Clinical and Ultrasonic Study for Detection of Pregnancy in Iraqi Buffaloes

Main Article Content

AL-Sariy, S. M.
AL-Yasiri E. A.
AL-Hamedawi T. M.

Abstract

The present study was conducted on 10 Iraqi pregnant buffaloes aged between 3-6 years at Al-Qasim district- Babylon province, Iraq from December 2018 to December 2019. Those animals diagnosed by rectal palpation and ultrasonography technique to estimate the reproduction status. The results of this study reported wandering of ovum in 10% of animals (1/10). While ultrasonography characterized by increasing placentomes measurement gradually with development of gestation, and the placentomes recorded 8.32±2.46 mm, 13.27±3.25 mm, 18.37±5.34 mm, 23.25±8.63 mm and 28.2±6.87 mm in the 2nd , 3rd, 4th, 5th and 6th month, respectively. Also the total size was recorded by the crown rump length (CRL), which was 0.77±0.05 cm, 5.81±2.54 cm and 14.09±0.73 cm in the 1st, 2nd, and 3rd month, respectively. The heart beat and embryonic vesicle during the 1st and 2nd month were detectable by ultrasonography. In conclusions in the present study, rectal palpation and ultrasonography technique represented one of the most important methods to estimate the gestation period in different stages.

Downloads

Download data is not yet available.

Article Details

How to Cite
Clinical and Ultrasonic Study for Detection of Pregnancy in Iraqi Buffaloes. (2020). The Iraqi Journal of Veterinary Medicine, 44(1), 57-62. https://doi.org/10.30539/ijvm.v44i1.935
Section
Articles

How to Cite

Clinical and Ultrasonic Study for Detection of Pregnancy in Iraqi Buffaloes. (2020). The Iraqi Journal of Veterinary Medicine, 44(1), 57-62. https://doi.org/10.30539/ijvm.v44i1.935

References

El-Wishy AB. The postpartum buffalo: I. Endocrinological changes and uterine involution. Anim. Reprod. Sci.2007; 97(3-4): 201-215.

Barbato O, Barile, V L. The pregnancy diagnosis in buffalo species laboratory methods.

J Buffalo Sci. 2012; 1(2): 157-162.

Pawshe CH, Rao KA, Totey SM. Ultrasonographic imaging to monitor early pregnancy and embryonic development in the buffalo (Bubalusbubalis). Theriogenology. 1994; 41(3): 697-709.

Reese ST, Pereira MC, Vasconcelos JL M, Smith M F, Green JA, Geary TW. et al. Markers of pregnancy:

How early can we detect pregnancies in cattle using pregnancy-associated glycoproteins (PAGs) and microRNAs. (AR). 2018; 13(3): 200-208.

Ali A, Abdel]Razek AK, Abdel]Ghaffar S, Glatzel PS. Ovarian follicular dynamics in buffalo cows (Bubalus bubalis). Reprod. Domest. Anim. 2003; 38(3): 214-218.

Karen A M, Darwish S, Ramoun A, Tawfeek K, Van Hanh N, de Sousa NM, Beckers JF. Accuracy of transrectal palpation for early pregnancy diagnosis in Egyptian buffaloes. Trop Anim Health Prod.2011;43(1): 5-7.

Pawshe CH, Purohit GN. Approaches for diagnosis of pregnancy in female buffaloes. Bubaline Theriogenology. IVIS, Ithaca NY A. 2013;5708:0613 [updated: 2013 Jun26]. available from: http://www.ivis.org.

Jerome A, Singh SK, Agarwal SK. Interaction analysis of buffalo pregnancy associated glycoprotein-1 in silico. Indian J Anim Sci. 2013; 83(11): 1149-1154.

Medan MS, El-Aty AA. Advances in ultrasonography and its applications in domestic ruminants and other

farm animals reproduction. J. Adv. Res. 2010; 1(2): 123-128.

Steel RG, Torrie JH. Principles and procedures of statistics: a biometrical approach. 4th Ed.New York:

Mcgraw-Hill;1982.633p.

Bekele N, Addis M, Abdela N, Ahmed W M. Pregnancy diagnosis in cattle for fertilimanagement. a review. Glob Vet. 2016; 16(4): 355-364.

Usmani R H, Ahmad M, Inskeep EK, Dailey R A, Lewis P E, Lewis GS. Uterine involution and postpartum ovarian activity in Nili-Ravi buffaloes. Theriogenology. 1985; 24(4): 435-448.

Kirkpatrick JF, Bancroft K, Kincy V. Pregnancy and ovulation detection in bison (Bison bison) assessed by means of urinary and fecal steroids. J Wildl Dis. 1992; 28(4): 590-597.

Gere. D, .evrnja B, .ub.i. D, Zobel R, Vuli. B, Staklarevi. N. et al. Asymmetrical functional activities of ovaries and tubular part of reproductive organs of dairy cows. Vet Arh.2011; 81(2): 187-98.

Khaton R, Sarder MJU,Gofur MR. Biometrical Studies of Reproductive Organs of Dairy Cows of Different Genotypes in Bangladesh. Asian J. Anim. Sci.2015; 9(6): 388-395.

Fetrow J, Stewart S, Eicker S, Rapnicki P. Reproductive health programs for dairy herds: analysis of records

for assessment of reproductive performance. InCurrent therapy in large animal theriogenology 2007; (473-489). Elsevier Inc..

Karen A, Darwish S, Ramoun A, Tawfeek K, Van Hanh N, De Sousa NM. et al. Accuracy of ultrasonography

and pregnancy-associated

glycoprotein test for pregnancy diagnosis in buffaloes. Theriogenology. 2007; 68(8):1150-1155.

Patel MD. Early Pregnancy Diagnosis in Dairy Animals. Int. J. Agric. 2016; 8(11): 1134-1136.

Drost M.Bubaline versus bovin ereproduction. Theriogenology. 2007; 68(3): 447-449.

Schmidt S, Gerber D, Soley JT, Aire T A, Boos A. Histo-morphology of the uterus and early placenta of the African buffalo (Syncerus caffer) and comparative placentome morphology of the African buffalo and cattle

(Bos taurus). Placenta. 2006;27(8): 899-911.

Ali A,Fahmy S.Ultrasonographic fetometry and determination of fetal sex in buffaloes (Bubalus bubalis). Anim. Reprod. Sci.2008; 106(1-2):90-99.

Zaher H, Abdalla H, Labib F, Eidaroos A. Transrectal combined thickness of the uterus and placenta in

normal pregnant Egyptian buffalo-cows. Theriogenology. 2012; 77(7): 1438-1441.

Estrella CA, Kind KL, Derks A, Xiang R, Faulkner N, Mohrdick M. et al. Remodelling of the bovine placenta: Comprehensive morphological and histomorphological characterization at the late embryonic and early accelerated fetal growth stages. Placenta. 2017 ;55:37-46.