C. Urhausen scite author profile

ContentsConcentrations of 17b-oestradiol (E 2 ), testosterone (T), 5a-dihydrotestosterone, prolactin (PRL) and relaxin (RLN) were determined in peripheral blood serum or plasma and prostatic secretion of 77 physically healthy intact male dogs (19 Rhodesian Ridgebacks/RR, 58 dogs of other breeds, 1-9 years of age). Furthermore, the concentrations of acid phosphatase in prostatic secretion and canine prostate-specific esterase (CPSE) were measured in blood plasma. All dogs were submitted to a complete breeding soundness examination, including B-mode sonography. Prostatic volume was larger, and blood plasma levels of CPSE were higher in ageing dogs and in dogs with benign prostatic hyperplasia (BPH) compared with young dogs and dogs with normal prostate. Furthermore, a higher E 2 /T ratio was found in dogs with BPH. Despite missing significant differences in PRL concentrations, the slight increases in PRL concentrations in the prostatic secretion observed both with increasing age and in dogs with BPH and the observed correlations between concentrations of PRL and testicular steroids may possibly indicate a role of PRL in the pathogenesis of canine BPH. Serum RLN concentrations were at similar level in all dogs. Regarding breed differences, an appreciably larger prostatic volume and higher concentration of CPSE were verified in RR than in other pure-bred dogs, confirming our suspicion of a premature enlargement of the prostate gland, which may result from a genetic disposition for BPH in this breed.

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Effect of Short‐Term Scrotal Hyperthermia on Spermatological Parameters, Testicular Blood Flow and Gonadal Tissue in Dogs

Henning

Masal

Herr

et al. 2013

Reprod Domestic Animals

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The objective was to assess the effect of a short-term scrotal hyperthermia in dogs on quantitative and qualitative ejaculate parameters, testicular blood flow and testicular and epididymal histology. After a control period, the scrotum of seven normospermic adult beagle dogs was insulated with a self-made suspensory for 48 h. Nine weeks later, two animals were castrated, while in five animals, scrotal hyperthermia was repeated. Dogs were castrated either 10 or 40 days thereafter. In each phase of scrotal insulation, average scrotal surface temperature increased by 3.0°C. Semen was collected twice weekly throughout the experiment. Total sperm count did not change after the first hyperthermia, but it slightly decreased after the second (p < 0.05). Profiles of sperm morphology and velocity parameters (CASA) rather indicated subtle physiological variations in sperm quality than effects of a local heat stress. Chromatin stability of ejaculated spermatozoa as indicated by SCSA remained constant throughout the experiment. Perfusion characteristics of the gonads, that is, systolic peak velocity, pulsatility and resistance index at the marginal location of the testicular artery, did not change due to hyperthermia (p > 0.05). Histological examination of excised testes and epididymides for apoptotic (TUNEL and activated caspase-3) and proliferating cells (Ki-67 antigen) indicated only marginal effects of scrotal insulation on tissue morphology. In conclusion, a mild short-term scrotal hyperthermia in dogs does not cause substantial changes in sperm quantity and quality. In contrast to other species, canine testes and epididymides may have a higher competence to compensate such thermal stress.

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Apoptosis in the Uterotubal Junction and Oviductal Isthmus during the Estrous Cycle of the Bitch

Urhausen

Beineke

Marion

et al. 2010

The Anatomical Record

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Apoptotic cells were evaluated in the lamina epithelialis (LE) and lamina propria (LP) of the canine uterotubal junction and oviductal isthmus by means of the TUNEL assay and Caspase-3 detection regarding cyclic changes. Oviducts of bitches in anestrus, early and late follicular phase, 2 and 4 days after ovulation, mid-luteal phase, and endometrial reparation were available. The rate of apoptosis was generally low (min ¼ 0; max ¼ 33 apoptotic cells in 500 cells). Regardless of the stage of the estrous cycle, the number of apoptotic cells was significantly higher in the LE compared to the LP (P < 0.05). In anoestrus, early and late follicular phase as well as during endometrial reparation, the number of apoptotic cells was on a constantly low level. A significant increase was found 4 days after ovulation by caspase-3 detection coinciding with early luteal development and in mid-luteal phase. The results demonstrate that the number of apoptotic cells changes depending on the stage of the ovarian cycle. The coincidence of the increase in the number of apoptotic cells and the time of achievement of oocyte competence, which is known to occur in the bitch 3-4 days after ovulation, suggests a causal relationship between the postovulatory maturation stage of oocytes and the rate of apoptosis in the caudal oviduct. Furthermore, a specific relevance of apoptosis may exist in the process of fertilization regarding sperm storage and detachment of spermatozoa bound to the epithelium of the caudal oviduct, which has been identified as a functional sperm reservoir in other species. Anat Rec, 294:342-348, 2011. V V C 2010 Wiley-Liss, Inc.Key words: apoptosis; oviduct; uterotubal junction; isthmus; sperm reservoirThe oviduct plays an important role in reproduction by providing a suitable environment for oocyte pick up and maturation, sperm transport and storage, capacitation of spermatozoa, fertilization, and finally early embryonic development (Verhage et al., 1973a;Steinhauer et al., 2004;Rodriguez-Martinez, 2007). The canine estrous cycle differs considerably from that of other species, in that the follicular phase is prolonged and ovulation is followed by a prolonged luteal phase with an average duration of about 54-70 days in the nonpreg-*Correspondence to:

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Distribution and viability of spermatozoa in the canine female genital tract during post-ovulatory oocyte maturation

et al. 2012

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BackgroundUnlike other domestic mammals, in which metaphase-II oocytes are ovulated, canine ovulation is characterized by the release of primary oocytes, which may take 12 to up to 36 hours. Further 60 hours are needed for maturation to secondary oocytes which then remain fertile for about 48 hours. Oestrus takes 7 to 10 days on average and may start as early as a week before ovulation. This together with the prolonged process of post-ovulatory oocyte maturation requires an according longevity of spermatozoa in the female genital tract in order to provide a population of fertile sperm when oocytes have matured to fertilizability. Therefore the distribution and viability of spermatozoa in the bitch genital tract was examined during post-ovulatory oocyte maturation.MethodsThirteen beagle bitches were inseminated on the day of sonographically verified ovulation with pooled semen of two beagle dogs containing one billion progressively motile spermatozoa. Ovariohysterectomy was performed two days later (group 1, n = 6) and four days later (group 2, n = 7). The oviduct and uterine horn of one side were flushed separately and the flushing’s were checked for the presence of gametes. The oviducts including the utero-tubal junction and the uterine horns, both the flushed and unflushed, were histologically examined for sperm distribution.ResultsThe total number of spermatozoa recovered by flushing was low and evaluation of viability was limited. Prophase-I oocytes were collected from oviduct flushing in group 1, whereas unfertilized metaphase-II oocytes were detected in group 2. From day 2 to day 4 after ovulation a significant decrease in the percentage of glands containing sperm (P<0.05) and a marked reduction of the mean sperm number in uterine horn glands were observed. A concomitant diminution of spermatozoa was indicated in the utero-tubal junction accompanied by a slight increase in sperm numbers in the mid oviduct.ConclusionsOocyte maturation to metaphase-II stage is accompanied by a continuous sperm detachment and elimination in the uterine horns. Entrance of spermatozoa into the caudal oviduct seems to be steadily controlled by the utero-tubal junction thus providing a selected sperm population to be shifted towards the site of fertilization when oocyte maturation is completed.

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C. Urhausen

Testicular Steroids, Prolactin, Relaxin and Prostate Gland Markers in Peripheral Blood and Seminal Plasma of Normal Dogs and Dogs with Prostatic Hyperplasia

Effect of Short‐Term Scrotal Hyperthermia on Spermatological Parameters, Testicular Blood Flow and Gonadal Tissue in Dogs

Apoptosis in the Uterotubal Junction and Oviductal Isthmus during the Estrous Cycle of the Bitch

Distribution and viability of spermatozoa in the canine female genital tract during post-ovulatory oocyte maturation

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