Follicular characteristics and intrafollicular concentrations of nitric oxide and ascorbic acid during ovarian acyclicity in water buffalo (Bubalus bubalis)

The objective of this study was to examine the follicular characteristics and intrafollicular concentrations of nitric oxide and ascorbic acid during ovarian acyclicity in buffaloes. Ovaries were collected from 56 acyclic and 95 cyclic buffaloes at slaughter, surface follicle number was counted and follicles were classified into small (5.0–6.9 mm), medium (7.0–9.9 mm), and large (≥10.0 mm) size categories based on their diameter. Follicular fluid was aspirated and assayed for nitric oxide, ascorbic acid, estradiol, and progesterone. Acyclic buffaloes had a higher (P < 0.05) number of medium-sized follicles and a lower (P < 0.001) number of large follicles than the cyclic ones. In acyclic animals, the number of large follicles was lower (P < 0.01) than in medium size category which in turn was lower (P < 0.001) than the number of small follicles. In contrast, the number of medium and large follicles was not different (P > 0.05) in the cyclic control. However, the number of small-sized follicles was higher (P < 0.001) compared to the other two categories. The incidence of large-sized follicles was lower (P < 0.05) in acyclic buffalo population compared to the cyclic control. Evaluation of estrogenic status demonstrated that all the follicles of acyclic buffaloes are estrogen-inactive (E ₂/P ₄ ratio < 1). Small- and medium-sized follicles of acyclic buffaloes had higher concentrations of nitric oxide (P < 0.05 and P < 0.001, respectively) and lower concentrations of ascorbic acid (P < 0.05 and P < 0.01, respectively) than the corresponding size estrogen-active follicles of their cyclic counterparts. In conclusion, this study indicates that follicular development continues during acyclicity in buffaloes. Although follicles in some acyclic buffaloes attain a size corresponding to morphological dominance, they are unable to achieve functional dominance, perhaps due to an altered balance of intrafollicular nitric oxide and ascorbic acid and, as a result, these follicles instead of progressing to ovulation undergo atresia.     

Follicular Fluid Prolactin and the Periovulatory Prolactin Surge in the Mare

Prolactin may play multiple roles in equine reproduction. Prolactin appears to be associated with seasonal reproduction, and fluctuating prolactin levels during the estrous cycle suggest that it may play a role in estrous cyclicity as well. The purpose of this research was to investigate the activity of prolactin during the follicular phase of the estrous cycle. In experiment 1, prolactin concentrations were determined from plasma samples collected at least every other day throughout the estrous cycle. Periovulatory (ovulation ± 1 day) prolactin concentrations were compared with concentrations during early diestrus (days 2−10 postovulation). In experiment 2, prolactin concentrations were measured in follicular fluid collected from 74 follicles of various sizes. Follicles were grouped into small (≤20 mm), medium (21−35 mm), and large (>35 mm) size categories. Prolactin concentrations increased during the periovulatory period in cycling mares. This periovulatory surge was superimposed on baseline prolactin concentrations that varied with season. Prolactin was present in significant quantities in the follicular fluid. Follicular fluid prolactin concentrations were lowest in small follicles and increased in medium and large follicles. Concentrations did not differ between medium and large follicles. Follicular fluid prolactin concentrations were lower in autumnal follicles compared with summer follicles of comparable size. It is possible that the short-term surge in circulating prolactin around ovulation could be linked to the significant levels of prolactin in follicular fluid. Ovulation releases a relatively large volume of fluid into the peritoneum. The prolactin in this fluid could be a contributor to the periovulatory prolactin surge.     

Follicular Dynamics and Oestrous Detection in Thai Postpartum Swamp Buffaloes (Bubalus bubalis)

This study characterized follicular activity and oestrous behaviour from 5 to 9 days post‐calving up to the 4th ovulation postpartum (pp) in 16 multiparous (range 2–7 parities) Thai swamp buffalo cows (Bubalus bubalis), aged 4–12 years and weighing from 432 to 676 kg. Ovarian follicular activity was examined by transrectal ultrasonography (TUS) every morning. Oestrous detection was performed twice daily by direct personal observation of behaviour and for presence of clear cervical mucus discharge and indirectly by video camera recording during 21 h/day. A follicular wave‐like pattern was present before the 1st ovulation leading to short oestrous cycles. Growth rates and maximum diameters of the ovulatory follicles did not differ between the 1st and 4th ovulations. However, growth rate for non‐ovulatory dominant follicles (DF) before the 1st ovulation was lower than for the ovulatory follicle (p < 0.05). In addition, the diameter of all ovulatory follicles (14.3 ± 0.46 mm, n = 39) was significantly larger (p < 0.01) than those of the preceding last but one non‐ovulatory DF (10.8 ± 0.20 mm, n = 5), but similar to the last preceding non‐ovulatory DF diameter (12.92 ± 0.96 mm, n = 14). Short oestrous cycles were most common between the 1st and 2nd ovulations (93.75%, 15/16 cows, 10.2 ± 0.38 days) decreasing in prevalence thereafter (50%, 3/6 buffaloes, 12.0 ± 1.53 days). Oestrous signs were relatively vague around the 1st ovulation pp to become more easily detectable thereafter. This study suggests that properly fed swamp buffaloes could be mated successfully within 2 months pp, at their 2nd spontaneous ovulation, provided oestrous detection is at least performed daily at 06:00–08:00 hour.     

Effect of Dose of Cloprostenol on the Interval to Ovulation in the Diestrous Mare: A Retrospective Study

Although the ovulatory effects of prostaglandins are well documented in several domestic species including horses, there has been little attention paid to the use of this ovulatory effect for clinical purposes. Mares often grow large follicles during the luteal phase that may or may not ovulate before progesterone levels decline. Clinical observations of administering prostaglandins in diestrous mares with large follicles suggest that there may be a negative correlation between follicular diameter and interval from treatment to ovulation. The objectives of this study were twofold: to investigate the cloprostenol dose rate effect on interval to ovulation and to confirm the negative correlation between follicular diameter and interval to ovulation. The hypothesis tested was that high doses of cloprostenol given in diestrus to mares with larger follicles would induce ovulation more rapidly than in mares given lower doses or with smaller follicles. To test the hypothesis, a total of 1,234 estrous cycles were induced with different doses of cloprostenol (ranging from 8.75 to 625 μg). All mares had at least one follicle of 28 mm or larger. Dominant follicles were followed by transrectal ultrasound examinations every other day until ovulation was detected. There was a significant effect of dose (P < .000) and follicular diameter (P < .000) on the interval from treatment to ovulation. The shortest mean interval (2.4 days) was observed after administration of 625 μg in mares with follicles 36 mm or larger, whereas the longest (4.9 days) occurred after 8.75 μg in follicles of 28 to 31 mm.     

Application of ultrasonography in the study of the reproductive system of tropical jennies (shape Equus asinus)

The use of high-frequency (5 MHz) ultrasonography was studied in 11 jennies (7 non-pregnant and 4 pregnant) to characterize the reproductive organs and follicular activities at different stages of reproduction. The result showed close similarity with the mare. The visibility of endometrial folds increased towards ovulation. A positive correlation (p < 0.001; τ = 0.79) was found between the score of the folds and the size of the dominant follicle. The diameter of the uterus and the size of the dominant follicle were significantly correlated (p < 0.001; τ = 0.80). In pregnant jennies, an embryonic vesicle was detectable at 14 days. Follicular growth was characterized by more than one wave. The smallest ovarian follicle was 2 mm and the largest 40 mm. Depending on the reproductive stage, up to 13 follicles were detected per ovary. After monitoring 84 cycles, a mean (±SD) diameter of 34.4 ± 3.6 mm (27.5–40.2 mm) of the preovulatory follicle and 67.85% incidence of single ovulation were found. The mean (±SD) interovulatory interval was 25.7 ± 6 days. This study proved that high-frequency ultrasonography is highly effective in characterizing the reproductive organs and follicular activity of jennies and could be useful in the reproductive management of donkeys.     

母水牛发情周期卵泡发育动态初步研究

运用B-型超声波仪观察了自然发情的6头河流型母水牛和6头沼泽型母水牛的卵泡发育动态,发现河流型母水牛的发情周期由2个卵泡发育波组成;沼泽型母水牛以2个卵泡发育波为主(66.7%,4/6)。河流型水牛2个卵泡波分别在发情周期的第1.3、12.2天出现,其第1波征集、选择卵泡数分别为14.8和2.5个,第2波分别为14.2和3.2个;沼泽型水牛2个卵泡波分别在发情周期的第1.1、11.0天出现,其第1波征集、选择卵泡数分别为8.0和1.0个,第2波分别为7.8和1.5个。以上数据的各波征集卵泡数和选择卵泡数中,河流型水牛和沼泽型水牛之间差异显著(P0.05)。     

Ultrasonographic studies on ovarian dynamics and associated estrus manifestations of jennies under controlled management, Ethiopia

A serial ultrasonographic study was conducted on nine jennies aged 5–15 years from January to April 2008 with the objective of studying ovarian follicular dynamics and estrus manifestations under controlled management. Ovarian follicular activity was determined from the number and size distribution of follicles, length of interovulatory interval (IOI), growth rate of preovulatory follicles, diameter of follicles at the onset of estrus, and incidence of ovulation. Estrus manifestations were characterized using length of estrus and estrous cycle. The mean (±SD) number of follicle detected per ovary was 5.45?±?2.3 (range, 1–16) with sizes ranging from 2.9 to 44 mm. The mean (±SD) size of follicle encountered at the onset of estrus was 25.9?±?3.7 mm (range, 20.9–34.4) while that of the preovulatory follicles at ?1 day before ovulation was 36.81?±?3.78 mm. The mean (±SD) IOI, estrus, and estrous cycle length were 25.4?±?3.6, 7.9?±?2.9, and 24.2?±?7.4 days, respectively. The mean (±SD) growth rate of the preovulatory follicle after the day of divergence was 1.9?±?0.3 mm/day. Serum progesterone profile followed the same patterns of ovarian dynamics with maximum values being detected during midluteal phase. Serum progesterone assay revealed blood progesterone profiles of <1.0 ng/ml during estrus and up to 11 ng/ml during midluteal phase with a pattern following follicular dynamics. Body condition of the study jennies steadily increased and was positively correlated (r?=?0.52, p?<?0.001) with the diameter of the preovulatory follicle. In conclusion, the ultrasonic evaluation has revealed that follicular dynamics of jennies were generally related with body condition which might have been influenced by the type of management.     

Efficiency of two timed artificial insemination protocols in Murrah buffaloes managed under a semi-intensive system in the tropics

The objective of the study was to determine the efficiency of ovsynch (OV) versus presynch-ovsynch (P-OV) protocol for synchronization of ovulation and timed artificial insemination (TAI) in female buffaloes. The OV group (n = 40) received gonadotrophin-releasing hormone (GnRH) on day 0 (random day of the estrous cycle), prostaglandin ( PGF_2a ) \left( {{\hbox{PG}}{{\hbox{F}}_{2\alpha }}} \right) on day 7 and a second GnRH administration on day 9 followed by a single artificial insemination (AI) 16-20 h later. The P-OV group (n = 40) received two PGF_2a {\hbox{PG}}{{\hbox{F}}_{2\alpha }} injections 14 days apart, with the second injection administered 14 days before starting the OV protocol. Progesterone (P₄) was measured at the time of PGF_2a {\hbox{PG}}{{\hbox{F}}_{2\alpha }} administration (within the OV protocol) and AI. Neither ovulation rate ((24 h after TAI) OV 90%-36/40 vs. P-OV 85%-34/40) nor pregnancy rates ((day 60 after TAI) OV 35%-14/40 vs. P-OV 45%-18/40) differed between the two protocols. Pregnant buffaloes had lower concentrations of P₄ at AI compared with non-pregnant animals in the OV group (0.7 ± 0.1 vs. 1.1 ± 0.1 ng/ml); but in the P-OV group, differences did not reach statistical significance (0.8 ± 0.1 vs. 1.0 ± 0.1 ng/ml). This apparent trend reached statistical significance when the analysis was carried out in animals from both protocols (0.7 ± 0.1 (pregnant) vs. 1.1 ± 0.1 (non-pregnant) ng/ml). In conclusion, both protocols synchronize ovulation effectively with no significant differences in conception rates. High concentrations of P₄ at AI seem to be detrimental for the establishment of pregnancy in lactating buffalo cows.     

不同卵泡波类型水牛生殖激素变化的试验研究

为了了解不同卵泡波类型水牛的生殖激素变化情况与卵泡波之间的关系,试验对已探明卵泡波类型的6头沼泽型水牛采集经同期发情处理后的血样,采用放射免疫测定法(RIA)测定其血清生殖激素浓度,分析比较不同卵泡波类型水牛的生殖激素变化情况。结果发现3个卵泡波青年水牛的促卵泡素(FSH)水平在发情周期第15 d后明显高于表现为2个卵泡波的青年水牛(P<0.05);黄体素(LH)水平则相反,在第15 d前,2波周期的青年水牛其黄体素(LH)水平明显高于3波周期的青年水牛。3波周期的青年水牛,其E2、P4水平要高于2波周期的青年水牛。血清促卵泡素(FSH)、黄体素(LH)、雌二醇(E2)、孕酮(P4)水平在表现为不同卵泡波类型的水牛中并不存在显著差异(P>0.05)。     

Cyclical changes in collagen concentration in relation to growth and development of buffalo corpus luteum

In the present study, changes in luteal fresh weight and concentration of collagen in cyclic buffalo corpus luteum were investigated at 4 stages of its growth and development/regression. The collagen concentration was determined by estimating hydroxyproline, a collagen specific amino acid present in luteal tissues. The mean fresh weight increased (P < 0.001) over the luteal phase, reached maximum at late-luteal stage and decreased (P < 0.001) subsequently at follicular stage. The weight of the mature CL was 2.5 times heavier than the CL haemorrhagicum and regressing CL. Results showed that cyclic buffalo CL contains collagen at all 4 stages of development during oestrous cycle. The collagen in luteal tissues constitutes about 0.9% to 1.2% of luteal fresh weight with the highest content appearing in mature tissue. The concentration of collagen increased (P < 0.001) with the stages of CL development over the luteal phase and the highest concentration was recorded at follicular phase with the decline of luteal weight. The total content of collagen per CL also showed the same trend during luteal phase but decreased at follicular phase with the loss of luteal tissues. In conclusion, collagen concentration in cyclic buffalo CL changes with the growth and development of CL across the oestrous cycle. The synthesis of collagen is faster between early- to mid-luteal stage than mid- to late-luteal stage.     

Temporal changes in circulating levels of plasma interleukin-8 during peripartum period in Murrah buffaloes (Bubalus bubalis) under subtropical climate

The objective of this study was to elucidate the changes in circulating levels of plasma interleukin-8 (IL-8) during peripartum period in Murrah buffaloes (Bubalus bubalis). IL-8 was estimated in blood plasma of healthy peripartum Murrah buffaloes (n = 6) on days ±30, ±15, ±5, ±3, ±1 and 0 pre- and postpartum with respect to the day of parturition (day 0) in each of the two different seasons (hot–humid and spring). The mean microclimate Temperature–Humidity Index (THI) during spring season was significantly lower (p < 0.01) than the corresponding THI in hot–humid season. In both the seasons, plasma IL-8 remained lower in prepartum period (≤46.56 ± 14.08 pg/ml during spring and ≤ 73.18 ± 18.56 pg/ml during hot–humid season) than in the postpartum period (≥51.41 ± 13.82 pg/ml during spring and ≥ 84.13 ± 16.97 pg/ml in hot humid season). During spring, the IL-8 levels were significantly higher (P < 0.05) on days +5 and +15 postpartum in comparison to the IL-8 levels on days −30, −5, and −3 prepartum. During hot–humid season, IL-8 level was significantly higher (P < 0.05) on day +30 as compared to the IL-8 levels on days −30 and −5 prepartum. The correlation between IL-8 and mean microclimate THI was significant (r = 0.25, P < 0.01). From the results, it is concluded that peripartum period in buffaloes is associated with an inflammatory response leading to significantly higher plasma IL-8 during parturition and postpartum period than in the pre-partum period.     

Steroid hormone profile of Markhoz does (Iranian Angora) throughout estrous cycle and gestation period

The present study aims were to determine the profiles of changes in progesterone (P4) and 17-β-estradiol (E2) in the peripheral blood of Markhoz goat (Iranian Angora) during estrous cycle, gestation, and parturition throughout natural breeding season. Gestation length averaged 145.3 ± 0.8 days, and the litter size was 1.1 ± 0.1. Birth weight ranged 2.4–2.8 and 1.5–2.5 kg in male and female kids, respectively. The mean estrous cycle lengths were 20.3 ± 0.4 and 20.9 ± 0.4 days for PGF_2α-induced and natural cycles, respectively. Blood sampling was carried out daily during estrous cycle and weekly during gestation till parturition. E2 attained higher level (24.7 ± 2.15 pg mL⁻¹) at estrus phase and dropped down to the lower level (18.80 ± 1.16 pg mL⁻¹) within 3 to 4 days post-estrus. Concomitantly, P4 started to increase from the mean basal value of 0.5 ± 0.03 ng mL⁻¹ on day 0 to 6.88 ± 0.95 ng mL⁻¹ on day 6 of estrous cycle and reached the peak value of 12.8 ± 0.61 ng mL⁻¹ on day 12. From day 15, a decline was observed in P4 values till the end of the cycle. P4 remained at lower concentrations for 20–50 days of gestation, then increased and reached to its maximum level (13.51 ± 0.279 ng mL⁻¹) in week 15 and returned again to its basal values within 1–2 weeks before parturition. The results will be discussed in terms of the usage of steroid hormone profile in several assisted reproductive technologies.     

Dominant follicles development and estradiol‐17β concentrations in non‐ovulating and ovulating post‐partum Bulgarian Murrah buffaloes

This study was designed to evaluate the dominant follicles development and the estradiol‐17β concentrations in non‐ovulating and ovulating post‐partum buffaloes. Sixteen Bulgarian Murrah buffaloes were submitted to transrectal ultrasonographic examination from the 1st post‐partum day until day 50, 3 days apart. The follicular diameter of the different categories of follicles and the ovulations was recorded. The animals were allocated into two groups: I (n = 6) non‐ovulating and II (n = 10) ovulating buffaloes. Serum estradiol‐17β concentrations on the days for dominant follicle registration were measured by enzyme‐linked immunosorbent assay. The results were statistically processed by analysis of variance, non‐parametric and correlation analysis. The mean intervals between calving and first dominant follicle detection differed significantly (p < .05) among the groups (19.5 ± 6.2 vs. 13.8 ± 5.1 days), while the mean intervals between registered dominant follicles from two successive waves were comparable. The mean follicular diameters for the same category follicles in both groups were similar. Different estradiol‐17β concentrations (p < .05) for the first dominant follicle between non‐ovulating (23.5 ± 7.0 pg/ml) and ovulating (33.3 ± 8.4 pg/ml) buffaloes were determined. The cumulative percentages of buffaloes with firstly detected dominant follicle and ovulating animals correlated positively (r ≥ .84; p < .05) to post‐partum days. In conclusion, non‐ovulating and ovulating post‐partum Bulgarian Murrah buffaloes showed differences in the development of the first dominant follicle and estradiol‐17β concentrations during the time of dominant follicles detection.     

Progesterone supplementation during multiple ovulation treatment in buffalo species (<Emphasis Type="Italic">Bubalus bubalis</Emphasis>)

The aim of this study was to evaluate the effect of exogenous progesterone supplementation on superovulatory response in buffaloes that has undergone a multiple ovulation program. Fourteen Mediterranean buffaloes were divided into two groups and received a 4-day decreasing dosage of an equal mixture of 500 IU of FSH and LH starting on day 8 of the cycle. In group A (n = 7) a progesterone-releasing intravaginal device was removed on day 8, whereas in group B (n = 7) it was left till day 10, when PGF_2a {\hbox{PG}}{{\hbox{F}}_{{2}\alpha }} was administered. Eighty hours later, buffaloes were artificially inseminated and after 6 days they undergone uterine flushing. A higher (P < 0.05) number of corpora lutea (8.3 vs. 5.7) and embryo/flushing/buffalo (2.3 vs. 1.3) were recorded in group B vs. group A if responsive buffaloes are considered (n = 12) and the number of corpora lutea was highly correlated with the number of embryos (r = 0.65; P < 0.05). In conclusion, progesterone supplementation during the first 2 days of the superovulation treatment seems to enhance the recovery rate in buffalo species. A high ovulation rate, associated with a high number of corpora lutea, can represent a parameter for estimating embryo recovery.     

水牛有腔卵泡颗粒细胞凋亡的生物形态学特征

为了解水牛有腔卵泡闭锁的起因和有腔卵泡中是否存在卵泡颗粒细胞凋亡，本研究选择青春期前水牛和成年（发情间期和发情期）水牛的卵巢，采用石蜡组织切片、HE染色技术进行光镜观察，并采用DNA原位末端标记（TUNEL）技术和透射电镜观察研究了卵泡颗粒细胞凋亡的特征。结果表明：青春期前水牛的健康有腔卵泡上无或仅有极个别凋亡的卵泡颗粒细胞（GCs），而闭锁有腔卵泡上存在有多量凋亡的GCs，凋亡的形式：GCs层内出现单个或多个凋亡细胞，卵泡腔内出现凋亡小体群。在成年水牛发情间期的闭锁大卵泡上，GCs层弯曲皱折，存在多量凋亡的GCs。发情期水牛成熟卵泡的GCs层也存在GCs凋亡，排卵前的GCs层细胞全部脱落到卵泡腔内。本研究首次在同一组织切片上先后分别应用HE染色和TUNEL检查细胞凋亡，且证实了水牛有腔卵泡GCs凋亡的存在。超微结构显示了GCs凋亡的核边集化、核浓缩及凋亡小体的形态。上述结果提示：在水牛闭锁有腔卵泡中存在着GCs凋亡，GCs凋亡是启动水牛有腔卵泡闭锁的潜在机理。     

Uterine Infection Influences Size and Follicular Fluid Composition of the Largest Follicle in Buffalo (Bubalus bubalis)

The effect of uterine infection on size and follicular fluid composition of the largest follicle was studied in buffalo. Reproductive tracts were collected from 102 graded Murrah buffaloes at an abattoir. Uterine infection was diagnosed by physical examination of uterine mucus, white side test and uterine cytology. Samples with pus‐containing mucus, positive reaction on white side test and/or >5% neutrophils were considered to be positive for uterine infection. Diameter of the largest follicle was measured, and follicular fluid was aspirated and assayed for nitric oxide (NO), ascorbic acid (AA), cholesterol, oestradiol (E₂) and progesterone (P₄). Infected buffaloes had smaller‐sized (p < 0.0001) largest follicles than non‐infected buffaloes. Follicular fluid collected from the largest follicle in infected buffaloes had greater (p < 0.0001) NO and P₄ concentrations coincident with lesser AA (p < 0.001), cholesterol (p < 0.0001) and E₂ (p < 0.0001) concentrations. Results indicated that uterine infection has an inhibitory effect on growth of the largest follicle in buffalo. The changes in follicular fluid composition in infected buffaloes suggest that the direct effect of uterine infection on ovarian function may be mediated through an alteration in the follicular microenvironment. Greater NO and lesser AA concentrations in the follicular fluid of infected animals are novel findings.     

Effects of low-dose follicle-stimulating hormone administration on follicular dynamics and preovulatory follicle characteristics in dairy cows during the summer

The well-documented phenomenon of reduced conception rate in dairy cows during the hot season involves impaired functioning of the ovarian follicles and their enclosed oocytes. Three experiments were performed to examine the administration of low doses of follicle-stimulating hormone (FSH) to induce turnover of follicles that are damaged upon summer thermal stress and to examine whether this FSH administration has beneficial effects on preovulatory follicles. In experiment 1, synchronized heifers were treated with 100 mg of Folltropin-V (n = 7) or 4.4 mg of Ovagen (n = 6) on day 3 of the estrous cycle. Treatment with both FSH sources resulted in greater (P < 0.05) numbers of follicles than in control animals (n = 12) on day 6 of the estrous cycle, indicating that low doses of FSH can increase the number of emerging follicles in a follicular wave. In experiment 2, milking cows were assigned to a control group (n = 4) or treated with 2.2 mg (FSH-2.2; n = 6) or 4.4 mg (FSH-4.4; n = 5) Ovagen. Follicle-stimulating hormone was administrated on day 3 or 4 and day 10 or 11 of the estrous cycle, coinciding with emergence of the first and second follicular waves, respectively. The number of follicles emerging during the first wave tended to be higher (P < 0.1) in FSH-4.4-treated cows than in controls. The second-wave dominant follicles emerged 2 d later in the treated cows and were smaller in diameter (P < 0.05) than controls, 2 d before aspiration. Despite being younger, the preovulatory follicles of FSH-4.4 cows expressed a steroidogenic capacity that was similar to controls with a tendency toward greater insulin concentrations (P < 0.09). In experiment 3, milking cows were assigned to a control group (n = 6) or treated with 4.4 mg Ovagen (FSH-4.4; n = 6). Follicle-stimulating hormone was administrated on day 3 and day 12 or 13 of the estrous cycle. The number of emerging follicles was higher (P < 0.05) in the treated vs control cows. However, the features of the preovulatory follicle developed in the subsequent cycle did not differ between groups. In summary, low doses of FSH can efficiently induce follicular turnover accompanied by a modest effect on the preovulatory follicle of the treated cycle. It appears that the administration of low doses of FSH, precisely timed to synchronize with the emergence of follicular waves, might have a beneficial effect on the preovulatory follicle and its enclosed oocyte.     

Changes in the thecal vasculature during follicular atresia in the ovary of swamp buffalo

This study aimed to describe the changes in the thecal vasculature during ovarian follicular atresia in the swamp buffalo. Ovaries of Philippine swamp buffalo (Bubalus bubalis; SB), crossbred (SB x Murrah buffalo; CB) and Holstein-Friesian cow (Bos taurus; HF) were collected from slaughterhouses, fixed in 10% formalin in PBS and embedded in paraffin. Sections of healthy follicle and various follicular stages of atresia were stained with Bandeiraea simplicifolia-I lectin (BSL-I) to visualize the endothelial cells of blood vessels. In the theca interna, healthy follicles in SB had a significantly lower number of capillary vessels than other breeds and other atretic stages of follicle. From healthy to early atretic follicle, theca interna in all breeds showed a significant decrease in the area of capillary vessel. Capillary vessel area significantly increased (but was smaller than in healthy follicle) in the middle stage of atresia and declined again in the late atretic follicle (greater than in early atresia but smaller than in healthy follicle) in SB only. No significant change in the capillary vessel area of theca interna was noted in both CB and HF from early to late atretic follicles. There was no significant difference in the capillary vessel number and area of theca externa among the different breeds and atretic stages of follicle. These results suggest that there are dynamic changes occurring in the thecal vasculature of SB but not CB during follicular atresia which differs among cattle.     

Effect of ruminally protected Methionine on the productive and reproductive performance of grazing <Emphasis Type="Italic">Bos indicus</Emphasis> heifers raised in the humid tropics of Costa Rica

With the objective of evaluating the effect of methionine supplementation prior to a breeding program, thirty one heifers (Bos taurus x Bos indicus) were used averaging 386  ±  29 days of age and a mean body weight of 402.6  ±  28 kg. Fifteen of the animals received a supplement (SG) during 45 days with molasses-urea mixture (2 kg molasses + 407 g urea/head/day), plus 10 g of ruminally protected methionine. The other sixteen heifers did not receive supplement (CG). Fecal and pastures samples were collected to assess dry herbage intake and digestibility. Serial ultrasound measurements from the ovary were performed in both groups to evaluate follicular dynamics. The heifers were categorized according to their follicular size and presence of a CL. Forage intake and dry matter digestibility were reduced (P  <  0.05) and body condition tended to improve (P  =  0.07) in the supplemented heifers, however, total intake, final weight, daily gain and dorsal back fat were not affected. After the supplementation period, the percentage of females in the categories < 3 mm and 3 to < 6 mm, was greater (P  <  0.05) in CG (25% and 43.7%) that in SG (0% and 26.6%) but in the follicle category of ≥  9 mm, the percentage of animals was 60% in SG and 18.8% in CG (P  <  0.05). The percentage of ovulation for the SG and CG was 86.7% and 62.5%, respectively (P  <  0.05). The combination of supplementation with methionine-urea and molasses at the end of the dry season and the anticipated onset of the rainy season favored the establishment of ovarian activity and follicular dynamics.     

Equine placenta expresses glutamine synthetase

In most mammalian species the developing fetus utilizes large amounts of glutamine derived both from the maternal circulation and synthesized de novo in the placenta. The present study was designed to determine the role of the placenta in glutamine synthesis in the horse. The placentae from eight Standardbred mares were sampled immediately after parturition together with additional tissues obtained at necropsy from three Standbred mares during diestrous. Glutamine synthetase protein was detectable in the non-pregnant horn of the placenta in amounts similar to those seen in gluteus muscle, but the amount in the pregnant horn was two times greater than in the non-pregnant horn. Glutamine was the second most abundant amino acid in amniotic fluid at a concentration of 310 ± 26 μmole/L with that of glycine being 535 ± 48 μmole/L. The most abundant amino acids in placental tissue were glycine (3,732 ± 194 μmole/Kg), glutamate (3,500 ± 343 μmole/Kg) and glutamine (2,836 ± 208 μmole/Kg). The results illustrate the importance of glutamine to the equine fetus and establish that the placenta, particularly the pregnant horn, has considerable capacity for glutamine synthesis.