<p>The early pregnancy diagnosis method by measuring interferon-stimulated genes (ISGs) in peripheral blood can be used in cattle after artificial insemination (AI) with high accuracy. ISGs are genes whose expression is induced by interferon tau (IFNT) in the trophectoderm of the conceptus during early pregnancy in cattle. We evaluated the applicability of ISG-based pregnancy diagnosis in embryo-transferred (ET) cattle. ISG levels in the peripheral blood were measured on days 19 and 21 of gestation in ET cattle, and diagnostic accuracy was calculated. The diagnostic potential of ISG was assessed using previously established threshold values for AI cattle. The diagnostic threshold values for ET cattle were also calculated using the Youden index from the receiver operating characteristic curve. Regardless of the threshold values used, the results showed significantly higher ISG expression in pregnant than in non-pregnant cattle on day 21, but not on day 19. Pregnancy diagnosis in ET cattle resulted in reduced accuracy, particularly on day 19, compared to AI cattle. These findings suggest that the causes of non-conception may differ between AI and ET cattle. These findings highlight the limitations of using ISG-based early pregnancy diagnosis during the preimplantation period in ET cattle.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

The applicability of pregnancy diagnosis using interferon-stimulated genes in embryo-transferred Japanese Black cattle

  • Hitomi Yoshino,
  • Toh-ichi Hirata,
  • Hideo Matsuda,
  • Tadayuki Yamanouchi,
  • Yutaka Hashiyada,
  • Kei Imai,
  • Toru Takahashi,
  • Toshina Ishiguro-Oonuma,
  • Kazuyoshi Hashizume,
  • Keiichiro Kizaki

摘要

The early pregnancy diagnosis method by measuring interferon-stimulated genes (ISGs) in peripheral blood can be used in cattle after artificial insemination (AI) with high accuracy. ISGs are genes whose expression is induced by interferon tau (IFNT) in the trophectoderm of the conceptus during early pregnancy in cattle. We evaluated the applicability of ISG-based pregnancy diagnosis in embryo-transferred (ET) cattle. ISG levels in the peripheral blood were measured on days 19 and 21 of gestation in ET cattle, and diagnostic accuracy was calculated. The diagnostic potential of ISG was assessed using previously established threshold values for AI cattle. The diagnostic threshold values for ET cattle were also calculated using the Youden index from the receiver operating characteristic curve. Regardless of the threshold values used, the results showed significantly higher ISG expression in pregnant than in non-pregnant cattle on day 21, but not on day 19. Pregnancy diagnosis in ET cattle resulted in reduced accuracy, particularly on day 19, compared to AI cattle. These findings suggest that the causes of non-conception may differ between AI and ET cattle. These findings highlight the limitations of using ISG-based early pregnancy diagnosis during the preimplantation period in ET cattle.