PURPOSE: To evaluate the characteristics of polycystic compared to normal ovaries using three-dimensional (3-D) power Doppler ultrasonography. METHODS: We recruited 42 volunteers, all of whom were commencing IVF treatment. Each patient was examined in the cycle preceeding the start of drug therapy during the late follicular phase. If eight or more subcapsular follicles of 2-8 mm in diameter in one two-dimensional (2-D) plane were detected in either of the ovaries, the patient was categorized as having polycystic ovaries (PCO); otherwise the ovaries were considered normal. The parameters examined were volume of the ovary, vascularization index (VI), flow index (FI), vascularization flow index (VFI), and mean greyness (MG). In addition, the ovary was arbitrarily divided into cortex and stroma, and thereafter volume, VI, FI, VFI, and MG were calculated for these two regions. RESULTS: Twenty-eight women had normal ovaries and 14 had PCO. The comparison between normal and PCO showed that as a group the PCO were larger, without any differences in VI, Fl, VFI, or MG. In patients with PCO, the right ovary was larger than the left one. In patients with normal ovaries, Fl was higher on the left side. Division into cortex and stroma revealed that there were no differences in cortical or stromal VI, FI, VFI, or MG between normal and PCO on either side. CONCLUSIONS: The ovaries defined as polycystic were larger than normal ovaries, but there was no difference in the echogenicity of the stroma between polycystic and normal ovaries. We were also unable to demonstrate that the polycystic ovarian stroma was more vascularized than the stroma in the normal ovaries.
PURPOSE: To evaluate the characteristics of polycystic compared to normal ovaries using three-dimensional (3-D) power Doppler ultrasonography. METHODS: We recruited 42 volunteers, all of whom were commencing IVF treatment. Each patient was examined in the cycle preceeding the start of drug therapy during the late follicular phase. If eight or more subcapsular follicles of 2-8 mm in diameter in one two-dimensional (2-D) plane were detected in either of the ovaries, the patient was categorized as having polycystic ovaries (PCO); otherwise the ovaries were considered normal. The parameters examined were volume of the ovary, vascularization index (VI), flow index (FI), vascularization flow index (VFI), and mean greyness (MG). In addition, the ovary was arbitrarily divided into cortex and stroma, and thereafter volume, VI, FI, VFI, and MG were calculated for these two regions. RESULTS: Twenty-eight women had normal ovaries and 14 had PCO. The comparison between normal and PCO showed that as a group the PCO were larger, without any differences in VI, Fl, VFI, or MG. In patients with PCO, the right ovary was larger than the left one. In patients with normal ovaries, Fl was higher on the left side. Division into cortex and stroma revealed that there were no differences in cortical or stromal VI, FI, VFI, or MG between normal and PCO on either side. CONCLUSIONS: The ovaries defined as polycystic were larger than normal ovaries, but there was no difference in the echogenicity of the stroma between polycystic and normal ovaries. We were also unable to demonstrate that the polycystic ovarian stroma was more vascularized than the stroma in the normal ovaries.
Authors: R Agrawal; P Sladkevicius; L Engmann; G S Conway; N N Payne; J Bekis; S L Tan; S Campbell; H S Jacobs Journal: Hum Reprod Date: 1998-03 Impact factor: 6.918
Authors: J Adams; S Franks; D W Polson; H D Mason; N Abdulwahid; M Tucker; D V Morris; J Price; H S Jacobs Journal: Lancet Date: 1985 Dec 21-28 Impact factor: 79.321
Authors: Brittany Y Jarrett; Heidi Vanden Brink; Eric D Brooks; Kathleen M Hoeger; Steven D Spandorfer; Roger A Pierson; Donna R Chizen; Marla E Lujan Journal: Fertil Steril Date: 2019-08-05 Impact factor: 7.329