Knickerbocker J J, Thatcher W W, Foster D B, Wolfenson D, Bartol F F, Caton D
Prostaglandins. 1986 Apr;31(4):757-76. doi: 10.1016/0090-6980(86)90179-6.
Normal cyclic dairy cattle (n = 7) underwent a midventral laparotomy on day 17 of the estrous cycle and were fitted, ipsilateral to the CL, with: an electromagnetic flow transducer around the uterine artery (UA; n = 5); catheters within the ovarian vein (OV; n = 7) via a uterine branch of the ovarian vein, uterine branch of the ovarian artery (UBOA; n = 5) and facial artery (FA; n = 7). On day 18, blood samples were collected at 30 min intervals for 1 h prior to injection of estradiol-17 beta (E2; 3 mg) and 12 h post-E2. Uterine blood flow (UBF) was monitored continuously and plasma samples analyzed for PGF2 alpha and PGFM. Exact locations of catheters in reproductive tracts were verified post-slaughter. Data were analyzed by method of least squares analysis of variance. Uterine blood flow (ml/min) increased above pre-E2 flow rates within 30 min post-E2 injection, peaked between 2.5 to 3.5 h and declined between 4 to 8.5 h. A small secondary rise in UBF occurred between 9 and 12 h. Regression analysis for concentrations (pg/ml) of PGF2 alpha and PGFM in the OV (i.e., [OV]-[FA]) demonstrate a similar response as PGFM concentration in the FA in that all increased at approximately 3 h, peaked between 5 and 7 h and returned to near baseline levels by 9 to 10 h post-E2. Facial artery PGFM concentrations were positively correlated with uterine production of PGF2 alpha (r = .66) and PGFM (r = .30), whereas FA PGF2 alpha concentrations were not. In three of five cows, a difference in PGF2 alpha was detected between UBOA and FA (UBOA greater than FA); supportive of a local countercurrent exchange between the uterine venous drainage and the ovarian artery.
正常的周期性奶牛(n = 7)在发情周期的第17天接受腹正中剖腹术,并在与黄体同侧安装:子宫动脉(UA;n = 5)周围的电磁流量传感器;通过卵巢静脉的子宫分支、卵巢动脉的子宫分支(UBOA;n = 5)和面动脉(FA;n = 7)在卵巢静脉(OV;n = 7)内放置导管。在第18天,在注射雌二醇-17β(E2;3mg)前1小时每隔30分钟采集一次血样,并在注射E2后12小时采集血样。持续监测子宫血流量(UBF),并分析血浆样本中的前列腺素F2α(PGF2α)和13,14-二氢-15-酮前列腺素F2α(PGFM)。屠宰后验证导管在生殖道中的准确位置。数据采用最小二乘方差分析法进行分析。子宫血流量(ml/分钟)在注射E2后30分钟内高于注射E2前的流速,在2.5至3.5小时之间达到峰值,并在4至8.5小时之间下降。UBF在9至12小时之间出现了一个小的二次上升。对卵巢静脉中PGF2α和PGFM浓度(pg/ml)的回归分析(即[OV]-[FA])显示,其反应与面动脉中PGFM浓度相似,即所有浓度在大约3小时时升高,在5至7小时之间达到峰值,并在注射E2后9至10小时恢复到接近基线水平。面动脉PGFM浓度与子宫PGF2α(r = 0.66)和PGFM(r = 0.30)的产生呈正相关,而面动脉PGF2α浓度则不然。在五头奶牛中的三头中,检测到UBOA和面动脉之间的PGF2α存在差异(UBOA大于面动脉);支持子宫静脉引流和卵巢动脉之间的局部逆流交换。
