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Ultrasonography of adnexal masses: imaging findings

Abstracts

Transabdominal and transvaginal ultrasonography performed by a skilled and experienced investigator is currently considered as a highly accurate method in the differential diagnosis of adnexal masses. The authors set out a review based on sonographic images demonstrating the main presentations of adnexal masses, describing their characteristics and locations.

Ultrasonography; Ovarian neoplasms; Adnexal diseases; Pelvis


A ultrassonografia realizada por um habilidoso e experiente examinador é considerada, atualmente, método de elevada acurácia no diagnóstico diferencial das massas anexiais. Os autores expõem uma revisão baseada em imagens ultrassonográficas das principais apresentações das massas anexiais, descrevendo suas características e localizações.

Ultrassonografia; Neoplasias ovarianas; Doenças dos anexos; Pelve


ICONOGRAPHIC ESSAY

Ultrasonography of adnexal masses: imaging findings*

Francisco Andrade NetoI; Ricardo Palma-DiasII; Fabrício da Silva CostaIII

IMD, graduated at Universidade Estadual do Ceará (UECE), formerly holder of a scholarship of Undergraduate Research - PIBIC/CNPq, Fortaleza, CE, Brazil

IIPhD, Staff Specialist Obstetrician, The Royal Women's Hospital, Melbourne, VIC, Australia

IIIPhD, Associate Professor, Division of Gynecology and Obstetrics, Universidade Estadual do Ceará (UECE), Fortaleza, CE, Brazil, Postdoctoral Fellow, Department of Perinatal Medicine, The Royal Women's Hospital, Melbourne, VIC, Australia

Mailing Address

ABSTRACT

Transabdominal and transvaginal ultrasonography performed by a skilled and experienced investigator is currently considered as a highly accurate method in the differential diagnosis of adnexal masses. The authors set out a review based on sonographic images demonstrating the main presentations of adnexal masses, describing their characteristics and locations.

Keywords: Ultrasonography; Ovarian neoplasms; Adnexal diseases; Pelvis.

INTRODUCTION

Ultrasonography is an important tool in the evaluation of adnexal masses and in the definition of differential diagnosis for such conditions(1). In children, because of the limitations of clinical examination, abdominal ultrasonography becomes a preferential method in the complementary investigation(2). Transvaginal ultrasonography (TVUS) is currently considered as a highly accurate method in the evaluation of adnexal masses and ovarian cysts(1-3).

This diagnostic modality has been directly related to the operator ability and experience, particularly in the differential diagnosis between malignant and benign adnexal masses, although several authors have reported similar results demonstrating a high diagnostic accuracy of the method(3-9). The operator must be familiar with all possible presentations of a normal ovary as well as with the characteristics of probably benign or malignant lesions.

Figure 1


Tridimensional ultrasonography and Doppler as well as tumor markers, namely, CA-125, CA-15.3, CA-19.9, CA-72.4 and alpha-fetoprotein blood tests are recommended as adjuvant methods in the differential diagnosis of adnexal masses, considering that they increase the sensitivity and specificity in the differentiation of ovarian tumors(9-12).

With a view on the challenges of differential diagnosis as well as the possibility of morphological suspicion of ovarian neoplasias at ultrasonography, the present article provides a brief description of the most common presentations of adnexal masses.

FUNCTIONAL CYSTS

Among the cystic adnexal masses, functional cysts resulting from the normal ovarian function are the most common ones, but their actual incidence is still to be known because in most of cases such cysts are asymptomatic (Figure 2)(1,7).


Follicular cysts are frequently observed during menacme and may occur in up to 17% of postmenopausal women. Classically, such cysts present with unilocular aspect, thin walls and may achieve up to 8 cm in diameter(1,13). Frequently anechoic fluid serous content is observed, with the possibility of complicating with hemorrhage(13).

Corpus luteum cysts are frequently found in the first trimester of gestation, commonly achieving the maximum size at the tenth week, with spontaneous regression around the 16th week of gestation. Corpus luteum cysts are also a usual finding in the second phase of the menstrual cycle in non-pregnant women. Their typical sonographic aspect consists of findings of cystic mass with echogenic walls and occasional hyperechogenic contents in the cases of hemorrhagic cysts (Figure 3)(7).


Theca-lutein cysts are usually large, multiloculated and bilateral, and result from hormonal stimulation by high circulating levels of hCG. Such cysts may be found in cases of gestational trophoblastic disorder, multiple gestation, or in the condition known as hyperreactio luteinalis(13).

Hemorrhagic cysts (Figure 4) are most frequently observed in premenopausal women and may present with pelvic pain, typically at mid-cycle(7). Characteristically, they present with a linear heterogeneous echographic pattern in several planes. Blood clots (Figure 5) may be demonstrated as echogenic, heterogeneous masses within the cyst, with no sign of vascularization at Color Doppler, sometimes with images suggesting neoplasia(7,13). Serial follow-up is suggested for such patients, as such cysts usually disappear within eight weeks(7,13).



PARATUBAL/PARAOVARIAN CYSTS

These cysts originate from mesonephric (Wolffian), paramesonephric (Müllerian) structures, or mesothelial inclusions(1). The vesicular appendix (Morgagni hydatid) is the most common type of paramesonephric cyst, frequently found at one of the fimbriae at the end of the uterine tube. Echographically, they present with thin, deformable walls, generally with the largest diameter measuring up to 10 mm, next to a normal ovary but separated from it (Figure 6)(1,7).


PERITONEAL INCLUSION CYSTS

Peritoneal inclusion cysts classically occur as a result from accumulation of ovarian fluid trapped by peritoneal adhesions in patients with a history of abdominal surgery, trauma, pelvic inflammatory disease or endometriosis. Typically, these are large cystic multiloculated masses, separated from the ovaries, which present with a normal echographic aspect (Figure 7)(7).


ENDOMETRIOMAS

Endometriomas are homogeneous and well delimited structures, with low to median echogenic density contents, and may commonly present septations. Presentations with hyperechoic walls or nodulations(13-15) are described. Endometriomas may present with an avascular calcified solid component, with the presence of posterior attenuation or acoustic shadow. In the presence of solid or mixed components they may be confused with hemorrhagic cysts or neoplasia, but differ from these because of the more homogeneous echogenic pattern (Figure 8)(1,13-15).


FIBROMAS

Fibromas are the most common benign solid neoplasias of the ovaries. They may be found at any age, however their incidence is higher in middle-aged patients(14). At ultrasonography they are visualized as solid, hypoechoic and homogeneous images, with the possibility of presenting with acoustic beam attenuation. Dense calcifications may be observed in fibromas, and may be visualized as an posterior acoustic shadowing (Figure 9)(14,16,17).


The association of ovarian fibroma, ascites and hydrothorax characterizes Meigs syndrome(14).

EPITHELIAL SURFACE TUMORS

Epithelial surface tumors comprise approximately 60% of all ovarian neoplasms and up to 90% of primary ovary neoplasms(1).

Serous cystadenomas comprise approximately 20% of the benign ovarian masses. They present as complex thin-walled, uni- or multilocular cysts, with variable sizes, sometimes achieving more than 20 cm. The image of its interior shows echogenic contents, possibly also revealing areas of papillary projections (Figure 10)(13,14,16,17).


Mucinous cystadenomas represent up to 25% of all ovarian neoplasias(1). Usually, ultrasonography reveals echogenic, thin walled multiloculated cystic mass, with echographic content that may vary according to the presence of variable amounts of blood or protein in its interior. Such possible differences in density of the cystic content confer various echogenic presentations in multiple compartments(14,16). The presence of variable echogenic contents in a multiloculated adnexal cystic mass is suggestive of mucinous cystadenoma (Figure 11)(14).


Cystadenocarcinomas represent up to 10% of the primary ovarian neoplasias. They are usually multiloculated, with multiple projections and gross septations. The use of Doppler ultrasonography demonstrates vascularization of the contents (Figure 12). Massive ascites frequently disproportional to the demonstrated adnexal masses is a usual finding(1,7,14,16).


Transitional cell tumors, clear cell carcinoma and undifferentiated carcinoma are less frequently found and difficult to differentiate at ultrasonography. Generally, they are unilateral(7).

Endometrioid tumors present both as cystic masses with papillary projections and solid masses in some cases. These tumors are predominantly malignant (approximately 80%), and endometrioid carcinoma is the second most frequently found malignant epithelial ovarian tumor(7). Clear cell carcinoma comprises from 5% to 10% of the malignant ovarian epithelial-stromal tumors, and presents with nonspecific sonographic characteristics, as large complex, generally cystic masses.

Transitional cell tumors (Brenner tumors) represent the minority of the ovarian neoplasias (1.55 to 2.5%) and most of times are benign(7,13). The sonographic pattern of such tumors is characterized by small and solid hypoechoic masses, and sometimes calcifications are identified(1,7).

GERM CELL TUMORS

Mature cystic teratomas of the ovary, or ovarian dermoid cysts, are the most common ovarian neoplasms(1,2).They may be identified in all age groups, however in the childhood and adolescence they are frequent causes of ovarian torsion and may be bilateral in up to 10% of cases(2). Typical sonographic findings are the presence of focal or diffuse high-amplitude echoes, areas with posterior acoustic beam attenuation, and visualization of hyperechogenic lines and spots within the mass (Figure 13). In mature cystic teratomas, such heterogeneous findings translate into the presence of calcified tissues similar to bones and teeth, hair and fat tissue(2,7,14,16,17).


MISCELLANEOUS

Ovarian torsion is a gynecological emergency and it is very frequently associated with significant abdominal pain. Mature cystic teratomas and paraovarian cysts are known to be common causes of such torsion(1,2). In children, the excessive mobility of the normal ovary in the pelvis is its main cause(2). At ultrasonography, the more frequent presentation is the increase in size of the affected ovary, normally by more than 4 cm. However, such increase in size may achieve up to 28 times the normal dimensions(18). Ovarian stroma may present with a heterogeneous pattern, with areas of hemorrhage and edema. Complex adnexal or pelvic-abdominal mass with solid or mixed cystic components, as well as the presence of free pelvic fluid is a frequent finding. Color Doppler may demonstrate the absence of vascularization of the affected ovary, however this method is not considered as being a reliable in the evaluation of this condition(2,18). The differential diagnosis is difficult, and can be done with hemorrhagic cyst, endometriosis, ectopic pregnancy or pelvic inflammatory disease(1,7,18).

Tubo-ovarian abscess results from lower genital tract infection that ascends and causes salpingitis (Figure 14) and ovarian inflammation, to the extent of changing the normal morphology of adnexal structures. The sonographic findings depend upon the mass presentation after resolution of the infectious condition. A purely cystic mass with multiple loci, fine septations, or with debris(7,13,15,16) may be visualized. In the abscess, the ovary may not be separately distinguishable from the adnexal structures, while in the tubo-ovarian complex, the ovary is distinguishable from the local inflammatory process(7,13).


At ultrasonography, hydrosalpinges is characterized by the finding of uterine tube dilation, usually in the segments of the ampulla and infundibulum, showing a tubular and elongated, sometimes serpiginous format, with a clear serous content(7). The presence of incomplete septations and small linear projections are predictors of hydrosalpinges. At ultrasonography, the tubular shape of the mass, and the presence of diametrically opposed protrusions along the mass walls are reliable sonographic markers for the diagnosis (Figure 15)(14,15).


CONCLUSION

The correct sonographic identification of adnexal masses is fundamental both for screening of benign conditions and for the early diagnosis and better follow-up of malignant lesions(2,9,11).

The sonographer must, therefore, be well prepared and aware of the different usual presentations of adnexal masses, in order to be able to interact with the assisting physician with the purpose of proposing strategies that may best guide the specific therapy for the patient.

ACKNOWLEDGMENTS

To the PIBIC/CNPq Program, for financing the scholarship for scientific initiation.

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  • Endereço para correspondência:
    Dr. Fabrício Costa
    Ultrasound Department
    Royal Women's Hospital
    Locked Bag 300, Grattan St & Flemington Rd
    Parkville 3052 VIC, Australia
    E-mail:
  • *
    Trabalho realizado na Clínica Mater Imagem, Fortaleza, CE, Brasil, e no Ultrasound Department, The Royal Women's Hospital, Melbourne, VIC, Australia.
  • Publication Dates

    • Publication in this collection
      13 June 2011
    • Date of issue
      Feb 2011

    History

    • Received
      03 Sept 2009
    • Accepted
      23 July 2010
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