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RESEARCH ARTICLE

164 Gonadotrophin-releasing hormone injection and colour flow Doppler ultrasound of the preovulatory follicle as a tool to increase pregnancy outcome after timed AI in beef cows

L. Pfeifer A , J. Andrade B , E. Moreira C , G. Silva D , V. Souza D , V. Nunes A and L. Siqueira E
+ Author Affiliations
- Author Affiliations

A Brazilian Agricultural Research Corporation, Porto Velho, RO, Brazil;

B Bionorte, Porto Velho, RO, Brazil;

C FAPERO, Porto Velho, RO, Brazil;

D Federal University of Rondonia, Porto Velho, RO, Brazil;

E Brazilian Agricultural Research Corporation, Juiz Iora, MG, Brazil

Reproduction, Fertility and Development 32(2) 209-209 https://doi.org/10.1071/RDv32n2Ab164
Published: 2 December 2019

Abstract

The aims of this study were to determine (1) the association between Doppler vascularisation scores (DVS) of the preovulatory follicle (POF) and fertility of beef cows submitted to timed AI (TAI) and (2) whether cows with low DVS benefit from a gonadotrophin-releasing hormone (GnRH) treatment at TAI. Multiparous lactating Nelore cows (Bos indicus; n = 69) from a commercial beef farm in the state of Rondônia, Brazil, were enrolled in this study. Cows received 2 mg of oestradiol benzoate intramuscularly (Bioestrogen, Biogénesis Bagó) and an intravaginal progesterone-releasing device (1.9 g of progesterone; controlled internal drug release, CIDR) to synchronise follicular wave emergence on Day 0. The CIDR device was removed and cows were treated with 150 μg of D-cloprostenol intramuscularly (prostaglandin F analogue; Croniben), 1 mg of oestradiol cypionate intramuscularly, and 300 IU of equine chorionic gonadotrophin (Novormon) intramuscularly on Day 8. Cows were then painted with a tail chalk marker to identify those displaying oestrus. All cows were submitted to TAI 48 h after CIDR removal. At TAI, occurrence of oestrus was recorded and all cows were examined using transrectal ultrasonography. Blood flow of the POF was evaluated using colour Doppler imaging. Colour Doppler signals present on the follicular wall were subjectively scored using a 1-to-4 scale (1 = absence or very low blood flow, and 4 = intense blood flow detected on most of the follicular wall surface) adapted from Ginther (2007 Ultrasonic Imaging and Animal Reproduction: Color-Doppler Ultrasonography, pages 87-114). Then, cows were divided into three groups according their DVS of the POF: (1) high DVS (DVS ≥3; n = 36), (2) low DVS (DVS <3; n = 16), and (3) low DVS (DVS <3; n = 17) plus a GnRH treatment at TAI. The diameter of the POF was analysed using analysis of variance (PROC GLIMMIX of SAS; SAS Institute Inc.), and the means were compared among groups using Tukey's test. The proportion of cows that displayed oestrus and pregnancy rates was analysed using chi-square test. Cows in the high-DVS group had a larger POF than cows in the low-DVS and low-DVS-GnRH groups (13.2 ± 0.2, 11.7 ± 0.5, and 12.2 ± 0.4, respectively; P < 0.05). The proportion of cows that displayed oestrus was greater (P < 0.05) in the high-DVS group (72%, 26/36) than in the low-DVS (37.5%, 6/16) or low-DVS-GnRH (53%, 9/17) groups. Finally, greater (P < 0.05) pregnancy rates were observed in cows from the high-DVS (47.2%; 17/36) and low-DVS-GnRH (52.9%; 9/17) groups than in cows from the low-DVS group (18.7%; 3/16). The preliminary results from this study demonstrated that diameter of POF is positively associated with DVS. Moreover, cows that presented POF with higher DVS are more likely to become pregnant, and the administration of GnRH to females with low DVS can increase the fertility of beef cows submitted to TAI protocols.

This study received funding support from Embrapa (MP1/PC3 project no. 01.03.14.011.00.00) and from CNPq (universal project no. 407307/2016-8).