Relationship between periparturient diseases, metabolic markers and the dynamics of hair cortisol concentrations in dairy cows

Hair cortisol concentration (HCC) might represent a promising marker for retrospective welfare assessment of dairy cows. The objective of the study was to explore the dynamics of HCC in diseased and healthy cows from eight-week ante partum (AP) to eight-week post partum (PP). Twenty-four pregnant cows were followed from drying off to week eight PP. Tail hair was used to measure cortisol at five different time points. The occurrence of peripartum diseases, lameness and the body condition score (BCS) were monitored on a weekly basis. Blood β-hydroxybutyric acid, non-esterified fatty acids, calcium and insulin-like growth factor-1 (IGF-1) concentrations were measured. The temperature-humidity index (THI) was continuously recorded. The median values of HCC in all cows were 0.4, 0.3, 0.6, 0.8 and 0.5 pg/mg at weeks eight, four AP, calving, weeks four, eight PP, respectively. There was no association between HCC and the occurrence of peripartum diseases (P ≥ 0.05). A positive correlation between HCC and BCS loss (P < 0.01) and THI (P < 0.05) was observed. The occurrence of peripartum diseases was associated with low IGF-1 during the study period but no relationship was found between cortisol and IGF-1 levels (P ≥ 0.05). Brown Swiss cows showed higher HCC (P < 0.01) at weeks eight, four AP, and week four PP and lower average milk yield (P < 0.05) than Holstein–Friesian cows. In conclusion, HCC was not a suitable marker for peripartum diseases but it could reflect a stress response, which is linked to BCS loss, heat stress and breed

Application of Doppler ultrasonography in cattle reproduction

The development of Doppler processing extended the scope of sonographic imaging from an anatomical to a physiological basis. This technique became established as a clinical tool in human gynaecology. For example, it has been discussed that the implantation of an embryo is influenced by the uterine blood flow. In cows, this uterine blood flow was investigated, using surgically implanted Doppler ultrasonic or electromagnetic blood flow probes prior to the introduction of colour Doppler sonography in bovine medicine. Therefore, the aims of our studies were to use transrectal Doppler sonography for the non-invasive measurement of uterine and ovarian blood flow in cows and to determine changes in genital perfusion during the oestrous cycle, pregnancy and puerperium, respectively. The results of our studies show that transrectal flow imaging can be used to obtain blood flow velocity waveforms from the uterine arteries at any time during the oestrous cycle, pregnancy and puerperium. During all these phases, characteristic changes in the uterine blood flow could be observed. This uterine blood flow was low during diestrus and high during proestrus and oestrus. During pregnancy, an exponential rise in uterine blood supply could be detected. There was a positive relationship between the uterine blood flow volume (BFV) at the end of gestation and the birth weight of calves. During puerperium, the uterine BFV declined tremendously, especially during the first week after birth. In cows, with pathological disturbances of the pueperium a delayed decrease in the uterine BFV was observed. Characteristic alterations occurred also in the luteal blood flow during the oestrous cycle, which were highly related to those of the progesterone levels. Furthermore, it has been detected by the colour Doppler technique that there is no decrease, but an increase of the luteal blood flow at the beginning of luteolysis in cows. Another group has found that there are close relationships between the LH-surge and the follicular blood flow before ovulation. In conclusion, these studies show that transrectal colour Doppler sonography is a useful technique for the investigation of the genital blood flow and provides new information about physiological changes of the genital organs during, all reproductive phases. The influence of the genital blood flow on fertility in cows needs to be examined further in future studies

Uterine blood flow in sheep and goats during the peri-parturient period assessed by transrectal Doppler sonography

The aim of the present study was to evaluate uterine blood flow (UBF) during the postpartum period in small ruminants. The study involved measures of UBF in 5 ewes and 5 goats during the first 4 weeks after parturition. Transrectal quantification of UBF was assessed by determining the diameter (DM), time averaged mean velocity (TAMEAN), blood flow volume (BFV), blood flow acceleration (ACCE) and pulsatility index (PI) in the uterine arteries ipsilateral to the previously gravid uterine horn(s) at Wk 20 of gestation and every 3days from the day of parturition (D 0) until Day 27 postpartum (D 27). The diameters of the uterine arteries decreased (P<0.01) in both species during the postpartum period. The results revealed decreases (P<0.0001) in BFV, ACCE and TAMEAN, while PI increased during the postpartum period in both sheep and goats. Furthermore, there were positive correlations (P<0.05) between blood flow parameters in sheep and goats, respectively (BFV and DM, r=0.62 and 0.58; BFV and ACCE, r=0.32 and 0.26; BFV and TAMEAN, r=0.51 and 0.37). There were negative correlations (P<0.05) between PI and other parameters (PI and BFV, r=-0.39 and -0.36; PI and DM, r=-0.54 and -0.24; PI and ACCE, r=-0.58 and -0.48; and PI and TAMEAN, r=-0.80 and -0.79) in sheep and goats, respectively. Altogether, these results indicate that non-invasive Doppler ultrasound parameters provide important information toward understanding changes in the vasculature and its perfusion of the uterus during the postpartum period in sheep and goats

Einfluss von Leistungshöhe und Ernährung auf das Reproduktionsgeschehen

Fertility of a high yielding dairy cow is a major economic factor and is closely related to energy supply. In late gestation and early lactation the nutrient requirements for fetal growth and milk synthesis increase dramatically and the cow is unable to meet these energetic demands from her feed intake. Most cows therefore enter a period of negative energy balance that can impair health and have carry-over effects on fertility. Fats in the diet can positively influence reproduction by altering both ovarian and uterine function via improved energy status and by increasing precursors for the synthesis of reproductive hormones such as steroids and prostaglandins. Embryonic mortality during the preimplantation period and delayed resumption of oestrus cyclicity are the key contributors to the reduced fertility in dairy cows. © Verlag Eugen Ulmer, Stuttgart

The effect of exogenous estradiol benzoate and altrenogest on uterine and ovarian blood flow during the estrous cycle in mares

In recent years, a positive relationship between genital perfusion and fertility has been established; in species other than horses, uterine and ovarian perfusion was improved by exogenous estrogen but impaired by exogenous progestin. The goal of the present study was to investigate the effect of exogenous estrogen and progestin on uterine and ovarian blood flow in cycling mares. Five Trotter mares were examined daily during three estrous cycles. Mares were given no treatment, altrenogest (0.044 mg/kg BW) orally from Day 0 (ovulation) to Day 14 and estradiol benzoate (5mg i.m.) on Days 0, 5, and 10, in three cycles, respectively. There was no difference ( P > 0.05 ) in the length of untreated versus estrogen-treated cycles ( 22.8 +/-1.3 days and 23.2 +/= 1.5 days, respectively), but cycle length was increased (P < 0.05) in progestin-treated cycles (26.0 +/- 1.2). To facilitate comparisons among cycles with different lengths, data from Days 0 to 15 (diestrus) and from Days -6 to -1 (estrus) were analyzed. Transrectal Doppler sonography was used to evaluate blood flow in both uterine arteries and in the ovarian artery ipsilateral to the preovulatory follicle during estrus and ipsilateral to the corpus luteum during diestrus. Blood flow was assessed semiquantitatively using the pulsatility index (PI); high PI values indicated high resistance and a low perfusion and vice versa. An immediate effect of treatments occurred only after the administration of estradiol benzoate on Day 0; uterine PI values decreased (P < 0.05) between Days 0 and 1 and estrogen-treated mares but increased (P < 0.05) at the corresponding time in untreated cycles. Mean PI values for the uterine and ovarian arteries during both diestrus and estrus were higher (P < 0.05) in estrogen-treated versus untreated mares. Furthermore, mean uterine PI values during diestrus and estrus were higher (P< 0.05) in altrenogest-treated versus untreated mares. Neither estrogen nor altrenogest treatments had a significant immediate effect on ovarian PI values. Compared to untreated cycles, mean ovarian PI values were elevated (P < 0.05) only in the estrus following altrenogest administration. In conclusion, exogenous estrogen and progestin both decreased genital perfusion in cycling mares

İneklerde follikül, corpus luteum, ovaryum kistleri olgularında renkli doppler ultrasonografi aracılığıyla vaskülarizasyon değişikliklerinin incelenmesi

Ziel dieser Arbeit war es, mit Hilfe der transrektalen Farbdopplersonographie (Toshiba SSH 140A, 7.0 MHz, Mikrokonvexsonde) die physiologischen Änderungen in der Durchblutung des Follikels und des Corpus luteum zu untersuchen. Außerdem wurde diese Technik eingesetzt um die Durchblutungsveränderungen in den Luteal-Zysten vor und nach der Behandlung mit PGF2α festzustellen. Die GRAAFschen Follikel wurden an fünf Kühen während zwei aufeinanderfolgender Zyklen im Östrus (Tag 0) und die Corpora lutea an den Tagen 5, 7, 9, 11 und 13 untersucht. Zusätzlich erfolgten Studien an zwei Kühen, bei denen Follikel-Luteinzysten festgestellt worden waren. Die Follikel, Corpora lutea und Follikel-Luteinzysten wurden im Color- Angio Mode dargestellt, während die uterine Durchblutung mit Hilfe der von der A. uterina im PW-Modus aufgezeichneten Dopplerwellen quantifiziert wurde. Bei allen Corpora lutea war der Blutfluss in den peripher gelegenen Kapselgefäßen darstellbar. Während der frühen Lutealphase stieg die Gelbkörperdurchblutung an und die höchste Intensität der Durchblutung konnte am 9. Tag des Zyklus festgestellt werden. Am 13. Tag des Zyklus war die Intensität der Durchblutung im Gelbkörper wieder abgefallen. Am Tag der ersten Feststellung des Graaf-Follikels konnte die Durchblutung in der äußeren Follikelwand besser als kurz vor der Ovulation dargestellt werden. Je näher die Entwicklung des Follikels zur Ovulation kam, desto schwieriger bzw. unmöglich war die Feststellung der Durchblutung. Kurz vor der Ovulation war nur kein oder nur noch ein schwacher follikulärer Blutfluss darstellbar. Nach Applikation von PGF2α (0.75 mg Tiaprost) bei den Follikelluteinzysten (n=2) konnte ein deutlicher Abfall im deren Blutfluss festgestellt werden. Die vorliegende Studie zeigt, dass die transrektale Farbdopplersonographie eine geeignete nichtinvasive Methode zur Bestimmung der Durchblutung von Funktionsgebilden am Ovar darstellt. Außerdem können mit Hilfe dieser Methode therapeuthische Maßnahmen am Genitale anhand der Veränderungen in der Blutversorgung beurteilt werden

The effect of semen extender, seminal plasma and raw semen on uterine and ovarian blood flow in mares

Transrectal color Doppler sonography was used to evaluate the effect of intrauterine infusion of skim milk semen extender, seminal plasma and raw semen on the endometrium and blood flow in the uterine and ovarian arteries in mares. Six Trotter mares (mean age: 12 years) were examined during estrus in three cycles. Each mare received an intrauterine infusion of 20 ml of skim milk semen extender, seminal plasma or raw semen during estrus in one of three cycles. Blood flow measurements in both uterine and ovarian arteries and the determination of intrauterine fluid via sonography were performed before each infusion and 1, 3, 6, 12, and 24 h after infusion. Forty-eight hours later, the intrauterine infusion and measurements were repeated using the same time intervals. Changes in blood flow were detected using transrectal color Doppler sonography and were evaluated using the mean time-averaged maximum velocity (TAMV) of the blood flow. Cytological and bacteriological examination of uterine swabs performed 48 h after the second infusion revealed less inflammation and bacterial growth in mares infused with skim milk semen extender than in those infused with seminal plasma or raw semen. There was an increase in intrauterine fluid as early as 1 h after infusion of any of the substances. The infusion of skim milk semen extender had no effect on uterine blood flow. Within 1 h after infusion of seminal plasma or raw semen, there was an increase in the TAMV values of both uterine arteries (P<0.05). In contrast, ovarian blood flow increased only in the artery ipsilateral to the preovulatory follicle and only after the infusion of raw semen (P<0.05). In conclusion, the changes in uterine perfusion observed after intrauterine infusion may be associated with endometrial inflammation and vasodilatory components in the seminal plasma, whereas the changes seen in ovarian blood flow are possibly attributable to the interaction between sperm and oviduct

Ultrasonographic doppler use for female reproduction management

Transrectal color Doppler ultrasonography is a useful technique to get new information about physiologic and pathophysiologic alterations of the uterus and ovaries in female cattle. During all reproductive stages characteristic changes in uterine blood flow are observed. Cows with puerperal disturbances show delayed decrease in uterine blood flow in the first few weeks postparturition compared with healthy cows. Measurement of follicular blood flow is used to identify normally developing follicles and predict superovulatory response. Determination of luteal blood is more reliable than B-mode sonography to distinguish between functional and nonfunctional corpora lutea. Color Doppler ultrasonography is a promising tool to improve reproductive management in female cattle