Investigation of male and female infertility in llamas and alpacas

Ovarian Dynamics and Pathological Conditions in Camelids

Domestic camelids comprise Dromedary, Bactrian (old-world camelids, OWC), alpaca, and Lama (new-world camelids, NWC). They possess unique reproductive physiology distinct from other livestock. A key feature is being induced ovulators, triggered by beta nerve growth factor (βNGF) present in the seminal plasma. Proper ovarian function is crucial for reproductive management and biotechnologies. In the absence of ovulation, camelids display overlapping follicular waves, with puberty and sexual receptivity influenced by factors like weight and age. Follicular growth patterns vary among these species and are better monitored via transrectal ultrasonography. Physiological variations in ovarian dynamics and hormonal activity differ among members of the Camelidae. Understanding these differences is essential for production and conservation efforts, particularly in wild species. Ovarian disorders, including failure to ovulate or respond to therapy, frequently cause subfertility or infertility in affected females. Superstimulatory and synchronisation protocols that rely on exogenous progestin, eCG, and FSH supplementation have been developed to address some causes of irregular ovarian dynamics. This paper reviews the current knowledge on follicular wave dynamics, their manipulation, and the common ovarian disorders affecting reproduction in camelids.

Pregnancy Establishment and Diagnosis in Livestock

This comprehensive review explores the complex processes of reproduction, pregnancy establishment, and pregnancy diagnostic methods in cattle, sheep, goats, swine, horses, and camelids. It provides an overview of the history of pregnancy detection and an in-depth exploration of the physiology of pregnancy in livestock. The detection of conceptus tissue and fluids, conceptus-produced hormones, and maternal responses to conceptus signals, crucial for pregnancy diagnosis, are also discussed in detail, as are emerging methods for pregnancy diagnosis in livestock species. Overall, this review emphasizes the direct impact of pregnancy diagnosis and efficient pregnancy management for profitability of livestock enterprises.

Clinical and Histological Features of Ovarian Hypoplasia/Dysgenesis in Alpacas

Alpacas have a high incidence of congenital reproductive tract abnormalities, including ovarian hypoplasia/dysgenesis. Diagnosis of this condition is often challenging. The present study describes the clinical, ultrasonographic, and histologic features of ovarian hypoplasia/dysgenesis syndrome in 5 female alpacas. Additionally, serum AMH levels were compared between female alpacas diagnosed with ovarian hypoplasia/dysgenesis and a group of reproductively sound females (n = 11). The syndrome was suspected based on the presence of an infantile uterus and lack of ovaries by ultrasonography and laparoscopy. All females had normal female karyotype (n = 74 XX), but one presented a minute chromosome. The ovaries from these cases showed 3 main histological classifications: hypoplasia (n = 2), dysgenesis (n = 2), and dysplasia (n = 1). Serum AMH levels in affected females were significantly lower (P < 0.05) than those of reproductively sound control females. In conclusion, Serum AMH level may be helpful in the rapid diagnosis of ovarian hypoplasia/dysgenesis syndrome in alpacas. Furthermore, this syndrome in alpacas presents a variety of histological features. Different mechanisms may be involved in the derangement of ovarian differentiation. Further studies are needed to elucidate the causes of the syndrome.