OVARIAN MORPHOLOGY, ENDOCRINE FUNCTION AND INTRA-FOLLICULAR BLOOD-FLOW DURING THE PERI-OVULATORY PERIOD

被引：86

作者：

COLLINS, W

JURKOVIC, D

BOURNE, T

KURJAK, A

CAMPBELL, S

机构：

[1] Department of Obstetrics and Gynaecology, King's College School of Medicine and Dentistry

[2] Ultrasonic Institute, Medical Faculty, University of Zagreb, Zagreb

来源：

HUMAN REPRODUCTION | 1991年 / 6卷 / 03期

关键词：

PERI-OVULATORY; BLOOD FLOW; VASCULARIZATION; ULTRASONOGRAPHY;

D O I：

10.1093/oxfordjournals.humrep.a137332

中图分类号：

R71 [妇产科学];

学科分类号：

100211 ;

摘要：

Transvaginal ultrasonography with colour flow mapping has been used to study changes in intra-follicular morphology and blood flow during a peri-ovulatory period in one volunteer. Aspects of uterine morphology and blood flow were also recorded. The intervals from a defined luteinizing hormone (LH) rise and peak to the mean time of follicular rupture were 37.5 and 17.5 h, respectively. Blood flow velocity waveforms were observed clearly at the time of the LH rise and blood vessels were visible when the hormone level reached a peak. Concurrently, the wall of the follicle became less clear, crenated, thicker and more echogenic. A structure resembling the detached cumulus and oocyte was seen before the follicle had ruptured. Peak systolic blood velocity was highest immediately after ovulation had occurred. Blood flow impedance in the uterine arteries suggested the presence of a circadian rhythm, but no pronounced daily changes were observed over the study period. In contrast, flow velocity waveforms were clearly visible in the endometrium around the time of ovulation. These preliminary data suggest that intra-follicular vascularization or angiogenesis may be critical processes that might be used to predict ovulation and could possibly be modified to help achieve or avoid a pregnancy.

引用

页码：319 / 324

页数：6

共 28 条

[1]

Baber R.J., McSweeney M.B., Gill R.W., Porter R.N., Picker R.H., Warren P.S., Kossoff G., Saunders D.M., Transvaginal pulsed Doppler ultrasound assessment of blood flow to the corpus luteum in IVF patients following embryo transfer, Br. J. Ostet. Gynaecol, 95, pp. 1226-1230, (1988)

[2]

Batzer F.R., Ultrasonic indices of ovulation, J. Reprod. Med, 31, (1986)

[3]

Bomsel-Helmreich O., Ultrasound and the preovulatory human follicle. Oxford, Rev. Reprod. Biol, 7, pp. 1-72, (1985)

[4]

Bomsel-Helmreich O., Gougeon A., Thebault A., Saltarelli D., Milgrom E., Frydman R., Papiemik E., Healthy and atretic human follicles in the pre-ovulatory phase: Differences in evolution of follicular morphology and steroid content of follicular fluid, J. Clin. Endocrinol. Metab, 48, pp. 686-694, (1979)

[5]

Bonilla-Musoles F., Pardo D., Perez-Gil M., Serra V., Pellicer A., Abdominal ultrasonography versus transvaginal scanning: Accuracy of follicular development evaluation and prediction for oocyte retrieval in stimulated cycles, J. Clin. Ultrasound, 17, pp. 469-473, (1989)

[6]

Bourne T.H., Campbell S., Steer C.V., Whitehead M.I., Collins W.P., Transvaginal colour flow imaging: A possible new screening technique for ovarian cancer, Br. Med. J, 29, pp. 1367-1370, (1989)

[7]

Bourne T.H., Campbell S., Whitehead M.I., Royston P., Steer C.V., Collins W.P., Detection of endometrial cancer in postmenopausal women by transvaginal ultrasonography and colour flow imaging, Br. Med. J, 30, (1990)

[8]

Bourne T.H., Jurkovtc D., Waterstone J., Campbell S., Collins W.P., Intrafollicular blood flow during human ovulation, Ultrasound Obstet. Gynecol, 1, pp. 53-59, (1991)

[9]

Check J.H., Adelson H.G., Dietterich C., Stem J., Pelvic sonography can predict ovum release in gonadotrophin-treated patients as determined by pregnancy rate, Hum. Reprod, 5, pp. 234-236, (1990)

[10]

Collins W.P., Hormonal indices of ovulation and the fertile period, Adv. Contracept, 1, pp. 279-294, (1985)

← 1 2 3 →