[en] The present study was undertaken to investigate to what extent pregnancy diagnoses made by transrectal ultrasonography could be confirmed by measurements of plasma concentration of ovine pregnancy-associated glycoproteins (ovPAG). A total of 424 Awassi x Merino ewes were synchronized for estrus and examined by transrectal ultrasonography. In Experiment 1, the ewes (n = 156) were repeatedly scanned in a standing position on d 29, 36 and 50 of gestation. Similarly, the ewes (n = 268) in Experiment 2 were scanned on d 24, 29 and 34 of gestation, but these ewes were fasted for 12 h prior to the examination and the abdominal wall of each animal was lifted up by the hands of the assistant during the scanning. Blood samples were withdrawn after each transrectal ultrasonographic examination in both experiments. Ovine PAG concentrations were measured in plasma by a heterologous radioimmunoassay and the cut-off value for pregnancy was greater than or equal to 1 ng.mL(-1). Based on the lambing performance, in Experiment 1, altogether 47 false negative and 38 false positive diagnoses were made by transrectal ultrasonography in 24 and 33 ewes, respectively between d 29 and 50 of gestation. In Experiment 2, altogether 8 false negative and 13 false positive diagnoses both were made in 7 ewes between d 24 and 34 of gestation. In both experiments, all ewes with false negative diagnoses had ovPAG concentrations higher than the threshold level for pregnancy diagnosis and all ewes with false positive diagnoses had ovPAG concentrations lower than the threshold of pregnancy. Furthermore, by the PAG-RIA test all lambed or aborted ewes (n = 63) were correctly diagnosed as pregnant and with three exceptions, all non-lambed ewes (n = 361) were correctly diagnosed as non-pregnant during the examined periods of both experiments.
Disciplines :
Veterinary medicine & animal health
Author, co-author :
Karen, A.
Beckers, Jean-François ; Université de Liège - ULiège > Département de sciences fonctionnelles > Physiologie de la reproduction
Sulon, Joseph ; Université de Liège - ULiège > Département de sciences fonctionnelles > Physiologie de la reproduction
El Amiri, B.
Szabados, K.
Ismail, S.
Reiczigel, J.
Szenci, T.
Language :
English
Title :
Evaluation of false transrectal ultrasonographic pregnancy diagnoses in sheep by measuring the plasma level of pregnancy-associated glycoproteins
Cunningham W, Marsh D. Pregnancy diagnosis. In: Youngquist RS (Ed), Current Therapy in Large Animal Theriogenology, WB Saunders Company, Philadelphia, 1997, p 612-616.
Garcia A, Neary MK, Kelly GR, Pierson RA. Accuracy of ultrasonography in early pregnancy diagnosis in the ewe. Theriogenology 1993, 39: 847-861.
Gearhart MA, Wingfield WE, Knight AP, Smith JA, Dargatz DA, Boon JA, Stockes CA. Real-time ultrasonography for determining pregnancy status and viable fetal numbers in ewes. Theriogenology 1988, 30: 323-337.
Kaulfuss KH, Zipper N, May J, Suss R. Ultrasonic pregnancy diagnosis (B-mode) in sheep. 2. Comparative studies using transcutaneous and transrectal pregnancy diagnosis. Tierärztl Prax 1996, 24: 559-566.
Buckrell BC, Bonnett BN, Johnson WH. The use of real-time ultrasound rectally for early pregnancy diagnosis in sheep. Theriogenology 1986, 25: 665-673.
Kähn W, Achtzehn J, Kähn B, Richter A, Schulz J, Wolf M. Sonography of pregnancy in sheep. II. Accuracy of transrectal and transcutanous pregnancy diagnosis. Dtsch Tierarzt Wochenscher 1993, 100: 29-31.
Buckrell BC. Application of ultrasonography in reproduction in sheep and goats. Theriogenology 1988, 29: 71-84.
Karen A, Szabados K, Beckers JF, Szenci O. Accuracy of transrectal ultrasonography for determination of early pregnancy in sheep: Effect of fasting and handling of animals. Cairo: Proc. 53rd EAAP Annual Meeting, 2002, p 115.
Bretzlaff K, Romano JE. Advanced reproductive techniques in goats. Vet Clin North Am Food Anim Pract 2001, 17: 421-434.
Xie S, Low BG, Nagel RJ, Kramer KK, Anthony RV, Zoli AP, Beckers JF, Roberts RM. Identification of the major pregnancy-specific antigens of cattle and sheep as inactive members of aspartic proteinase family. Proc Natl Acad Sci USA 1991, 88: 10247-10251.
Green JA, Xie A, Quan X, Banga B, Gan X, Mathialagan N, Beckers JF, Roberts MR. Pregnancy-associated bovine and ovine glycoproteins exhibit spatially and temporally distinct expression patterns during pregnancy. Biol Reprod 2000, 62: 1624-1631.
Zarrouk A, England I, Sulon J, Beckers JF. Determination of pregnancy-associated glycoprotein concentrations in goats (Capra hircus) with unsuccessful pregnancies: A retrospective study. Theriogenology 1999, 51: 1221-1231.
Ranilla MJ, Sidon J, Carro MD, Mantecon AR, Beckers JF. Plasmatic profiles of pregnancy-associated glycoprotein and progesterone levels during gestation in Churra and Merino sheep. Theriogenology 1994, 42: 537-545.
Ranilla MJ, Sulon J, Mantecon AR, Beckers JF, Carro MD. Plasma pregnancy-associated glycoprotein and progesterone concentrations in pregnant Assaf ewes carrying single and twin lambs. Small Runim Res 1997, 24: 125-131.
González F, Sulon J, Garbayo JM, Batista M, Cabrera F, Calero PO, Gracia A, Beckers JS. Early pregnancy diagnosis in goats by determination of pregnancy-associated glycoprotein concentrations in plasma samples. Theriogenology 1999, 52: 717-725.
González F, Sulon J, Garbayo JM, Batista M, Cabrera F, Calero PO, Gracia A, Beckers JS. Secretory profiles of pregnancy-associated glycoproteins at different stages of pregnancy in the goat. Reprod Domest Anim 2000, 35: 79-82.
Garbayo JM, Green JA, Manikkam M, Beckers JF, Keisling DO, Ealy AD, Roberts MR. Caprine pregnancy associated glycoproteins (PAG): Their cloning, expression, and evolutionary relationship to other PAG. Mol Reprod Dev 2000, 57: 311-322.
Zoli AP, Beckers JF, Wouters-Ballman P, Closset J Falmagne P, Ectors F. Purification and characterization of a bovine pregnancy-associated glycoprotein. Biol Reprod 1991, 45: 1-10.
Zoli AP, Beckers JF, Ectors F. Isolation and partial characterization of an ovine pregnancy associated glycoprotein. Ann Med Vet 1995, 139: 177-184.
Garbayo JM, Remy B, Alabart JI, Folch J, Wattiez R, Falmange P, Beckers JF. Isolation and partial characterization of a pregnancy-associated glycoprotein family from the goat placenta. Biol Reprod 1998, 58: 109-115.
Karen A, Beckers JF, Sulon J, Sousa NM, Szabados K, Reczigel J, Szenci O. Early pregnancy diagnosis in sheep by progesterone and pregnancy-associated glycoprotein tests. Theriogenology 2003, 59: 1941-1948.
Schrick FN, Inskeep EK. Determination of early pregnancy in ewes utilizing transrectal ultrasonography. Theriogenology 1993, 40: 295-306.
Perényi ZS, Szenci O, Drion PV, Banga-Mboka H, Sousa NM, El-Amiri B, Beckers JF. Aspartic proteinase members secreted by the ruminant placenta: Specificity of three different radioimmunoassay systems for measurement of pregnancy-associated glycoproteins. Reprod Domest Anim 2002, 37: 324-329.
Perényi ZS, Szenci O, Salon J, Drion PV, Beckers JF. Comparison of the ability of three radioimmunoassay to detect pregnancy-associated glycoproteins in bovine plasma. Reprod Domest Anim 2002, 37: 100-104.
Martin SW, Meek AH, Willeberg P. Veterinary Epidemiology, Principles and Methods. Iowa State University Press, Iowa, 1987.
Armitage P, Berry G. Statistical Methods in Medical Research. Blackwell Science Ltd, London, 1998.
Bretzlaff K, Edwards J, Forrest D, Nuti L. Ultrasonographic determination of pregnancy in small ruminants. Vet Med 1993, 88: 12-24.
Szenci O, Gyulay GY, Nagy P, Kovács L, Varga J, Taverne MAM. Effect of uterine location relative to the pelvic inlet on the accuracy of early bovine pregnancy diagnosis by means of ultrasonography. The Vet Quart 1995, 17: 37-39.
Sharky S, Callan RJ, Mortimer R, Klimberling C. Reproductive techniques in sheep. Vet Clin North Am Food Anim Pract 2001, 17: 235-255.
Bretzlaff KN. Development of hydrometra in a ewe flock after ultrasonography for determination of pregnancy. J Am Vet Med Assoc 1993, 203: 122-125.
Kähn W. Ultrasonography in sheep and goats. In: Veterinary Reproductive Ultrasonography, Mosby-Wolf, London, 1994, p 187-210.
