Itsuki Adachi scite author profile

Abstract. The purposes of the present study were to establish a noninvasive monitoring assay of fecal progestagen measurement to detect pregnancy and to identify the components of fecal progestagens in early, middle and late pregnancy in cheetahs. Feces were collected from 7 female cheetahs and analyzed from 30 days before the last copulation to parturition in 9 pregnancies. Blood was collected from one cheetah. Fecal progestagen and serum progesterone concentrations were determined by enzyme immunoassay (EIA). The profiles of the fecal progestagen concentrations were similar to the serum progesterone profile. Fecal progestagen and serum progesterone concentrations remained at the baseline until copulation. In the mean fecal progestagen profile during pregnancy (92.8 ± 0.4 days; from the last copulation to parturition), the concentrations increased 3-4 days after the last copulation and remained high until parturition. To investigate changes in the components of progestagen metabolites in the tripartite periods of gestation, fecal progestagens were analyzed by HPLC-EIA. Marked immunoreactive peaks consistent with 5α-pregnan-3α/β-ol-20-one and 5α-pregnan-3,20-dione and small peaks consistent with 5β-pregnan-3α/β-ol-20-one were detected. There were no distinct difference in the components of progestagens among the first, second and third trimesters of pregnancy. The hormone assay, as an indicator of fecal 5α-reduced pregnanes, is useful for detecting pregnancy and monitoring pregnant luteal activity in cheetahs. Key words: Cheetah, Fecal hormone, Progesterone, Steroid metabolites (J. Reprod. Dev. 57: [262][263][264][265][266] 2011) aptive breeding and management are important for the ex-situ conservation of cheetahs (Acinonyx jubatus); however, breeding cheetahs is difficult in captivity. The causes of this difficulty may be attributed to basic reproductive abilities, such as the high rate of morphologically abnormal sperm [1,2], high cub mortality [2] and reproductive suppression occurring among female cheetahs housed together or in close proximity [3,4]. Recent studies have also suggested that appropriate husbandry and management based on the singularity lifestyle of free-ranging cheetahs are effective for captive breeding [5]. In Japanese zoos, breeding loans, such as exchanging or moving female cheetahs between institutes, have enabled successful breeding. These trials might have caused changes in individual relations among females and reproductive suppression.While the breeding opportunities have increased in captive cheetah breeding programs, the high infant mortality needs to be improved. It is therefore necessary to detect pregnancy reliably and to provide appropriate management before and after parturition. About 30% of the cheetah cubs born in captivity die before six months of age [2], and more than 80% of the loss occurs during the first month [5]. For these reasons, reliable pregnancy determination is one of the most important tools to prepare for parturition and for the unlikely event of hand rear...

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Relationship between gonadal steroid hormones and vulvar bleeding in southern tamandua, Tamandua tetradactyla

Kusuda

Endoh

Tanaka

et al. 2011

Zoo Biology

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This study aimed at demonstrating the profiles of circulating gonadal steroid hormones during the estrous cycle and pregnancy in a southern tamandua (Tamandua tetradactyla). Additionally, this study clarified the relationship between vulvar bleeding and hormonal changes. The concentrations of serum progesterone (P(4)) and estradiol-17β (E(2)) were determined by enzyme immunoassays. Serum P(4) and E(2) concentrations changed cyclically and the estrous cycle length (± SD) based on the E(2) cycles was 44.3 ± 4.5 days. Vulvar bleeding started to be seen at the decreasing of P(4). The cycle length for vulvar bleeding was 43.3 ± 4.2 days. Interval from the first day of bleeding to the peak of E(2) concentration was 23.1 ± 3.1 days. Serum P(4) during pregnancy remained high and E(2) increased 8 weeks after conception and remained high until parturition. The female delivered normally after a 165 day-pregnancy period and reared the offspring well. Approximately 3 weeks after parturition, serum E(2) and P(4) cycles resumed. Visual bleeding may be useful as a real-time indicator for understanding the ovarian cycle of southern tamanduas, and estrus could be expected approximately 3 weeks after the first bleeding.

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Reproductive characteristics of female lesser mouse deers (Tragulus javanicus) based on fecal progestagens and breeding records

Kusuda

Adachi

Fujioka

et al. 2013

Animal Reproduction Science

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Ovarian cycle approach by rectal temperature and fecal progesterone in a female killer whale, Orcinus orca

Kusuda

Kakizoe²,

Kanda³

et al. 2011

Zoo Biology

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This study aimed to validate the measurements of body temperature and fecal progesterone concentrations as minimally invasive techniques for assessing ovarian cycle in a single sexually mature female killer whale. Rectal temperature data, fecal and blood samples were collected in the dorsal position using routine husbandry training on a voluntary basis. The correlations between rectal temperature and plasma progesterone concentration and between fecal and plasma progesterone concentrations were investigated. Fecal progesterone metabolites were identified by a combination of high-performance liquid chromatography and enzyme immunoassay. Plasma progesterone concentrations (range: 0.2-18.6 ng/ml) and rectal temperature (range: 35.3-35.9°C) changed cyclically, and cycle lengths were an average (±SD) of 44.9±4.0 days (nine cycles) and 44.6±5.9 days (nine cycles), respectively. Rectal temperature positively correlated with the plasma progesterone concentrations (r=0.641, P<0.01). There was a visual trend for fecal progesterone profiles to be similar to circulating plasma progesterone profiles. Fecal immunoreactive progestagen analysis resulted in a marked immunoreactive peak of progesterone. The data from the single killer whale indicate that the measurement of rectal temperature is suitable for minimally invasive assessment of the estrous cycle and monitoring the fecal progesterone concentration is useful to assess ovarian luteal activity.

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Itsuki Adachi

Fecal steroid metabolites and reproductive monitoring in a female Tsushima leopard cat (Prionailurus bengalensis euptilurus)

Fecal Progestagens to Detect and Monitor Pregnancy in Captive Female Cheetahs (Acinonyx jubatus)

Relationship between gonadal steroid hormones and vulvar bleeding in southern tamandua, Tamandua tetradactyla

Reproductive characteristics of female lesser mouse deers (Tragulus javanicus) based on fecal progestagens and breeding records

Ovarian cycle approach by rectal temperature and fecal progesterone in a female killer whale, Orcinus orca

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