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1.
Complications associated with the presence of two intrauterine glass balls used for oestrus suppression in a mare 
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下载免费PDF全文 This report describes the identification and removal of 2 glass balls, both of which had fragmented, from the uterus of a mare. The glass balls had been placed into the uterine lumen to prolong function of the corpus luteum for suppression of oestrous behaviour. This report adds to a growing body of evidence that severe complications can result from the use of intrauterine glass balls for oestrus suppression in mares, particularly if they are retained for a prolonged time. 相似文献
2.
A 9-year-old Quarter Horse mare was referred for evaluation of continuous oestrus, polyuria and suspected pyometra after a glass marble was placed in the uterus by the owner. Palpation per rectum and transrectal ultrasonography confirmed the presence of a spherical object, but it was not possible to discern whether it was located within the lumen of the uterus or urinary bladder. Thus, an endoscopic examination of both uterus and bladder was carried out and a spherical, spiculated surface urolith was found on the floor of the bladder. The cystic urolith with suspected marble core was removed using a 12-mm specimen retrieval bag with endoscopic guidance. Follow-up with the owner one month after discharge revealed that the mare had not shown any signs of discomfort while urinating nor signs of oestrus. 相似文献
3.
The objectives of the present study were to determine the relationship between bacteriological findings, clinical signs and histopathological changes in postpartum metritis. Evaluation of the treatment efficiency of using systemic or intra‐uterine infusion of antibiotics with some hormonal preparations for the treatment of postpartum metritis. Data were collected from 50 buffalo cows with history of calving of more than 1 month. All buffaloes were subjected to detailed clinical examination including external inspection, vaginoscopy and transrectal palpation of the cervix, uterus and ovaries. Swabs for bacteriology and biopsies for histopathology were collected from uterine lumen from each buffalo included in the present study. Bacteria identified using API systems following aerobic and anaerobic cultures. Vaginal mucus scored for character, odour and estimation of polymorphonuclear cells (PMNs). Treatment conducted using oxytetracycline in local intrauterine infusion or systemically with hormonal treatment including prostaglandinF2α (PGF2α) and oestradiol benzoate. Results revealed that the most predisposing factor for postpartum uterine infection was retained placenta and toxic puerperal metritis. The most prevalent bacteria in uterine lumen were Escherichia coli, Archanobacterium pyogenes, Bacteroides fragilis and Fusobacterium necrophorum the most prevalent bacteria in buffaloes with postpartum metritis. A. pyogenes and F. necrophorum were an important pathogens causing severe uterine inflammation as found in histopathological examinations. Buffaloes with postpartum metritis showed good clinical cure when oxytetracycline injected systemically with PGF2α. Intrauterine infusion of oxytetracycline had no advantage for the treatment of uterine infection in buffalo cows with postpartum metritis. PGF2α improved clinical cure of buffaloes with postpartum metritis. 相似文献
4.
动物子宫局部免疫系统及孕体识别 总被引:3,自引:0,他引:3
介绍了动物子宫局部免疫系统在不同生理阶段的状况和子宫识别孕体的机理.健康、未孕的动物子宫内最主要的白细胞亚型是T淋巴细胞、巨噬细胞和中性粒细胞,这些细胞的迁移和分布明显受发情周期的影响.配种引起多形态嗜中性白细胞(PMNs)流入子宫,可以消除生殖道内的病菌和多余的精子,从而可提高繁殖性能.目前,人们主要从MHCⅠ抗原在子宫的表达和生殖道内的细胞因子两方面来解释子宫识别孕体的机理.总之,动物子宫局部免疫系统是一个新兴的研究领域,在取得初步进展的同时,尚存在许多疑问和争议. 相似文献
5.
L. A. Silva DVM E. L. Gastal DVM M. O. Gastal DVM J. C. F. Jacob DVM C. P. Reis DVM O. J. Ginther VMD 《Journal of Equine Veterinary Science》2004,24(8):324-332
A transvaginal ultrasound-guided intrauterine injection (IUI) technique was developed for embryo transfer and for injection of small quantities of sperm in mares. The target area of a horn was positioned by transrectal manipulation against the wall of the vaginal fornix over the face of a transvaginal transducer. A needle with a catheter containing the embryo or semen was inserted through the needle guide of the transducer into the uterine lumen. The tips of the needle and catheter, the movement of the catheter in the uterine lumen, and the ejection of fluid was monitored on the ultrasound screen. Pregnancy rate 15 days after ovulation for the IUI embryo transfer technique (30/39, 77%) was similar to the pregnancy rate for transcervical (TC) embryo transfer (30/38, 79%). The pregnancy rate for IUI insemination of 20 × 106 progressively motile sperm into the tip of the uterine horn ipsilateral to ovulation was 5/10 (50%). Results indicated that the IUI approach is a viable alternative for embryo transfer. Results also supported the potential of IUI for insemination of low numbers of sperm, but more extensive studies with various doses of sperm are needed. 相似文献
6.
The objectives of the present study were to investigate the bacteria accompanying hydrosalpinx of the buffalo cow and investigate the correlation between bacterial infection of the uterus and hydrosalpinx. Buffalo cows’ reproductive tracts were collected from Mosul abattoir. A total 385 uterine samples were examined of which 25 were having hydrosalpinx. Swabs for bacteriology, fluid for cytology and biopsies for histopathology were collected from the hydrosalpinx and the uterus from each samples included in this study. Results of this study indicated high prevalence of hydrosalpinx (6.5%) including unilateral (n = 19; 76%) and bilateral (n = 6; 24%) hydrosalpinx. Although 16 samples (64%) of the hydrosalpinx samples had no bacterial growth, the most prevalent bacteria recovered from hydrosalpinx were Corynebacterium hemolyticum and Actinomyces bovis, 42.8% and 28.6%, respectively. The most prevalent bacteria in the uterus were Archanobacterium pyogenes (18.5%), Staphylococcus aureus (14.8%), and Listeria monocytogenes (11.0%). Higher rates of leukocytes infiltration (p < 0.01) were observed in the uterine discharge than hydrosalpinx. A significant (p < 0.01) increase in lymphocytes was found in uterine discharge. Microscopic examination of the hydrosalpinx showed mucosal atrophy and dilatation of oviductal lumen without any signs of inflammation. It could be concluded that there is no correlation between bacteria isolated from uterus and hydrosalpinx. No association was found between bacteriological cultures and hydrosalpinx. Inflammation of the uterine tissue could be extended to utero‐tubal junction producing local inflammation resulting in fibrosis and tubal obstruction. The obstruction in the lumen of the oviducts resulted in accumulation of fluid. 相似文献
7.
The objectives of this study were to determine the non‐specific aerobic and anaerobic bacterial causes of endometritis causing repeat breeding of cycling Iraqi buffalo cows at Nineveh province, validate diagnostic criteria for endometritis and to evaluate the treatment efficiency of using systemic or intra‐uterine infusion of antibiotics for the treatment of endometritis. Data were collected from 60 buffalo cows with history of repeat breeding in different herds. All buffaloes were subjected to detailed clinical examination including external inspection, vaginoscopy and transrectal palpation of the cervix, uterus and ovaries. Swabs for bacteriology and biopsies for histopathology were collected from the uterine lumen from each cow. Character, odour and estimation of polymorphonuclear cells (PMN) of the vaginal mucus were scored. Blood samples were collected from cows for creatine kinase (CK) and aspartate aminotransferase (AST) measurement. Treatment conducted using oxytetracycline with tylosin in local intrauterine infusion or systemically with hormonal treatment. The most pre‐disposing factor for uterine infection was retained placenta (13.3%). The most prevalent bacteria in uterine lumen were E. coli (23%), Archanobacterium pyogenes (13%) and Staphylococcus aureus (10%) were mostly isolated from buffaloes with repeat breeding. Vaginal mucus character score was associated with the bacterial growth density score. The difference in PMN was highly significant (p < 0.01) in animals with repeat breeding than control groups. In addition, PMNs was significantly (p < 0.01) correlated r = 0.894 with the character of vaginal discharge. High level of PMNs observed in buffaloes infected with A. pyogenes. Buffalo cows with endometritis had higher CK (321.47 ± 39.06 vs 162.01 ± 16.41 U/l) and AST (133.93 ± 12.43 vs 97.01 ± 6.86 U/l) activities (p < 0.05) than control‐heifers, but no significant difference was observed between buffalo cows with endometritis in CK (321.47 ± 39.06 vs 208.33 ± 5.84) and AST (133.93 ± 12.43 vs 156.17 ± 9.65) activities than control‐pluriparious. It could be concluded that A. pyogenes was the only non‐specific uterine pathogen directly associated with severe endometrial lesions. Vaginoscopy examination combined with palpation of uterus increase the accuracy of diagnosing endometritis and cytogenic examination of uterine discharge is more reliable method of establishing the presence or absence of uterine inflammation in buffalo cows. Animals with repeat breeding (endometritis) showed clinical cure and improved pregnancy in all treatment groups with no significant difference. The use of oestradiol in repeat breeder cases has no effect in improving neither clinical cure rate nor pregnancy rate. 相似文献
8.
Use of a high frequency transducer with real time B-mode ultrasound scanning to identify early pregnancy in cows 总被引:2,自引:0,他引:2
The reproductive tracts of 22 Friesian dairy cows were examined from seven to 35 days after insemination using a real time B-mode ultrasound scanner with a 7.5 MHz transducer. The earliest detection of pregnancy was at nine days when a vesicle was imaged within the lumen of the uterine horn. The early conceptus was seen at day 13 within the vesicle and these structures were followed ultrasonically until day 35. There was a sudden enlargement of the vesicle at day 19 and a heart beat was detected in the embryo at day 22. The allantois was imaged at day 23 and the amnion by day 29. The embryonic outline was clearly defined by day 33 when the body cavities could be discerned. This ability to determine pregnancy at an early stage should prove to be a useful technique in investigating the problems associated with early embryonic death in cattle. 相似文献
9.
J. C. Whitney 《The Journal of small animal practice》1969,10(4):223-230
Abstract— —Twelve cases of Unilateral Pyometra are described with particular reference to the pathology of the genital tract.
As a result of this study, it was concluded that the disparity in size between the two uterine horns was due to interference with drainage from one horn. The causes of obstruction of the uterine lumen are discussed, in particular, torsion of the uterus and stenosis of the lumen which is of significance in all forms of pyometra.
One case that might be described as true Unilateral Pyometra was observed. 相似文献
As a result of this study, it was concluded that the disparity in size between the two uterine horns was due to interference with drainage from one horn. The causes of obstruction of the uterine lumen are discussed, in particular, torsion of the uterus and stenosis of the lumen which is of significance in all forms of pyometra.
One case that might be described as true Unilateral Pyometra was observed. 相似文献
10.
FB Fukushima C Malm M Henry VA Gheller R Serakides MM Neves SP Macedo MS Figueiredo MEJ Andrade MS Chaves MX Silva CMF Rezende EG Melo 《Reproduction in domestic animals》2010,45(6):1059-1064
The aim of this study was to evaluate the distribution of frozen–thawed spermatozoa within the uterine lumen and oviducts following intrauterine laparoscopic deposition at two sites. Twelve bitches of unknown reproductive history were randomly distributed into two groups. Semen (3 ml containing 300 × 106 frozen–thawed spermatozoa) was infused at the uterine body (UB group) or at the cranial tip of the left uterine horn. A 22‐G catheter was used to access the uterine lumen. Sperm cell distribution was evaluated after ovariohysterectomy performed 3 h after artificial insemination (AI). There was no difference between groups in mean time to perform AI. Spermatozoa were detected in all uterine segments, including the tip of both horns, but none was detected in the oviduct. The 22‐G catheter facilitated deposition of semen in the uterine lumen, particularly at the UB site. Sperm cell distribution occurred evenly along both horns, independent of the site of semen deposition. 相似文献
11.
A 25-year-old female chimpanzee with disseminated tuberculosis also had two uterine tumors. One a typical leiomyoma and the other, which occluded the uterine lumen, was composed of cells resembling normal endometrial stroma in its proliferative phase. It was diagnosed as an endometrial stromal tumor and was similar to that which occurs in the human female. This is the first report of this lesion in a nonhuman primate. 相似文献
12.
Bacterial Isolates Associated With Dystocia And Retained Placenta In Iraqi Buffaloes 总被引:1,自引:0,他引:1
The present study was conducted on 50 recently calved Iraqi Buffalo cows. Depending on the kind of parturition, buffalo cows were divided into two main groups, the first group had normal unassisted parturition (NP) (26 animals) and the second group with certain periparturent complications (PPC) (24 animals). After 24 h of parturition, these two groups were further subdivided into two groups as cows expel their foetal membranes in <24 h postpartum and referred as non‐retained placenta (NRP) while cows that did not expel their foetal membrane after 24 h referred as retained placenta (RP). Sampling for bacteriology, uterine discharge for polymorphonuclear cells per cent and blood samples for polymorphonuclear neutrophil (PMN) and the enzyme creatine kinase activity were performed at 6, 24 and 48 h postpartum. In PPC group, the most prevalent bacteria after 6 h of calving were Escherichia coli, β‐haemolytic Streptococci and Lactobacillus acidophilus. Total bacterial isolates in the uterus of buffaloes with RP in PPC group after 24 and 48 h were 129 and 183 respectively. Among the isolates, Archanobacterium pyogenes, Fusobacterium necrophorum, Prevotella melaninogenicus and Staphylococcus aureus were the most prevalent isolates after 48 h of RP buffaloes in PPC group. Polymorphonuclear neutrophil were significantly (p < 0.01) increased in the uterine discharge than in blood in buffaloes with RP in both PPC and NP groups. In conclusion, uterine contamination occurs as a result of postpartum ascending contamination by non‐specific environmental organisms. The presence of Lactobacillus sp. in the uterus indicated a healthy uterus. Peripartum complications followed by retention of foetal membranes with the dominance of E. coli in the uterine lumen might favour the colonization of other bacteria including facultative anaerobic and strictly anaerobic in the uterine wall of buffaloes. 相似文献
13.
Lucas T. Rodrigues Lorenzo GTM Segabinazzi Sidnei N Oliveira Mariana Frasson Frederico O Papa 《Reproduction in domestic animals》2021,56(11):1470-1474
Pregnancy rates after embryo transfer (ET) are disappointing in donkey species. This study aims to report two successful ET of mini-donkey embryos using Brazilian Northeastern jennies as recipients. Eighteen embryo flushes were performed 9 days post-ovulation in two non-pregnant mini-donkeys jennies (11 and 7 cycles per jenny). Eleven embryos (61%, 11/18) were collected and transferred to Brazilian Northeastern jennies 4–6 days post-ovulation by conventional (n = 6) or an alternative (n = 5) technique. The alternative method consisted of inserting a Polansky equine vaginal speculum smeared with lubricant in the vagina of the recipient jenny. The arms of the speculum were extended to allow the visualization of the cervix. Then, using an adapted crafted, elongated, toothed tissue grasping forceps, the external cervical os was held, and the cervix was gently pulled backward, aiming to straight the cervical canal. The ET gun was inserted through the vagina and cervix by visual inspection, and the embryo was released into the uterine lumen. All embryos collected were Grade 1 and classified as Expanded Blastocysts. No jennies become pregnant after conventional ET (0/6), whereas two recipient jennies (40%, 2/5) become pregnant and delivered offspring in the following year after ET using the alternative technique. In conclusion, Brazilian Northeastern jennies can be used as embryo recipients using the alternative method proposed in the present study. However, further investigations are needed to improve the knowledge and results of ET in donkey species. 相似文献
14.
Comparison of Intrauterine Antibiotics versus Ozone Medical Use in Sheep with Retained Placenta and Following Obstetric Assistance 下载免费PDF全文
下载免费PDF全文 This study outlines a new approach to reproductive tract treatment using ozone foam spray for certain ovine obstetrical problems, such as retained foetal membranes and possible uterine infections following obstetric assistance (OA), in comparison with classical antibiotics treatments. The study was conducted on 256 ewes from 11 sheep farms in north‐western Croatia. A total of 139 ewes were diagnosed with dystocia (DT) and 49 with retention of placenta (RP). Ewes with RP were treated either with ozone foam spray (Riger spray G; Novagen®) applied into the body of the uterus for 2–3 s (first or RPO group; n = 24) or with two foaming, intrauterine tablets of oxytetracycline hydrochloride (Geomycin® F) (second or RPA group; n = 25). The third and fourth groups consisted of ewes that received OA for dystocia (including ringwomb, foetal oversize and assistance of abnormal position and posture). The third group (DTO; n = 70) was treated with ozone foam spray, while ewes in fourth group (DTA; n = 69) were treated with antibiotics. The ewes in the control group (CTL) with physiological puerperium were randomly selected (n = 70) from all herds. Transrectal ultrasonography (transversal diameter of uterine horns) was used for the control of uterus regression on days 2 and 25 after parturition. There was a difference in transversal uterine horn diameter in the RP groups, that is RPO and RPA (5.40 ± 0.53 cm vs. 5.43 ± 0.40 cm), ewes with dystocia, that is DTO and DTA (5.37 ± 0.49 cm vs. 5.54 ± 0.60 cm) and ewes from the CTL group (4.98 ± 0.35 cm) one day after parturition. Average transversal uterine diameter of all groups at day 25 post‐partum was 1.80 ± 0.15 cm. The intrauterine ozone treatment in ewes with RP and after manual obstetrics attained similar results to spontaneously delivered ewes (CTL group), showed as the physiological regression of the uterus with a similar transversal diameter without the presence of lochia in the uterine lumen, indicating that this could be a novel potential alternative therapy. 相似文献
15.
After contagious equine metritis bacteria were inoculated into the uterus of mares, genital tract tissues were examined for presence of the organism by bacteriologic cultural technique and an indirect immunofluorescent staining technique. Up to 14 days after mares were inoculated, the organism was frequently in the lumen of the uterus and in the cervix and, less frequently, in the vagina, vestibule, clitoral fossa, clitoral sinus, and uterine tubes. After 21 to 116 days, the organism was occasionally found on the ovarian surface, in the uterine tubes, uterus, cervix, and vagina and more frequently in the clitoral sinus and clitoral fossa. The distribution of organisms in the remainder of the genital tract was not different in mares that had been clitorectomized. 相似文献
16.
Disposition of gentamicin in the genital tract of cows 总被引:1,自引:0,他引:1
S A Al-Guedawy C A Neff-Davis L E Davis H L Whitmore B K Gustafsson 《Journal of veterinary pharmacology and therapeutics》1983,6(2):85-91
The distribution of gentamicin (G) in plasma and uterine lumen was studied following intramuscular (i.m.) and intrauterine (i.u.) treatment. A Foley catheter was inserted into one uterine horn and retained in place by inflation of the cuff. This provided a closed system for collection of uterine lumen samples and analysis of the concentration of gentamicin for 6 h following treatment. Four normal cycling and healthy cows in dioestrus were given i.m. injections of 4 mg gentamicin/kg BW and another two were given i.m. injections of 2 mg gentamicin/kg BW gentamicin. The uteri were infused with 50 ml saline containing phenolsulphonphthalein (PSP) indicator. Blood and infused solution (IS) samples were periodically collected during the 6-h period following i.m. administration. Six hours after injection, approximately 183.7 micrograms gentamicin and 39.4 micrograms gentamicin were accumulated in the uterine lumen of cows receiving 4 mg gentamicin/kg BW and 2 mg gentamicin/kg BW, respectively. The amount of gentamicin reaching the blood stream after i.m. administration of 4 mg gentamicin/kg BW was 2.89 times that reached after administration of 2 mg gentamicin/kg BW based on the area under the curve of plots of plasma concentration of gentamicin versus time. Four normal-cycling and healthy cows in dioestrus were given i.u. infusions of gentamicin (225-275 mg) diluted in 50 ml saline containing PSP indicator using a Foley catheter in a closed system. Samples from the IS and blood were collected at various intervals for 6 h after infusion. Following i.u. infusion of gentamicin, an average of 29.4% of the dose was absorbed into the bloodstream. The majority of the dose of gentamicin (70.6%) remained in the uterine lumen throughout the 6-h period. 相似文献
17.
Gary J. Nie DVM PhD Diplomate ACT Diplomate ABVP Kristina E. Johnson DVM Timothy D. Braden PhD James G.W. Wenzel DVM PhD Diplomate ACT Diplomate ACVPM 《Journal of Equine Veterinary Science》2003,23(6):266-273
A 25- or 35-mm diameter glass ball was placed in the uterus of mares to observe the effect on interovulatory interval, luteal function, estrous behavior, the endometrium, and subsequent fertility. The 25-mm glass ball was spontaneously expelled from the uterus of 6 of 12 mares (50%), whereas none of the 35-mm glass balls was expelled. Teasing results were consistent with the concentration of circulating progesterone. Luteal function was extended in 7 of 18 mares (39%) maintaining a glass ball, whereas an extended luteal period occurred in 4 of 32 mares (13%) observed as controls. Extended luteal function occurred in 7 of 62 diestrus periods (11%) among mares following ball placement, whereas 4 of 50 diestrus periods (8%) were extended in control cycles. The mean luteal life span in mares with a glass ball and extended luteal function was 87 days (range, 76 to 109 days); there were no significant differences in length of luteal function in both groups of mares that received the 2 different ball sizes. Endometrial changes observed between preplacement and postremoval samples were minimal. When mares were bred in the season subsequent to glass ball removal, 17 of 23 (74%) conceived. Placing an intrauterine glass ball in a mare may be an alternative to exogenous hormone therapy to prevent cycling in some mares. Luteal function was extended to nearly 90 days in approximately 40% of mares. The 35-mm diameter glass ball appeared to have an advantage for retention over the 25-mm size. Results of our study could not completely rule out idiopathic persistence of the corpus luteum as an explanation for the extended luteal function observed in mares with a glass ball. Readers are cautioned that many questions still exist about the use of intra-uterine glass balls in mares. Further work is required to confirm the efficacy of the use of an intra-uterine glass ball for prolonged luteal function in mares and to identify its mechanism of action.
Introduction
In recent years, there has been a debate among veterinary practitioners concerning the efficacy of various extra-label uses of progestin products (eg, cattle growth implants and human depo-progestin injectables) to modify behavior in mares. Clients who own horses are more frequently seeking means to suppress behavioral signs of estrus, expecting that with such suppression the mare will train or perform better. Requests for these progestin products by mare owners puts veterinary practitioners in the precarious situation of using pharmaceuticals, extra-label, without scientific evidence of efficacy, in mares.In reality, the only truly effective means of suppressing behavioral signs of estrus in most intact mares is to maintain sufficient concentrations of circulating progesterone or its equivalent. Today the only efficacious way to maintain a sufficient level of progesterone or its equivalent is for the mare to have a functional corpus luteum (CL), administer exogenous progesterone (eg, ≥50 mg in oil, intramuscularly, daily), or administer daily synthetic progestins (eg, altrenogest [Regumate], Hoechst Roussel Vet, Warren, NJ).1, 2 and 3Recently, placement of a glass ball of 30-mm diameter in the uterus has been suggested as a reversible means of preventing mares from cycling and displaying behavioral signs of estrus (message to Equine Clinicians Network, Dr Randy J. T. de Greef, March 19, 2000). If this technique is effective, it would be of value to mare owners because it would eliminate the need for daily treatments over extended periods.We have been unable to find literature that would support or refute this idea in horses. However, the effects on ovarian function, body weight gain, and pregnancy rate in nulliparous heifers of a copper-bearing intrauterine device were studied.4 The researchers reported that the heifers receiving the intrauterine device had lower progesterone concentrations than did control subjects. Nevertheless, nearly all of the treated heifers had better weight gain, were anestrus, and did not become pregnant during the study; however, multiple ovarian follicular cysts developed in many of them. The idea of using an intrauterine device to suppress estrus is said to have originated centuries ago in the Middle East as a common means of keeping camels from cycling and becoming pregnant (personal communication, Dr Ahmed Tibary, College of Veterinary Medicine, Washington State University, Pullman, Wash, May 2000).To our knowledge, the efficacy and long-term effects of glass ball treatment have not been critically evaluated. Our objectives in this study were to observe the effect of placement of an intra-uterine glass ball on interovulatory interval, luteal function, estrous behavior, the endometrium, and subsequent fertility of mares.Materials and methods
Animals
A total of 38 light-horse breed mares ranging in age from 3 to 20 years were used for this study. Mares were maintained in accordance with the Guide for the Care and Use of Agricultural Animals in Agricultural Research and Teaching (1st revised edition, January 1999). All experimental procedures involving animals were approved by the Institutional Animal Care and Use Committee at Auburn University (IACUC Protocol No. 0308-R-2307).Intra-uterine device
Two glass ball (www.glassmarbles.com) sizes, 25- and 35-mm diameters, were evaluated in this study (Fig 1).| Full-size image (49K) |
In preparation for placement, the glass balls were sterilized by autoclaving. Initial attempts at autoclaving resulted in several broken balls. However, use of a liquid cycle with a temperature of 250°F (121°C) and pressure of 16 psi, with no prevacuum or dry cycle and a slow cool-down phase, did not result in further breakage.Upon entering the study, mares were monitored daily via transrectal palpation and ultrasonography for their progression through the estrous cycle. A glass ball was placed in the body of the uterus at the first examination following ovulation. The perineum was cleaned with cotton, tap water, and antiseptic dish detergent. A sterilized sleeve was donned and a small amount of sterile lubricant was applied to the back of the hand. Grasping the glass ball, it was manually carried into the vagina. The ball was placed in the cervical lumen and moved forward with the index finger to the caudal uterine body. After removing the hand from the vagina, the ball was located on transrectal palpation and pushed forward to the horn-body junction if it had not already moved to that position. Once the ball was positioned in the uterus, the vulva was again cleaned as previously described. The uterus was infused with 1 g of ticarcillin disodium (Ticar, SmithKline Beecham Pharmaceuticals, Philadelphia, Pa) in a 35-mL volume and each mare received 250 μg cloprostenol (Estrumate, Bayer Corporation, Shawnee Mission, Kan) intramuscularly to prevent a persistent endometritis if contaminants were introduced with the glass ball.At the end of the glass ball phase of the experiment for a mare, the ball was removed from the uterus during the following estrus when the cervix was softest. Occasionally a mare would require sedation to allow better manipulation of the ball per rectum. Mares with pendulous horns presented the most difficulty. Removal was accomplished by manipulating the glass ball, per rectum, caudally toward the cervix, through the cervix, and then to the vulva for retrieval. If the cervix was not fully dilated, a gloved hand was taken per vagina to the caudal cervical os and the glass ball was retrieved from the lumen.
| Full-size image (38K) |
Mares were also teased to a stallion, and blood was taken for determination of progesterone concentrations. Daily evaluation was continued until 2 ovulations had been detected; after this, daily blood sampling and teasing was continued until 2 more ovulations were detected. However, if at any time mares were found to maintain luteal tissue (continued ultrasonic evidence of a CL, palpable tone in the uterus and cervix, absence of estrus signs on ultrasonography, and absence of estrus behavior) for 35 days, daily evaluation was discontinued and the mares were moved to pasture and blood samples were taken weekly to monitor progesterone concentrations.In mares that did not experience prolonged luteal function (>35 days), the glass ball was removed from the uterus after 4 ovulations had been detected. In mares that experienced prolonged luteal function, the glass ball was removed after progesterone concentrations had fallen to <1 ng/mL followed by a subsequent rise to >4 ng/mL, indicating a subsequent ovulation. Mares that spontaneously expelled the glass ball were removed from the study upon discovery without further sampling.Immediately following removal of a glass ball, an endometrial biopsy was taken for comparison with the preplacement sample. Following removal of the glass balls, mares were bred during the next season under the protocol of another study. Standard breeding management for artificial insemination and several stallions were used. The results reported are for the season and reflect pregnancy outcome at 15 days after ovulation.Estrous cycles (n = 50) were observed in 32 of 38 study mares to establish an interovulatory interval and incidence of spontaneous persistence of the CL as a control for the effect of the treatment protocol. Observations were made during separate control cycles when a glass ball was not in the uterus of any mares that were also used in a treatment group during the study. At least one cycle was evaluated for each of the 32 mares, with some contributing a second cycle. The reproductive tract and circulating progesterone concentrations were evaluated in the same fashion and on the same daily schedule as the treatment groups. During the control cycles, the mares were simultaneously being observed to establish estrous cycle control data for another study. Therefore, when spontaneous persistence of a CL occurred and a luteal phase lasted 30 days, the mare was given prostaglandin to lyse the CL.
Progesterone assay
Circulating progesterone concentrations were used to reflect luteal function. Concentrations higher than 1 ng/mL were considered indicative of functional luteal tissue. Plasma was harvested from blood collected from each mare. Plasma samples were frozen and held at −50°C until assayed in batches of approximately 200. Circulating concentrations of progesterone were quantified using a commercial radioimmunoassay kit (COAT-A-COUNT progesterone radioimmunoassay kit, Diagnostic Products Corporation, Los Angeles, Calif).Statistical analysis
Two measures were derived from each interovulatory period: the interovulatory interval in days and the number of days during which progesterone was >1 ng/mL. The effects of glass ball size, monitoring method, mare and their interactions were tested using the GLM procedure of Statistical Analysis System (SAS Institute, Cary, NC). Ages of mare among groups were compared with use of an unpaired t test (GraphPad InStat version 3.00 for Windows 95, GraphPad Software, San Diego, Calif). The proportion of mares experiencing extended luteal function or spontaneous persistence of a CL during the treatment and control cycles was determined. In addition, the proportion of diestrus periods that resulted in extended luteal function or spontaneous persistence of a CL was determined. The proportion of mares and diestrus periods in which extended luteal function occurred during treatment and control cycles were compared using a Fisher Exact Test (GraphPad InStat version 3.00 for Windows 95, GraphPad Software, San Diego, Calif).Results
A very small amount of uterine fluid (<1 cm depth) was observed via ultrasonography in 3 mares for 2 days following placement of the glass ball. By day 3, however, the fluid was no longer visible in any of the mares, one of which did go on to maintain luteal function for an extended period. None of the mares that developed uterine fluid experienced spontaneous loss of the glass ball.A total of 24 mares had a glass ball of either 25 mm (n = 12) or 35 mm (n = 12) diameter placed in the uterus. The 25-mm glass ball was spontaneously expelled in 6 of 12 mares (50%). Five were expelled within 24 hours of placement and a sixth during a subsequent estrus period, 11 days following placement. None of the 35-mm glass balls was spontaneously expelled.The glass ball was observed to randomly alternate between the left and right uterine horn-body junctions. Movement was observed in every mare except two. In those 2 mares, the 35-mm glass ball was consistently observed at the same site during each examination. One of the mares experienced extended luteal function and the other did not.Overall, 7 of 18 mares (39%) that maintained the glass ball experienced extended (>35 day) luteal function. Extended luteal function was detected during the first diestrus after ball placement in 4 mares, during the second diestrus in one mare, and during the third diestrus in 2 mares. Mean (±SEM) progesterone concentrations during the extended luteal periods are reported in Figs 3, 4, and 5.| Full-size image (13K) |
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There was no difference between the 25- and 35-mm balls in terms of proportion of mares having extended luteal function (2 of 6, 33%, and 5 of 12, 42%; P > .05). Extended luteal function occurred in 7 of 62 diestrus periods (11%) among mares following ball placement. Again, there was no difference between 25- and 35-mm balls in terms of proportion of diestrus periods resulting in extended luteal function (2 of 20, 10%, and 5 of 42, 12%, P > .05).An extended luteal period occurred in 4 of 32 mares (13%) observed for control data. Progesterone concentrations remained above 1 ng/mL for 30 days after ovulation in 4 of 50 control diestrus periods (8.0%) observed. Of the 4 mares that experienced extended luteal function during the control cycle, a glass ball was placed in the uterus of 3 of the mares during the treatment cycles. However, none of the 3 mares experienced extended luteal function while the glass ball was in the uterus. The proportion of mares that experienced extended luteal function (7 of 18, 39%) while a glass ball was in the uterus was greater than the proportion of mares that experienced an extended luteal period (4 of 32, 13%) during the control cycle (P = .04). The proportion of diestrus periods in which extended luteal function occurred was the same whether a glass ball was present in the uterus (7 of 62, 11%) or not (4 of 50, 8%; P = .75).The interovulatory interval was 23.0 (±0.43) days for the control cycles (n = 46) in which an extended luteal period did not occur. This was longer than the interovulatory interval (20.2 ± 0.41 days) for the cycles (n = 55) that occurred subsequent to glass ball placement without apparent extension of luteal function (P < .001). A functional CL was maintained (15.5 ± 0.35 days, range 11 to 23 days) longer in control cycles than in cycles with glass balls (13.2 ± 0.42 days, range 7 to 18 days) in which extended luteal function was not apparent (P < .001). Mean (± SEM) progesterone concentrations for the control cycles (n = 46) and treatment cycles in which an extended luteal period did not occur are presented in Fig 6.
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The mean age of all mares in the study was 9.6 years (range, 3 to 20 years). Mares that experienced extended luteal function were younger, at 8.3 years (±0.87), than mares that did not experience extended luteal function, at 12.6 years (±1.05, P = .012). Mares that spontaneously expelled the glass ball were younger, at 6.3 years (±2.0), than mares that did not expel the glass ball, at 10.9 years (±0.87, P = .024).The interassay and intra-assay coefficient of variation for the progesterone assay was 7% and 3%, respectively. The sensitivity of the assay was 0.02 ng/mL. Estrous behavior observed during the study accurately reflected circulating progesterone concentrations. All mares with a glass ball invariably displayed behavioral estrus scores of 1 or 2 when progesterone concentrations were <1 ng/mL, while scores of 0 were observed when concentrations were >1 ng/mL. Those that experienced extended luteal function also displayed scores of 0 throughout the period while progesterone concentrations were >1 ng/mL and estrus behavior was monitored. A single CL was observed at the primary ovulation site throughout the observation period. No additional CLs were observed in any mare with a glass ball following the primary ovulation.No change in endometrial category was observed between the preplacement and postremoval endometrial samples in any of the mares in the 25-mm glass ball group. In the 35-mm group, the score declined by a category in one mare, improved by a category in 2 mares, and was unchanged in the other 9 mares. The difference in category assigned in those 3 mares was attributed to mild changes, up or down, in the amount of lymphocytic inflammation observed. The mare that declined by one category did not experience extended luteal function, whereas 1 of 2 mares with improvement in endometrial category experienced an extended luteal period.During the season following glass ball removal, 23 of 24 mares were bred, including all of the mares that had experienced extended luteal function. During the season, 17 of 23 (74%) of the mares bred subsequently conceived, including 5 of 7 (71%) of those that had experienced extended luteal function.
Discussion
Placement of the glass ball through the cervix was relatively easy in most of the mares. Occasionally the cervix of a mare would require some degree of manual dilation to push a 35-mm diameter ball through its lumen; however, the 25-mm balls generally passed with ease. During preliminary work, we had found that the glass ball was more likely to be expelled from the uterus if it was placed a day or two before ovulation. Based on the anecdotal information from the Netherlands (message to Equine Clinicians Network, Dr Randy J. T. de Greef, March 19, 2000) and our preliminary experience, we decided to place the glass ball in the uterus at the examination following ovulation. Our assumption when placing the glass ball following ovulation was that the cervix would have started to close under the influence of rising progesterone, which might help prevent it from being expelled. We found that younger mares were more likely to expel the glass ball, perhaps because younger mares have more effective uterine clearance (in estrus and the periovulatory period) and a less dependent uterine position than do older mares. The smaller diameter and lighter weight of the 25-mm glass ball also may have contributed to the spontaneous expulsion from 6 mares, although it is also possible the cloprostenol contributed to the loss in some mares. However, losses observed during preliminary work were not associated with cloprostenol administration, and neither was the loss in this study from the mare that expelled the ball during the subsequent estrus at 11 days following placement.Idiopathic persistence of the primary CL, also known as spontaneous persistence of the CL,7 cannot be completely ruled out as an explanation for the extended luteal function observed in this study. The incidence of idiopathic persistence is reported to vary widely.8 and 9 Ginther and Pierson8 did not observe idiopathic persistence in any of 69 interovulatory intervals, while Stabenfeldt and Hughes9 suggest it can occur in as many as 25% of estrous cycles. However, acceptance of inadequate evidence for the condition may have led to an overestimation of the incidence in some reports.7The proportions of diestrus periods that resulted in an extended luteal period were not different between the control (4 of 50) and glass ball (7 of 62) cycles. However, the proportion of cycles in mares with glass balls inserted is heavily biased by the 4 cycles from each mare that did not experience extended luteal function. A greater proportion of mares (7 of 18) experienced extended luteal function when a glass ball was in the uterus than without a ball (4 of 32) during the control cycles. Four of the mares that experienced extended luteal function with a glass ball in the uterus did so during the first diestrus following placement and did not experience subsequent ovulations. These mares are consequently underrepresented in the proportion of diestrus periods among the mares that had a glass ball inserted, especially if all or some of the mares had experienced additional periods of extended luteal function following subsequent ovulations. This would seem to make the proportion of mares a more valuable indicator of glass ball efficacy. However, in all fairness, we should point out that 2 of 7 mares that experienced extended luteal function did so after the third ovulation following glass ball placement (Fig 5). The control data were collected from 32 mares in 50 estrous cycles; only 18 of the mares were observed in more than one cycle. This may have biased our results for fewer occurrences of idiopathic persistence of the CL, although we believe it is unlikely.Five of the 7 mares in this study that experienced extended luteal function when a glass ball was in the uterus had never previously been observed to have prolonged interovulatory intervals over multiple seasons. Historic data were not available for the other 2 mares. The average length of the luteal period reported to be associated with idiopathic persistence of the CL is approximately 2 months.7 The average length of luteal function observed in this study was 3 months. These several points would seem to support the idea that the extended luteal function observed in this study was indeed affected by the glass ball protocol rather than idiopathic persistence. Therefore, although it is not possible to positively distinguish idiopathic persistence of the primary CL from extended luteal function influenced by the glass ball protocol, we believe that our observations in this study suggest a genuine effect. An explanation is not readily apparent for our observation that mares experiencing extended luteal function were younger than those that did not experience extended luteal function.Two possible explanations for an effect of the glass ball have been discussed (Equine Clinicians Network archives). First, the glass ball simulates a conceptus and through movement and physical contact prevents prostaglandin release from the endometrium, in turn maintaining the CL (an endogenous progesterone source) indefinitely. A second theory suggested that the glass ball would stimulate mild inflammation, in turn causing release of small amounts of prostaglandin that would be inadequate to achieve luteolysis. As long as the glass ball was present, the endometrium would remain in a prostaglandin-depleted state and the CL would be maintained.In the event that the first theory discussed was correct, two glass ball sizes were evaluated in this study to account for a range in vesicle diameter that would be expected to occur naturally during the early stages of pregnancy. However, this theory seems to assume that the physical presence of a spherical structure, in this case a glass ball, in the uterine lumen will prevent prostaglandin release. This is contrary to conventional logic that would assume, as has been demonstrated in other species, that a chemical messenger is produced by the equine conceptus to allow maternal recognition of pregnancy and avoid prostaglandin release.10The second theory is as equally confusing, considering that there are countless reasons why a mare may have low-grade endometrial inflammation, yet clinically we do not recognize scores of mares that maintain their luteal tissue indefinitely. Both theories suggest that the glass ball is mobile enough to contact the majority of the endometrium or cause low-grade endometrial inflammation throughout the uterus. Our findings did not support the idea that the glass ball was particularly mobile in the uterus. Although the ball did move between the uterine horn-body junctions in most mares, the distance moved was only a few centimeters. In 2 mares, the glass ball did not move at all. One of the mares experienced extended luteal function in spite of the lack of ball movement. It probably also would be more logical to assume that an irritant to the endometrium would cause low-grade inflammation, which in turn would likely trigger sufficient release of endogenous prostaglandin F2α to cause luteolysis.11 and 12 Uterine biopsy results did not reflect an increase in endometrial inflammation. Further, the interovulatory interval and functional life of the CL was >2 days longer during control cycles than in cycles when a glass ball was in the uterus. This would suggest that the ball was more likely to cause early regression of the CL.Placing the glass ball following ovulation could predispose a mare to endometritis, considering the procedure involved passing a foreign object, although sterilized, through the cervical lumen after a mare has entered diestrus. A mare susceptible to endometritis may not have time to clear her uterus of contaminants before closing the cervical lumen completely. Based on this rationale and experience during our preliminary work, we decided to provide treatments simultaneous to glass ball placement that were intended to help prevent a persistent postplacement endometritis. Hence, each mare in this study was infused with ticarcillin disodium (Ticar) and treated with cloprostenol (Estrumate) following glass ball placement. Uterine fluid was only observed in a few mares in the first few days following glass ball placement, and it resolved quickly. Nevertheless, it is advisable to re-examine a mare with ultrasonography following placement of a glass ball to ensure a detectable endometritis has not developed.Discussions on the Equine Clinicians Network suggested that the glass ball had no long-term detrimental effects on the uterus. The relatively minor ultrasonic changes detected in the uterus following glass ball placement, the endometrial biopsy results, and a conception in 74% of the mares following glass ball removal would seem to support this claim.It is interesting that the mares experiencing extended luteal function were able to maintain progesterone concentrations above 1 ng/mL for an average of nearly 3 months. This is the period in which we would expect the fetoplacental unit to begin assuming maintenance of pregnancy through the production of pregnanes in an ever-increasing number of pregnant mares. The progesterone profiles in these mares were very similar to those reported for mares hysterectomized 3 days following ovulation.13 The primary CL was present 70 days following ovulation in hysterectomized mares, but disappeared by 140 days.13 We found this was also true of mares that experienced extended luteal function with a glass ball in the uterus.The efficacy of an intrauterine glass ball for maintaining luteal function and thus preventing cycling and behavioral estrus in mares appears to be moderate. Our results were not quite as good as those reported from the Netherlands (Dr Randy J. T. de Greef, message to Equine Clinicians Network, March 19, 2000). The Dutch veterinarian indicated that the technique works in at least 75% of cases; in contrast, we found the technique to be effective in only approximately 40% of mares. Perhaps a placebo effect for mare owners, as is suspected with the use of progestin implants, would explain the additional success reported from the Netherlands.The glass ball protocol takes advantage of endogenous progesterone production to suppress behavioral estrus. Some variation in estrus behavior will be observed in any group of mares teased to a stallion throughout the cycle. However, mares are typically expected to reject a stallion when a functional CL is present and to change from indifferent to receptive as estrogens rise in the absence of a functional CL. Teasing results in this study were consistent with the behavior expected for the concentration of circulating progesterone detected. We did not monitor the mares that experienced extended luteal function beyond their subsequent ovulation, although we speculate that if the glass ball had been left in the uterus, some of the mares may have experienced another extended luteal period. Another researcher related information to us about 2 mares in which he had placed a glass ball (personal communication, Dr Peter Daels, National Institute of Agricultural Research, Nousilly, France, April 2000). The mares experienced extended luteal function, then, following administration of prostaglandin, both mares returned to estrus, retained the glass ball, ovulated, and again experienced extended luteal function.This technique offers the advantage of suppressing behavioral estrus because of endogenous progesterone production over an extended period following a single administration of a glass ball. The disadvantage is that it does not work in every mare nor does it appear to have an immediate effect in every mare following intra-uterine placement of the glass ball. However, when it is effective it may serve as an alternative method for suppressing estrous cycle and/or behavior and thus avoiding the need for administration of exogenous progestin products. Readers are cautioned that many questions still exist about the use of intra-uterine glass balls in mares. Further work is required to confirm the efficacy of the use of an intra-uterine glass ball for prolonged luteal function in mares and to identify its mechanism of action. 相似文献18.
Fuller W Bazer 《畜牧与生物技术杂志(英文版)》2013,4(1):23
Maternal recognition of pregnancy refers to the requirement for the conceptus (embryo and its associated extra-embryonic membranes) to produce a hormone that acts on the uterus and/or corpus luteum (CL) to ensure maintenance of a functional CL for production of progesterone; the hormone required for pregnancy in most mammals. The pregnancy recognition signal in primates is chorionic gonadotrophin which acts directly on the CL via luteinizing hormone receptors to ensure maintenance of functional CL during pregnancy. In ruminants, interferon tau (IFNT) is the pregnancy recognition signal. IFNT is secreted during the peri-implantation period of pregnancy and acts on uterine epithelia to silence expression of estrogen receptor alpha and oxytocin receptor which abrogates the oxytocin-dependent release of luteolytic pulses of prostaglandin F2-alpha (PGF) by uterine epithelia; therefore, the CL continues to produce progesterone required for pregnancy. Pig conceptuses secrete interferon delta and interferon gamma during the peri-implantation period of pregnancy, but there is no evidence that they are involved in pregnancy recognition signaling. Rather, pig conceptuses secrete abundant amounts of estrogens between Days 11 to 15 of pregnancy required for maternal recognition of pregnancy. Estrogen, likely in concert with prolactin, prevents secretion of PGF into the uterine venous drainage (endocrine secretion), but maintains secretion of PGF into the uterine lumen (exocrine secretion) where it is metabolized to a form that is not luteolytic. Since PGF is sequestered within the uterine lumen and unavailable to induce luteolysis, functional CL are maintained for production of progesterone. In addition to effects of chorionic gonadotrophin, IFNT and estrogens to signal pregnancy recognition, these hormones act on uterine epithelia to enhance expression of genes critical for growth and development of the conceptus. 相似文献
19.
应用HE染色方法和免疫荧光组织化学技术对小鼠生后不同发育阶段子宫组织结构的发育以及极性调控蛋白Crb1的定位表达进行了研究,结果显示,随个体发育,子宫管腔及子宫腺腔不断扩大,子宫内膜上皮持续增厚、固有层内子宫腺逐渐发达;4周龄时子宫腔面出现纤毛,随发育进程越来越发达;在各发育阶段的小鼠子宫组织中均有Crb1的表达,随个体发育表达呈现先增强后减弱的趋势,在8周龄时达到最强;Crb1主要定位于子宫内膜上皮细胞和子宫腺上皮细胞的胞膜和胞质,提示Crb1可能与小鼠子宫内膜上皮细胞和腺上皮细胞的极性建立和维持有关。 相似文献
20.
M. M. LeBlanc 《Equine Veterinary Education》2009,21(3):156-167
Antibiotics are infused into the uterine lumen, added to semen extenders and given systemically for infections of the reproductive tract of the mare and stallion. Evidence‐based guidelines for determining treatment length and route of administration are limited and use is frequently based on convenience or tradition. Current recommended antibiotic use for the treatment of bacterial and fungal endometritis, placentitis and metritis in the mare and genital infections of the stallion are presented. Antibiotic classes used for reproductive problems are also reviewed. 相似文献