underwent maturation to metaphase II when isolated from control ovaries held at 35 degrees C and ovaries exposed to 30 degrees C. However, the percentages of oocytes from ovaries exposed to 25 degrees C or less were significantly lower than those of oocytes from ovaries exposed to 30 degrees C and control ovaries. The proportions of total and normal fertilization of oocytes that had been exposed to 20 degrees C before in vitro fertilization (IVF) were significantly lower than those of control oocytes maintained at 38.5 degrees C. However, cooling in vitro matured oocytes had no effects on their cleavage and development to blastocysts after IVF. These data suggest that exposing porcine ovaries to a low temperature of 25 degrees C or less before aspiration of oocytes may adversely affect their subsequent in vitro maturation. It may be necessary to maintain the oocytes at a temperature of more than 25 degrees C during manipulation of oocytes for retaining the fertilizability of the oocytes.     

Effect of a single subcutaneous injection of melatonin on estrous response and conception rate in goats

The objectives of this study were to evaluate the effect of a single subcutaneous injection of melatonin, on estrous induction and conception rate during the non-breeding season at different times of the year. In Experiment 1 the melatonin powder was dissolved in an oily vitamin A, D, E solution and injected subcutaneously randomly to goats in two dose treatment groups of 20 mg (MLT-20; n = 20) and 40 mg (MLT-40; n = 20) in January (winter). Twenty does were injected with 1 ml vitamin A and served as the control. In the MLT-20 treated goats 70% of the does were in estrus within 20.0 ± 2.0 days, whereas in the MLT-40 group 85% of the does were in estrus within 15.5 ± 2.5 days and 100% and 80% of the does, respectively, conceived on mating with the bucks. Only 10% of the untreated control does exhibited estrus, but none conceived. The breeding season was thus initiated earlier by 1–1.5 months in the treated goats. In Experiment 2, goats were treated with similar MLT-20 and MLT-40 treatments in May (spring), with 20 goats in each treatment group and 20 control goats. The proportion of goats that responded to the melatonin treatments was 80% and 90% in the MLT-20 and MLT-40 treatments, respectively, with no significant differences recorded regarding the estrous response. However, in the MLT-20 treatment group the estrous induction interval was significantly longer (P < 0.05), compared to the MLT-40 treatment. The pregnancy rates were not significantly different for the MLT-20 and MLT-40 treatments, with melatonin resulting in significantly higher pregnancy rates than in the control (88.4% versus 33.3%) and the breeding season initiated 2 months earlier. It could be concluded that a single subcutaneous injection of melatonin can initiate the breeding season (irrespective of the season of the year) earlier by 1–2 months in goats and this could be advantageous when using accelerated breeding systems.     

Trophic ecology of the Grey Wagtail Motacilla cinerea before and during the breeding season in the region of Bejaia (Algeria)

The diet composition of the Grey Wagtail Motacilla cinerea of the Babor Range is followed by analysis of faecal samples (90 faeces) before and during the breeding season 2010. The Grey Wagtail's diet varies depending on the stage of the breeding cycle at the southern edge of their breeding area in North Africa (Bejaia). The diet consists predominantly of aquatic preys (51.79%), with Coleoptera being the most frequent constituent (n = 331, 45.5%). During the pre-laying period (February–March), the diet was variable (91 prey-taxa and H’ = 3,36 bits) and preys of medium size (5 to 8 mm) were most common. During the incubation period (April–May), preys were mainly aquatic (60%) and larger (20 to 32 mm). At the end of the breeding season (June–July), there was a greater occurrence of terrestrial preys (31 aquatic versus 30 terrestrial taxa).     

Ovarian structure and batch fecundity in Lophiomus setigerus

The ovarian structure and batch fecundity of anglerfish Lophiomus setigerus were examined from specimens collected in the East China Sea during March 1991 to September 1995. The right and left ovarian lobes were connected at their posterior ends. Stalk-like ovigerous lamellae protruded from the ovarian wall. During the spawning season, gelatinous material was secreted from the epithelia of both the ovigerous lamellae and ovarian wall, and these epithelia showed morphological changes accompanying the ovarian maturation cycle. Tertiary yolk, migratory nucleus, and mature stage oocytes occurred in the ovaries between May and November, when females with postovulatory follicles and developing vitellogenic oocytes were collected also. These results suggested an extended spawning season during which females undergo repeated spawnings. When the most advanced oocytes attained the secondary yolk stage, they formed a batch that separated from the adjacent group of smaller oocytes. Batch fecundity ( F ) in 20 females with secondary yolk stage ovaries was related to total length (L_T, mm) as F= 556.2 L_T^1.157 (300≤L_T≤396).     

In vitro survival and development of goat preantral follicles in two different oxygen tensions

The aim of the present study was to evaluate the effect of two different oxygen (O₂) concentrations on survival and development of preantral follicles of goats cultured in vitro. Preantral ovarian follicles (≥150 μm) were isolated from ovarian cortex fragments of goats and individually cultured for 30 days under two different O₂ concentrations (5% and 20% O₂). Follicle development was evaluated on the basis of antral cavity formation, increase in follicular diameter, presence of healthy cumulus oocyte complexes and fully grown oocytes. Results showed with progression of culture period from 6 to 12 days, a decrease in follicular survival was observed in both O₂ concentrations (P < 0.05). When the O₂ tensions were compared to each other in the different days of culture, 20% O₂ was more efficient in promoting an increase in follicular diameter from day 24 of culture onward than 5% O₂ (P < 0.05). However, follicles cultured with 5% O₂ had an increased percentage of antrum formation from 12 days to the end of culture, compared with 20% O₂ (P < 0.05). Moreover, there was no difference in percentage of fully developed oocytes with the different O₂ tensions. However, only oocytes (16.7%) from follicles cultured in 20% O₂ resumed meiosis. In conclusion, concentration of 20% O₂ was more efficient in promoting follicular growth and oocyte meiosis resumption from preantral follicles of goats when grown in vitro.     

Effect of age and breeding season on the developmental capacity of oocytes from unstimulated and follicle-stimulating hormone-stimulated rhesus monkeys

Effects of age and season on the developmental capacity of oocytes from unstimulated and FSH-stimulated rhesus monkeys were examined. Immature cumulus-oocyte complexes were matured in vitro in modified CMRL-1066 medium containing 20% bovine calf serum and subjected to in vitro fertilization followed by embryo culture. After fertilization, ova from unstimulated prepubertal monkeys displayed lower development to morula (4%) than those from unstimulated adult females (18% in breeding season and 22% in nonbreeding season). No developmental difference was found between ova from unstimulated adult monkeys in breeding and nonbreeding seasons. However, ova from FSH-primed prepubertal monkeys displayed greater development to blastocyst stage (54%) than those from adult monkeys in the breeding season (16%) and nonbreeding season (0%); and ova from FSH-primed adult females in the breeding season had significantly (P < 0.05) greater developmental competence than those obtained in the nonbreeding season (> or = morula stage, 54% vs. 3%; blastocyst stage, 16% vs. 0%). These data indicate that 1) rhesus monkey oocytes acquire developmental competence in a donor age-dependent manner, and 2) animal age and breeding season modulate the effect of FSH on oocyte developmental competence in the rhesus monkey.     

Kinetics of nuclear maturation and protein profiles of oocytes from prepubertal and adult cattle during in vitro maturation

The aim of this present study was to compare the kinetics of nuclear maturation between calf and cow oocytes in order to determine if there are differences between the 2 groups which could explain their disparate developmental capacity. The constitutive and neosynthetic protein patterns of cow and calf oocytes and of their corresponding cumulus cells were also compared during in vitro maturation. A total of 397 calf oocytes and 406 cow oocytes was matured in M199 + 10 ng/mL EGF. The first group of oocytes (n = 30) was immediately fixed and stained after removal from the follicle, and represent 0 h. The remaining oocytes were removed from the maturation medium at 4, 8, 12, 16, 20 and 24 h respectively. Half were denuded, fixed and stained for nuclear status; while the remainder were radiolabeled with methionine-(35S). Immediately after isolation, all the oocytes were at the GV stage. By 8 h, GVBD had occurred in most oocytes (calf: 97%; cow: 100%) and some had reached pro-metaphase I (calf: 49%; cow: 51%). By 12 h, most of the oocytes were at metaphase I (calf: 84%; cow: 94%). By 16 h, 54% of calf oocytes had reached telophase I or beyond compared with 71% of cow oocytes. This difference between the 2 groups became significant by 20 h, with 89% of cow oocytes (P < 0.05) at metaphase II and 71% of calf oocytes. By 24 h of culture, GVBD had occurred in all cases. Most oocytes completed meiosis I and were arrested at metaphase II with the first polar body extruded (calf: 72%; cow: 86%). No differences were noted in the constitutive and the neosynthetic protein profiles of cumulus cells in relation to the age of animal. Changes in neosynthetic protein patterns were observed both in cow and calf cumulus during IVM, and several proteins showed stage-specific synthesis. For the constitutive protein patterns of cow and calf oocytes, there were quantitative (38 and 40 kD) and qualitative (4, 10, 16, 17, 24, 25 and 26 kD) differences between the 2 groups. Only a few differences were observed in neosynthetic proteins between cow and calf oocytes, but there were changes in relation to nuclear status both in cow and calf oocytes. In conclusion, the difference in developmental capacity between cow and calf oocytes may be explained by a difference in the kinetics of nuclear maturation, which was significant at 20 h of culture (with 89% of cow oocytes at metaphase II and 71% of calf oocytes). At the biochemical level, our results indicate that nuclear progression during in vitro maturation of bovine oocytes is linked to changes in protein synthesis by the oocyte itself, while cumulus protein synthesis may either stimulate or modulate the process of oocyte maturation.     

The effects of EGF and IGF-1 on FSH-mediated in vitro maturation of domestic cat oocytes derived from follicular and luteal stages

The objective of this study was to evaluate the influence of epidermal growth factor (EGF) and insulin like growth factor-I (IGF-1) on the in vitro maturation of cat oocytes recovered from follicular and luteal stage ovaries. Oocytes from follicular (n = 580) and luteal (n = 209) stages were harvested and divided into four groups, which were cultured in FSH-mediated maturation medium supplemented with: (1) EGF alone (25 ng/mL); (2) IGF-1 alone (100 ng/mL); (3) EGF + IGF-1 (25 ng/mL EGF + 100 ng/mL IGF-I); or (4) no growth factor (control). The proportion of follicular stage oocytes reaching the metaphase II stage was significantly higher than that of oocytes obtained at the luteal stage in both control and study groups (p < 0.001). The percentages of oocytes reaching the metaphase II stage during the follicular period were 62.6% in control; 70.9% in EGF; 72.8% in IGF-1, and 78.1% in EGF + IGF-1 groups, whereas the respective values for gametes collected from luteal stage ovaries were 12.5%, 17.5%, 12.5%, and 16.9%. Additionally, the differences between the study and control groups were significant in the case of follicular stage oocytes. Finally, supplementing the maturation medium with EGF and/or IGF-1 significantly enhanced the meiotic maturation of oocytes recovered from follicular stage ovaries. The present study also demonstrated that the combination of EGF and IGF-I provides an additional or synergic effect on meiotic maturation of oocytes recovered from the follicular stage.     

The effect of relaxin supplementation of in vitro maturation medium on the development of cat oocytes obtained from ovaries stored at 4 °C

Relaxin is a member of the insulin-like family of hormones that promotes growth in a number of reproductive tissues, including the granulosa and theca cells. Cat oocytes collected from cold-stored ovaries remain capable of maturing in vitro, but the developmental ability of the oocytes decreases after 24 h of cold storage. To improve the developmental ability of cat oocytes from cold-stored ovaries, we investigated the effect of relaxin supplementation of maturation medium on their meiotic ability and subsequent development. Cat oocytes were collected from ovaries stored at 4 °C for one day and cultured in maturation medium supplemented with different concentrations (0, 10, 20, and 40 ng/ml) of relaxin for 24 h. They were then fertilized in vitro for 12 h with frozen-thawed spermatozoa. After in vitro fertilization, the zygotes were cultured in synthetic oviduct fluid medium for 8 days. There were no significant differences in the maturation rates and glutathione contents of oocytes among the groups, irrespective of relaxin supplementation. The rate of blastocyst formation from oocytes matured with 10 ng/ml relaxin (16.0%) was higher (p < 0.05) than that from oocytes matured without relaxin (5.9%). Our findings indicate that supplementation of 10 ng/ml relaxin into maturation medium may improve blastocyst formation of cat oocytes after in vitro fertilization.     

Aspiration of oocytes from transitional, cycling, and pregnant mares

The aim of this study was to compare the efficacy of three approaches for recovering equine oocytes via transvaginal ultrasound-guided follicular aspiration. Fourteen mares were used as oocyte donors during the spring transition period and physiologic breeding season, and 11 mares were bred for use as oocyte donors during early gestation. In all mares, large (>20 mm) and small (10–20 mm) follicles were aspirated in eight rounds every 10–11 days. In each of the four rounds during the transition period, half the mares received 12.5 mg eFSH once daily for 4 days prior to aspiration. For each of the four rounds during the cycling season, half the mares received 12.5 mg eFSH twice daily for 3 days prior to aspiration. Pregnant mares were aspirated on days 25, 40 and 55 of gestation and received no eFSH. There were more large (>20 mm) follicles in cycling controls (2.25 ± 0.27) and cycling FSH-treated (2.64 ± 0.27) mares than in transitional FSH-treated mares (1.18 ± 0.27). The number of oocytes recovered from small (10–20 mm) follicles varied by mare (P < 0.05) and averaged 1.08 ± 0.22 per aspiration for transitional mares and 1.23 ± 0.22 per aspiration for cycling mares (P > 0.1). The number of oocytes per aspiration from large follicles was greater in cycling FSH-treated mares (0.46 ± 0.09) than in transitional control mares (0.11 ± 0.09). In pregnant mares, more large follicles were present at day 25 than at any other time, and the number of oocytes per aspiration from large follicles was greater at day 25 (0.73 ± 0.16) than at day 55 (0.04 ± 0.18). When compared across all seasons and treatments, the day 25 pregnant mares yielded the greatest number of oocytes per aspiration (2.91 ± 0.66 per mare).