Effect of eCG on Terminal Follicular Growth and Corpus Luteum Development and Blood Perfusion in Estrous-Synchronized White Lamphun Cattle

Equine chorionic gonadotropin (eCG) has been shown to improve reproductive performance in cattle by stimulating terminal follicular growth. This study was designed to assess the effects of 400 IU of eCG on TFG and its consequences for luteal development in indigenous cows undergoing ovulation synchronization. Specifically, we investigated the follicular and luteal dynamics following eCG treatment using structural markers (follicular and luteal diameters and luteal area) and functional markers (P4 profiles and luteal blood perfusion) to evaluate CL development. A total of twelve cows were assigned into two groups: an untreated control group and an eCG-treated group (n = 6 in each). Ultrasonography was used to scan the ovaries and monitor the development of TFG and ovulation from day 0 to ovulation. The diameter in TFG was measured daily, and the terminal follicle (TF) was identified as the preovulatory follicle throughout the study period. Ovulation was defined by the disappearance of the TF. Following ovulation, the progression of CL development in both groups was observed on days 5–6, and the mid-stage CL was identified between days 9 and 12 post-ovulation. The results indicated a faster increase in the terminal follicular diameter (TFD). From day 4 to ovulation, the eCG-treated group showed a significantly greater terminal follicular growth rate (TFGR) compared to that in the untreated control group. This enhanced follicular growth in the eCG-treated group was associated with more robust CL blood perfusion and maturation. The Doppler imaging assessments revealed a significant increase in the blood perfusion within the CL, which corresponded with the accelerated TFG. Pearson’s correlation analysis showed strong positive relationships between follicular growth, luteal function, and CL blood perfusion, underscoring the interconnectivity of these processes. In conclusion, our results highlighted the key role that eCG administration has in TFG and CL development and function in White Lamphun cattle.