[Frontiers in Bioscience 1, f1-5, January 1, 1996]
Reprint
PubMed
CAVEAT LECTOR




SONOHYSTEROGRAPHIC IMAGING OF THE ENDOMETRIAL CAVITY

A Parsons, A. Hill, and D. Spicer

University of South Florida, 4 Columbia Drive, Tampa, FL 33606
Received 7/27/95; Accepted 8/12/95; On-line 1/1/96

RESULTS AND DISCUSSION

In order to examine the specificity and sensitivity of SIS, we performed this procedure on 53 women who were scheduled for hysterectomy. The indication for the surgery included intractable abnormal uterine bleeding, endometrial hyperplasia, painful pelvic adhesions, uterine myomata, persistent high grade CIN and endometrial cancer. SIS was used for the diagnosis and localization of the lesions within and outside the endometrial cavity. No procedure required interruption of the SIS due to pain. The cavity could be visualized in all cases. The follow up after SIS revealed no sequelae. In this selected series, of all the cases, 95 % of lesions were correctly identified. The diagnoses rendered after evaluation of the endometrial cavity by SIS and which were established after surgery by pathologic examination of the hysterectomy specimen included isolated submucous leiomyoma (n=6), single endometrial polyp (n=4), multiple endometrial polyps (n=3), submucous leiomyoma along with endometrial polyp (n=6), endometrial carcinoma (n=3), endometrial hyperplasia (n=1) and normal endometrial cavity (n=31) (Fig 2-6,Video 1-4). The cases with normal endometrial cavities were lined by proliferative or secretory endometrium. The case not diagnosed by the SIS was a single 3 mm cornual polyp in a case with multiple endometrial polyps. Thus, similar to that reported previously (5-6), the sensitivity and specificity of the procedure in this series are respectively 95% and 100%.

The diagnosis of the lesions was facilitated by the presence of fluid within endometrial cavity. Polyps were invariably hyperechoic relative to the surrounding tissues and sometimes contained small cavitations. Intracavitary and submocous leiomyomata were hypoechoic. However, similar to endometrial polyps some of the leiomyomas that were smaller than 1 cm in diameter appeared hyperechoic. Whereas polyps and the case of hyperplasia did not alter the basalis-myometrial interface, the myomata and invasive cancer were characterized by the disruption of this interface.

In summary, sonohysterography in view of its high specficity and sensitivity, may replace diagnostic hysteroscopy. However, accurate diagnosis of the endometrial abnormalities and distinction of hyperplasias from disordered endometrial proliferation and endometrial cancer still requires histologic evaluation of the endometrial tissue.


Figures

Fig 1 legend: Schematic representation of the sonohysterography. For obtaining the best image resolution, the vaginal probe is in contact through the vaginal wall with the uterus. The tip of the straight catheter is placed in the fundus.

Fig 2 legend: Sagittal sonographic view of normal uterus with early proliferative endometrium. Sonohysterogram was obtained in a uterus with early proliferative endometrium by distension of the endometrial cavity by inserting a catheter within the cavity and instillation of 2 cc of sterile normal saline. Note the catheter in the cervix. The tip of the catheter at the fundus is not imaged.

Fig 3 legend: Coronal sonographic view of normal uterus with secretory endometrium. The sonohysterogram was obtained as indicated in Fig 2 legend. The arrowheads point to the basal part of the endometrium.

Fig 4 legend: Sagittal sonographic view of a uterus with hyperplastic endometrium. The sonohysterogram was obtained as indicated in Fig 2 legend. The arrowhead points to the basal part of the endometrium. The thickness of the endometrium measured at two points and marked as 1 and 2 are respectively 0.44 and 0.42 cm. The diagnosis was established by histologic evaluation of the endometrial tissue.

Fig 5 legend: Sagittal sonographic view of a uterus with an endometrial polyp. The arrow points to a 12 mm fundal endometrial polyp in an otherwise atrophic endometrium.

Fig 6 legend: Sagittal sonographic view of a uterus with a submucous leiomyoma. The leiomyoma is protruding into the endometrial cavity.

Fig 7 legend: Coronal sonographic view of a uterus with an endometrial carcinoma. Arrowheads point to the boundaries of the endometrial carcinoma protruding from the anterior wall into the endometrial cavity. The dimensions of the lesion were measured as 2.35 and 1.03 cm.


Videos

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Video 1 legend:Sagittal manuever for the systematic sonographic demonstration of the endometrial cavity. The cavity in this normal uterus with an early proliferative endometrium is surveyed from cornu to cornu while infusing normal saline rendering a three dimensional impression of the endometrial cavity contour (Quicktime movie;1,103,050 bytes).

Video 2 legend:Transverse scanning manuever for the systematic sonographic demonstration of the endometrial cavity. The cavity in this uterus with early proliferative endometrium is surveyed from exocervix to fundus while infusing normal saline rendering a three dimensional impresion of the endometrial cavity contour (Quicktime movie;909,378 bytes).

Video 3 legend: Sagittal manuever for the systematic sonographic demonstration of an endometrial polyp. The endometrial cavity is surveyed from cornu to cornu to locate an endometrial polyp protruding into the endometrial cavity from the right-posterior wall of the fundus. The hyperechoic polyp is marked by arrow in Fig 5 (Quicktime movie;497,133 bytes).

Video 4 legend: Transverse manuever for the sonographic identification and localization of an endometrial polyp. The smooth hyperechoic polyp is seen in the right cornu as the uterus is scanned from the exocervix to the fundus (Quicktime movie;631473 bytes).

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