Is fertility declining in dairy cattle? A retrospective study in northeastern Spain

The past few decades have seen a dramatic increase in infertility and reproductive disorders associated with a rising milk yield. Herein, we present a 10-year (from 1991 to 2000) retrospective survey of these factors using data from a reproductive management program performed on high-yielding dairy herds in north-east Spain. The data series included 12,711 lactations. The year was divided into warm and cool periods. Data were obtained from cows first inseminated or examined 45-70 days postpartum. The reproductive tract of each animal was examined by palpation per rectum within 43-48 days postpartum. Cows were then weekly examined until insemination or until postpartum Day 70. Cows with a corpus luteum were synchronized for estrus and timed AI. Cows showing natural estrus in the same period were also inseminated. All inseminations were pooled as a single group and inseminated cows were considered cyclic. Inactive ovaries and ovarian cysts were recorded as ovarian disorders. Incomplete uterine involution, endometritis and pyometra were grouped as uterine disorders.Overall cyclicity and pregnancy rates of all AI cows, and cyclicity and pregnancy rates corresponding to the warm period significantly decreased over the 10-year period, yet remained practically constant during the cool period. The incidence of inactive ovaries in the entire population and that corresponding only to cows examined during the warm period significantly increased with time but was similar during the cool period. Ovarian cysts were more frequent during the warm (12.3%) than during the cool (2.4%) period, though these proportions were maintained throughout the study. The incidence of uterine disorders significantly decreased with time and did not differ between cool and warm periods. Milk yield per cow and year increased from 7800 kg in 1991 to 10,200 kg in 2000. Regression analysis revealed that, for all cows and those inseminated or examined in the warm period respectively, each 1000 kg increase in average milk yield was related to decreases of 3.2 and 6% in pregnancy rate, 4.4 and 7.6% in cyclicity, and to increase of 4.6 and 8% in the incidence of inactive ovaries. The rate of uterine disorders decreased 1.1% regardless of season. Our overall results clearly reflect the increased infertility and incidence of reproductive disorders over the study period. This occurred simultaneous to increasing average milk yield. Nevertheless, under our study conditions, a cool environment appears to preserve fertility and reduce the risk of reproductive disorders irrespective of the milk yield. These findings prompt the need to improve management practices by attempting to reduce the effects of factors provoking stress.     

A study of prostaglandin F2α as the luteolysin in swine: I. Effect of prostaglandin F2α in hysterectomized gilts

Experiments were conducted to determine if prostaglandin F_2α (PGF_2α) is luteolytic in swine. In Experiment 1, four bilaterally hysterectomized gilts were injected with PGF_2α at 0800 (10mg) and 2000 hours (10mg) and four gilts received .9% saline at the same times on day 17 after onset of estrus. Treatments were reversed in the two groups of gilts 21 days later. All eight PGF_2α treated gilts exhibited estrus an average of 88.0 ± 13.5 hours after treatment and average duration of estrus was 66.0 ± 16.4 hours. Saline treated controls did not exhibit estrus. Two additional gilts were hysterectomized bilaterally and the saphenous artery catheterized on day 7 after onset of estrus. PGF_2α injected on day 17 resulted in a precipitous decline in plasma progestin concentration and onset of estrus by 110 and 90 hours in gilts 1 and 2, respectively. Another bilaterally hysterectomized gilt, with CL marked with India ink, received PGF_2α on day 17. Estrus occurred 92 hours later and, on day 4, regression of marked CL to corpora albicantia and presence of newly formed CL was confirmed at laparotomy.In Experiment 2, 12 bilaterally hysterectomized gilts were treated with PGF_2α at 0800 (10mg) and 2000 hours (10mg) on either day 8, 11, 14 or 17 after onset of estrus. None of the gilts treated on days 8 and 11 exhibited estrus. Two of three gilts treated on day 14 and all three gilts treated on day 17 exhibited estrus at an average of 116.0 ± 9.8 hours post-treatment. Average duration of estrus was 49.6 ± 8.8 hours.     

Prostaglandin F2α induced luteolysis,hypothermia, and abortions in beagle bitches

Luteal phase plasma progesterone was radioimmunoassayed in samples collected before, during, and after a 72 hr treatment period during which Beagle bitches received repeated i.m. injections of prostaglandin F₂α (n=17) or saline (n=3). PGF₂α (20 ug/kg every 8 hr or 30 ug/kg every 12 hr) was administered to 7 pregnant and 8 nonpregnant bitches during the mid or late luteal phase of the cycle (Day 25–58) and to 2 nonpregnant bitches during the early luteal phase (Days 5 and 20). Progesterone was depressed from pretreatment levels (3 – 40 ng/ml) in each of the 15 bitches given PGF₂α after Day 25 of the cycle. Mean progesterone (ng/ml plasma) at ?24, 0, 12, 24, 36, 48, 60, 72 and 96 hr from the initial PGF₂α injection were 16.6, 15.6, 9.3, 5.1, 2.1, 1.5, 1.4, 1.1 and 1.1 (±0.9, n=15). Thereafter, progesterone was nondetectable in the 8 nonpregnant bitches and in 4 pregnant bitches that aborted. Abortions occurred when progesterone was depressed to 0.6 – 1.4 ng/ml, 56–80 hr after starting PGF₂α treatment on Days 33–53 of the cycle. Three pregnant bitches did not abort when progesterone was depressed to a mean low value of 2.1 ng/ml during PGF₂α treatments begun on Day 31 – 40 of pregnancy. Progesterone in these bitches recovered to 5 – 10 ng/ml and was maintained until the normal prepartum decline. Since PGF₂α can induce complete luteolysis it may be of use as an abortifacient in the bitch.A transient fall in rectal temperature occurred in each of 12 luteal phase bitches injected with PGF₂α (20 ug/kg, i.m.). The hypothermia was detectable within 15 min, maximal at 45 – 60 min, and averaged 1.39° C. No temperature changes were noted in eight ovariectomized bitches similarly treated. In six luteal phase bitches, plasma progesterone fell 20–45% within the 15 min required to observe a consistent decline in rectal temperature following PGF₂α administration. The transient hypothermia following PGF₂α appears to be secondary to the luteolytic effect and dependent on a fall in progesterone.     

A comparison of induction of parturition with dexamethasone or with an analog of prostaglandin F2α (A-PGF) in cattle

A comparison between dexamethasone and an analog of PGF_2α has been done for induction of calving in Normand or Charolais cows treated about one week before the mean term of each breed. Parturition was induced 32.58 hr (± 9.6 hr) after dexamethasone (16 mg) in 9 of 10 animals; with A-PGF given intramuscularly at various doses (4 to 10 mg), this mean interval was equal to 29.30 hr (12 hr ± 10), whereas it was 38.30 hr (± 6.40 hr) with a combination of the two products. Plasma progesterone measured by radioimmunoassay in two cows treated with A-PGF (4 mg) decreased before calving indicating regression of the corpus luteum. The most noticable side effect was the high number of placenta retention observed in each lot.     

A radioimmunoassay for 6-keto- prostaglandin F1α

A radioimmunoassay for 6-keto-prostaglandin F_1α has been developed. The assay is accurate and sensitive but since the antiserum cross-reacts 5–10% with prostaglandins (PGs) of the E and F series, solvent extraction and thin layer chromatography are required fo absolute specifity. The assay has been validated by comparison with a radiochemical assay and by the use of an inhibitor of 6-keto PGF_1α formation, 15-hydroperoxy arachidonic acid. 6-Keto PGF_1α was found to have a low cross reaction with antisera directed against PGE₂, PGF_2α and thromboxane B₂.     

Prostaglandin D2, another renal prostaglandin?

Prostaglandin (PG) D₂ was biosynthesized by rabbit renal papillae incubates in vitro. Quantification of the renal prostaglandins by gas chromatography-mass spectroscopy demonstrated that the concentration of PGD₂ generated by renal papillae was to the amount of PGE₂ or about 1 μg/g tissue/30 min. Infusion of the sodium salt of PGD₂ into the renal artery of the dog produced a dose related increase in renal blood flow and urine flow, free water clearance, sodium excretion and potassium excretion without changes in systemic hemodynamics. At low doses PGD₂ increased renal blood flow to all cortical zones. Higher concentrations of PGD₂ produced a shift in the intrarenal distribution of blood flow toward the juxtamedullary nephrons.     

Effect of gonadotropin-releasing hormone and prostaglandin F2α on reproduction in postpartum dairy cows

Thirty dairy cows serving as the treated group (Group A) were injected intramuscularly with 100 mcg gonadotropin-releasing hormone (GnRH) at 10 to 16 days postpartum followed by 25 mg prostaglandin F₂α (PGF₂α) 14 days later. Twenty-nine herdmate dairy cows (Group B) serving as controls were treated in a similar manner using saline injections rather than GnRH or PGF₂α treatments. Only cows without obvious uterine infection were assigned to the experimental groups, and any uterine pathology that developed during the treatment interval was treated accordingly following the experimental period. Internal genitalia were evaluated via rectal palpation prior to each injection. Blood samples were collected for progesterone analysis before each injection and at 30 hours following the PGF₂α or the second saline injection. Experimental animals were artificially inseminated at the first detected postpartum estrus starting 35 to 40 days following calving. Results indicated evidence of enhanced cyclicity when Group A cows were compared with those in Group B. However, there were no significant differences between the two groups for interval to first observed estrus, interval to first serive, first serive pregnancy rate, services per pregnancy and days open. Furthermore, no difference in the incidence of follicular or luteal cysts, incidence of repeat breeders or number of reproductive culls was observed. From observations in this study, the GnRH and PGF₂α treatment scheudule might not be economically beneficial in lactating dairy cows as long as reproductive tract abnormalities are promptly diagnosed and subsequently treated by the attending practitioner.     

Luteal function,largest follicle,and fertility in postpartum dairy cows treated with 14dCIDR-PGF2α versus 2xPGF2α-Ovsynch for timed AI

A method for timed artificial insemination (AI) that is used for beef cows, beef heifers, and dairy heifers employs progesterone-releasing inserts, such as the controlled internal drug release (CIDR; Zoetis, New York, NY, USA) that are left in place for 14 days. The 14-day CIDR treatment is a method of presynchronization that ensures that cattle are in the late luteal phase of the estrous cycle when PGF_2α is administered before timed AI. The objective of this study was to test the effectiveness of the 14dCIDR-PGF_2α program in postpartum dairy cows by comparing it with the traditional “Presynch-Ovsynch” (2xPGF_2α-Ovsynch) program. The 14dCIDR-PGF_2α cows (n = 132) were treated with a CIDR insert on Day 0 for 14 days. At 19 days after CIDR removal (Day 33), the cows were treated with a luteolytic dose of PGF_2α, 56 hours later were treated with an ovulatory dose of GnRH (Day 35), and 16 hours later were inseminated. The 2xPGF_2α-Ovsynch cows were treated with a luteolytic dose of PGF_2α on Day 0 and again on Day 14. At 12 days after the second PGF_2α treatment (Day 26), the cows were treated with GnRH. At 7 days after GnRH, the cows were treated with PGF_2α (Day 33), then 56 hours later treated with GnRH (Day 35), and then 16 hours later were inseminated. There was no effect of treatment or treatment by parity interaction on pregnancies per AI (P/AI) when pregnancy diagnosis was performed on Day 32 (115/263; 43.7%) or Days 60 to 90 (99/263; 37.6%) after insemination. There was an effect of parity (P < 0.05) on P/AI because primiparous cows had lesser P/AI (35/98; 35.7%) than multiparous cows (80/165; 48.5%) on Day 32. Cows observed in estrus after the presynchronization step (within 5 days after CIDR removal or within 5 days after the second PGF_2α treatment) had greater P/AI than those not observed in estrus (55/103; 53.4% vs. 60/160; 37.5%; observed vs. not observed; P < 0.01; d 32 pregnancy diagnosis). When progesterone data were examined in a subset of cows (n = 208), 55.3% of cows had a “prototypical” response to treatment (i.e., the cow had an estrous cycle that was synchronized by the presynchronization treatment and then the cow responded appropriately to the subsequent PGF_2α and GnRH treatments before timed AI). Collectively, cows with a prototypical response to either treatment had 52.2% P/AI that was greater (P < 0.001) than the P/AI for cows that had a nonprototypical response (19%) (P/AI determined at 60–90 days of pregnancy). In conclusion, we did not detect a difference in P/AI when postpartum dairy cows were treated with 14dCIDR-PGF_2α or 2xPGF2α-Ovsynch before timed AI. The primary limitation to the success of either program was the failure of the cow to respond appropriately to the sequence of treatments.     

Measurement of prostaglandin F2α metabolites by radioimmunoassay

Antibodies against 15 keto PGF_2α and 13,14 dihydro 15 keto PGF_2α were produced in goats and rabbits using the appropriate prostaglandin protein conjugate. Tritium labeled 15-keto, and 13,14 dihydro 15-keto PGF_2α were prepared from ³H-PGF_2α. These antibodies and ³H-labeled compounds were used to develop radioimmunoassays for the respective F_2α metabolites. The antibodies had relatively little cross-reactivity (≤0.1%) with the parent F_2α molecule. Infusion of PGF_2α in monkeys increased 15-keto-h₂ levels 10–20 fold higher than PGF_2α in peripheral plasma. The levels of this metabolite were not altered detectably during clotting, indicating relatively slow rates of PGF_2α metabolism in vitro. These assays should be useful to follow release rates of exogenous prostaglandins from various formulations and delivery systems, and in vivo tissue synthesis of PGF_2α, where low levels preclude measuring the parent compound.     

Radioimmunoassays of prostaglandin F2α and prostaglandin F2α-main urinary metabolite with prostaglandin-125I-tyrosine methylester amide

Radioimmunoassays for measuring prostaglandin F_2α (PGF_2α) and 5α, 7α-dihydroxy-11-keto tetranorprosta-1,16-dioic acid, PGF_2α-main urinary metabolite (PGF_2α-MUM), with ¹²⁵I-tyrosine methylester amide (TMA) of PGF_2α and PGF_2α-MUM were developed.Antibody to PGF_2α was produced in rabbits immunized with conjugates of PGF_2α coupled to bovine serum albumine. Antibody to PGF_2α-MUM was also produced in rabbits immunized with conjugates of PGF_2α-MUM coupled to bovine serum albumin.PGF_2α-¹²⁵I-TMA had an affinity to antiserum to PGF_2α. PGF_2α-MUM-¹²⁵I-TMA also responded to antiserum to PGF_2α-MUM.     

Radioimmunoassay for urinary metabolites of prostaglandin F2α

Antibodies against the main urinary metabolite of PGF_2α in the human, 5α,7α-dihydroxy-11-ketotetranorprosta-1,16-dioic acid, were raised in rabbits. The compound was coupled selectively in the ω position to bovine serum albumin prior to injection. The resulting antibodies did not distinguish between tetranor compounds varying only in structure at the ω carbon, and thus the assay could be used also for other metabolites of PGF_2α, e.g. the main urinary metabolite in the guinea pig, 5α,7α-dihydroxy-11-ketotetranorprostanoic acid. Labeled ligands for the assays were prepared either $\text{in vivo}$ by injection of |17,18-³H|-PGF_2α into humans after several days' treatment with indomethacin, or $\text{in vitro}$ by incubation of |17,18-³H|-15-keto-13,14-dihydro-PGF_2α with mitochondria from rat liver. The sensitivity of the assay was 10 pg or 4 pg with these two preparations, respectively.The assay was employed for a number of measurements: normal daily excretion in a number of humans; excretion of urinary metabolites during treatment with prostaglandin synthetase inhibitors in human subjects, or after intravenous injection of PGF_2α; excretion during human pregnancy; and prostaglandin production in the guinea pig during normal estrous cycles and pregnancies and after estrogen treatment.The results of these studies were in several cases compared to similar measurements earlier performed using mass spectrometric methods, and were found to agree well. Thus, this radioimmunoassay provides a simple and accurate method for estimating prostaglandin production, particularly suitable for long-term studies and for cases where repeated blood sampling must be avoided.     

Induced parturition in dairy cattle: A comparison of a corticoid (flumethasone) and a prostaglandin (PGF2α) in different age groups

Parturitions were induced in 66 dairy cows and heifers of the German Black Pied breed, 11 to 13 days before term, using either a highly potent corticosteroid (flumethasone: 2 × 5 mg, 10 to 14 hr apart), or prostaglandin F_2α (20 mg i.v.) and initiating treatments either in the morning (A.M.) or late afternoon (P.M.). At those dose levels parturition was induced in $\text{50}\text{50}$ animals treated with flumethasone, and in $\text{9}\text{9}$ heifers, but only in $\text{5}\text{7}$ cows treated with PGF_2α; placentas were retained in all cases in which parturition was induced. Intervals between initiation of treatments and parturition were shorter in flumethasone-treated animals (flumethasone: 42.5 hr; PGF_2α 57.2 hr); with both drugs, they were approximately 10 to 15 hr shorter in younger animals. The first flumethasone treatment at P.M. prolonged the intervals to parturition in cows (first treatment A.M.: 37.8 hr; P.M.: 52.9 hr), but not in normal age heifers (A.M.: 27.6 hr; P.M.: 25.9 hr); in early bred heifers, this trend was reversed (A.M. 41.6 hr; P.M.: 31.8 hr). No circadian differences in response to PGF were noted. Mean intervals to postpartum conceptions were 93 and 94 days for PGF_2α-treated cows and heifers, and 123.5 and 125 days for flumethasone-treated cows and heifers, respectively.     

Induction of parturition with prostaglandin F2α in cows with hydrallantois. A case report

Two cows with hydrallantois were treated with single intramuscular injection of 30 mg (cow number 1) and 25 mg (cow number 2) prostaglandin F_2α (PGF_2α). At about 82 hours post-injection, most of the fluids were expelled and a dead calf was delivered by forced extraction from cow number 1. Cow number 2 delivered twin calves (1 live, 1 dead) without assistance. The cow lost 225 Kg body weight (162.7 Kg fluid and 62.2 Kg weight of fetuses). Plasma progesterone was 4.45 ng/ml before PGF_2α injection and 0.79 ng/ml 24 hours post-injection. No abnormal lesions or pathogens were found at necropsy of the dead calves. Fetal membranes were retained in both cows and were removed manually four days post-calving.     

Prostaglandin F2α as a potent excitant of the parasympathetic postganglionic neurons of the dog salivary gland

Prostaglandin F_2α (PGF_2α) (1–100 ng) and acetylcholine (ACh) (0.3–30 μg) injected selectively into the artery supplying the submaxillary gland of the dog produced salivation and an increase in blood flow. Both salivary and vascular responses to PGF_2α developed slowly and lasted long as compared with those to ACh. On a weight basis PGF_2α was about 1000 times more potent than ACh in producing salivation. Upon repeated injections of PGF_2α most glands developed moderate desensitization to PGF_2α but not to ACh. Both salivary and vascular responses to PGF_2α were abolished by infusion of tetrodotoxin ( or 0.1 or 0.2 μg/min), whereas those to ACh remained virtually unchanged. These results indicate that in the dog submaxillary gland PGF_2α causes salivation and vasodilation exclusively through excitation of the parasympathetic postganglionic neurons.     

Levels of prostaglandin F2α in amniotic fluid during pregnancy and labour

Levels of prostaglandin F_2α (PGF_2α) in the amniotic fluid were determined by radioimmunoassay. Concentrations of the prostaglandin were relatively constant between 15 and 35 weeks' gestation, but an increase was observed after 36 weeks. The rise was continued up to 44 weeks. A still greater elevation of PGF_2α levels was recorded during labour, when the levels were related to the amount of cervical dilatation.Amniotic fluid PGF_2α levels in toxaemia of pregnancy did not significantly differ from those found in normal pregnancy.     

Radioimmunoassay of main urinary metabolite of prostaglandin F2α in normal subjects

Radioimmunoassay of 5α,7α-dihydroxy-11-keto-tetranorprosta-1, 16-dioic acid, main urinary metabolite of prostaglandin F F_2α (PGE_2α-MUM), was performed in normal subjects. Twenty-four hours secretion of PGF_2α-MUM were 29.04 ± 9.73 μg in males and 18.22 ± 5.88 μg in females on an average. And an oral administration of aspirin resulted in the remarkable decrease of PGF_2α-MUM in both sexes.     

Mass fragmentographic determination of prostaglandin F2α in human and rabbit urine

Analysis of prostaglandin F_2α (PGF_2α) in urine is a useful indicator of renal prostaglandin synthesis. A mass fragmentographic method for PGF_2α analysis in human urine was developed using [3,3,4,4-²H₄]PGF_2α as an internal standard and carrier. PGF_2α was extracted from urine (20 ml) with chloroform, purified by preparative thin-layer chromatography and converted to the methyl ester trimethylsilyl ether before analysis by gas chromatograph—mass spectrometry. The specificity of the urine analysis was demonstrated by retention time and the use of two pairs of fragments m/e 494/498 and 513/517 with the same results. The coefficient of variation for duplicate analysis averaged 12.6%, n = 17. Urine from recumbent women contained 4.9 ± 2.6 (S.D.) ng/ml or 4.1 ± 1.0 ng PGF_2α per mg creatinine (n = 10) with little diurnal variation. Male urine contained 5.0 ± 2.7 (S.D.) ng/ml or 3.7 ± 2.1 ng/mg creatinine (n = 10). Similar concentrations were found in boys and in girls. These observations indicate that urinary PGF_2α originates from the kidneys with little contribution from the male accessory sexual glands. This method can also be applied to analysis of PGF_2α in rabbit urine.     

Luteal function in the hysterectomized bitch following treatment with prostaglandin F2α (PGF2α)

Estrus and ovulation were induced in ten mature, mixed-breed, anestrous bitches (10 to 20 kg) using exogenous gonadotropins. Bitches were bred once, on the second day of estrus. Between 11 and 13 days following estrus, bitches were bilaterally hysterectomized and randomly divided into two treatment groups of five bitches each. Four days following surgery, Group A (treated) was given a single subcutaneous injection of PGF₂α (Prostin F₂ alpha^®) at a dose of 1 mg/kg body weight and Group B (controls) similarly given an equal volume of .9% saline. Blood samples were collected daily by cephalic venipuncture prior to surgery and for 75 days thereafter. Plasma progesterone was monitored by a radioimmunoassay method. Although bitches were teased daily following PGF₂α or saline treatments, estrual behavior was not exhibited. In both the PGF₂α and saline treatment groups, plasma progesterone levels showed a transient decline by 12 hours following injection, although a more dramatic decrease was observed at this time in the prostaglandin-treated bitches. Subsequently, progesterone concentrations tended to increase in both groups at 6 days following treatment, however, not to pre-treatment levels. Within 20 to 32 days following treatment in both groups, plasma progesterone levels declined to <1 ng/ml and remained depressed at least 60 days post-injection. In this study, complete luteal regression was not induced following PGF₂α treatment. Luteal function in both groups, as indicated by plasma progesterone concentrations, was shortened in the absence of the uterus.