DOI: S0100-7203(13)03500600002 - volume 35 - Junho 2013
Carlos Eduardo Godoy Junior, Armando Antunes Junior, Sirlei Siani Morais, Aarão Mendes Pinto-Neto, Lucia Costa-Paiva
Introduction
With the routine use of ultrasound for the investigation of abnormal uterine bleeding or postmenopausal bleeding over the last 20 years, the diagnoses of endometrial thickening and endometrial polyps have become more frequent. The prevalence of endometrial polyps ranges from 10 to 40% in women with abnormal uterine bleeding1-5. Furthermore, this disorder is found in up to 12% of asymptomatic women during routine gynecologic examinations6,7.
In postmenopausal women with risk factors associated with endometrial cancer, such as advanced age, obesity, hypertension, diabetes, tamoxifen use, or vaginal bleeding, hysteroscopic polypectomy has been adopted as a routine treatment.
The value of sonographic endometrial thickness, which allows us to predict malignant focal endometrial lesions with a higher level of diagnostic accuracy, remains controversial. Currently, postmenopausal patients with an endometrial thickness >5 mm are referred for endometrial biopsy performed via uterine curettage or surgical hysteroscopy, particularly when they exhibit associated vaginal bleeding. Hysteroscopy has revealed the presence of endometrial polyps in up to 74.3% of the patients with an endometrial thickness >12 mm8. A search in the literature found no other studies that have assessed the value of ultrasound for the prediction of malignancy in focal endometrial lesions.
It is well known that the malignancy rate associated with endometrial polyps is low. In a meta-analysis performed by Lee et al.9, it was determined that malignant endometrial polyps were present in 0.8 to 8% of the patients, depending on the population studied and the methods used for diagnosis and resection10-17.
In postmenopausal women, there is a direct relationship between the size of endometrial polyps and the existence of atypical hyperplasia and endometrial carcinoma. A study performed by Rahimi et al.15 determined that polyps measuring >1.5 cm carry a 3.6-fold higher risk of malignancy compared with lesions with a smaller diameter.
Methods
From January 1998 to December 2008, 6,018 hysteroscopies were performed in the Prof. Dr. José Aristodemo Pinotti Women's Hospital - CAISM/Unicamp. From this total, 3,927 diagnostic hysteroscopies and 2,091 surgical hysteroscopies were excluded due to myomas, synechiae, removal of a foreign body, and endometrial ablation, resulting in 1,050 hysteroscopies performed, during this period, to remove endometrial polyps. From these, 180 hysteroscopies in which the histologic diagnosis of endometrial polyps was not confirmed, or the procedure was interrupted by complications or incomplete data in medical charts were excluded. Finally, we excluded 349 cases in which the procedure was performed to remove endometrial polyps in premenopausal women, resulting in 521 surgical hysteroscopies performed to remove polyps in postmenopausal women, the subject of our study (Figure 1).
The clinical, pathological, and sonographic data were obtained from medical chart review. This study included 521 postmenopausal women with or without abnormal bleeding who had previously received an ultrasound diagnosis of endometrial polyps, based on findings of focal endometrial thickening associated with the presence of a vascular pedicle. Diagnostic hysteroscopy was performed by using a Karl Storz hysteroscope with optical systems of 2.8 mm. For distension of the uterine cavity, CO2 or saline solution was used. Through an evaluation of the endocervical canal, endometrial surface, vascularization, tubal ostia, the presence of endometrial polyps, myomas or synechiae were observed.
Surgical hysteroscopy with the patient under spinal anesthesia was performed using a 10 mm Karl Storz resectoscope. A glycine 1.5% solution was used to distend the uterine cavity. Evaluation of the endocervical canal and endometrial cavity was performed. Resection of endometrial polyps was performed with loop electrocautery that relied on a monopolar electrical current.
Pathologists from the Department of Pathologic Anatomy of the Unicamp Medical School analyzed the endometrial samples obtained using hematoxylin and eosin staining. Polyps were classified as benign, non-atypical or atypical simple glandular hyperplasia, non-atypical or atypical complex glandular hyperplasia, and malignant.
This study was designed according to recommendations from the questionnaire Quality Assessment of Diagnostic Accuracy Studies (QUADAS)18, and approved by the Research Ethics Committee of FCM/Unicamp under number 769/2009.
Statistical analysis
Statistical analysis was performed by measurement of rates, means, and standard deviations. The sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV) were calculated for different measures of endometrial thickness and polyp size upon hysteroscopy. Histologic diagnosis was used as the gold standard and the cut-off point (the point with the highest sensibility and specificity) was established by the methodology for the Receiver Operating Characteristic (ROC) curve. For statistical analysis, polyps were grouped according to histologic diagnosis into benign (benign polyps, non-atypical simple hyperplastic and non-atypical complex) or premalignant and malignant (atypical simple, atypical complex hyperplastic and carcinomatous), and the prevalence ratios and their respective confidence intervals were calculated. The significance level was set at 5%. The SAS program version 9.2 was used for these estimates.
Results
Five hundred and twenty-one (521) postmenopausal women, with a mean age of 57.5 years (±10.6), were studied. Mean time since menopause was 12.4 years. There was a sonographic diagnosis of endometrial thickening (>5 mm) in 89.8% of cases. Histologic diagnosis identified the presence of premalignancy or malignancy in 4.1% of cases.
Sonographic measurement of the endometrial thickness in postmenopausal women undergoing hysteroscopic polypectomy revealed that mean thickness was 11.5 mm in benign polyps, 10.5 mm in premalignant polyps, and 17.4 mm in malignant polyps (p=0.002). Of the 16 malignant cases evaluated, 2 had endometrial thickness less than 5 mm on sonographic measurement (Table 1).
On surgical hysteroscopy, the median size of the benign polyps was 21.5 mm, premalignant polyps 24.3 mm, and malignant polyps 26.3 mm (p=0.003) (Table 1).
To predict malignancy, the sensitivity, specificity, positive predictive value and negative predictive value were calculated for each value of sonographic endometrial thickness between 2 and 20 mm, resulting in a diagnostic accuracy of 68.6%. The best cut-off point established by the ROC curve was 13 mm, showing a sensitivity of 69.6%, specificity of 68.5%, PPV of 9.3%, and NPV of 98%. On hysteroscopy, diagnostic accuracy for polyp size was 65.3% and the best cut-off point was 30 mm by the ROC curve, with a sensitivity of 47.8%, specificity of 66.1%, PPV of 6.1%, and NPV of 96.5% (Table 2 and Figure 2).
With the purpose of determining the risk of malignancy in endometrial polyps according to a group of different risk factors, malignancy risk was calculated in correlation with the presence or absence of postmenopausal bleeding, endometrial thickness greater or less than 13 mm and polyp size larger or smaller than 30 mm. For patients with vaginal bleeding, endometrial thickness less than 13 mm and polyps smaller than 30 mm, the prevalence ratio showed a risk of malignancy of 14.41 (95%CI 1.85-112.57), while for endometrial thickness greater than 13 mm and polyps larger than 30 mm, the risk was 32.71 (95%CI 3.94-271.84). In the absence of postmenopausal bleeding, the assessment of endometrial thickness associated with polyp size did not significantly increase the risk of malignancy.
Discussion
This study used histological diagnosis as the gold standard and assessed the accuracy of sonographic endometrial thickness and hysteroscopic characteristics in predicting malignancy in women undergoing hysteroscopic resection of endometrial polyps. The results revealed a diagnostic accuracy of 68.6% for endometrial thickness and 65.3% for polyp size.
Satisfactory diagnostic methods for the prediction of malignancy in focal endometrial lesions are still lacking, and a histological investigation is required in all suspected cases.
In the postmenopausal period, different cut-off values for endometrial thickness have been proposed to determine whether additional investigation is required, particularly in asymptomatic women who carry a lower risk of malignancy compared with women with genital bleeding18-20. For focal endometrial lesions where the adjacent endometrium has an atrophic pattern, these cut-off values are poorly defined. There is little information about the role of sonography as an exclusive method for predicting malignancy in endometrial polyps.
In the present study, ultrasound measurement of endometrial thickness showed that the mean endometrial thickness was greater with malignant polyps than with benign polyps. An endometrial thickness of 13 mm showed the best sensitivity (69.6%) and specificity (68.5%) in predicting malignancy in endometrial polyps.
According to Dreisler et al.6, ultrasound made it possible to rule out the presence of benign focal endometrial lesions (polyps or submucous myomas) when the endometrial thickness was <2.8 mm, with a negative predictive value of 98.5%. Grimbizis et al.21 observed a sensitivity of 41.8% and a specificity of 83.6% in the diagnosis of endometrial polyps using ultrasound examination. The author was unable to discriminate between benign, premalignant, and malignant focal lesions21.
In a study performed in the United Kingdom with 48,230 women undergoing transvaginal sonography to screen for endometrial cancer not associated with the presence of focal lesions, an endometrial thickness of 5.15 mm had a sensitivity of 80.5% and a specificity of 86.2% in predicting a malignancy. When a cut-off value of 10 mm was used further to investigate malignancy, the sensitivity was 54.1% and specificity was 97.2%22.
Among the diagnostic methods for investigating endometrial disease, hysteroscopy has the highest diagnostic efficacy. For hysteroscopic diagnosis of endometrial polyps, a study performed by Cepni et al.23 showed a sensitivity of 94% and a specificity of 58%.
Few studies have evaluated the relationship between the size of the polyp and the risk of malignancy15-17,24,25. In this study, a size of 30 mm showed the best sensitivity (47.8%) and specificity (66.1%) in predicting malignancy in endometrial polyps. A meta-analysis conducted to evaluate the oncogenic potential of endometrial polyps in 10,552 patients identified only eight studies that evaluated the association between polyp size and risk of malignancy9. In four studies, larger polyps were directly associated with a greater risk of malignancy. According to Fernández-Parra et al.26, Goldstein et al.3, Shushan, Revel and Rojansky27, and Gregoriou et al.28, polyp size did not represent a risk factor for malignancy. The authors highlight that in this meta-analysis, polyp size was reported in different units of measurement (centimeters, millimeters, or grams) and data were not amenable; these factors hindered the analysis of this association.
The sensitivity of hysteroscopy for diagnosing any endometrial disease is 86%, whereas that of ultrasound is 54%22. For the diagnosis of endometrial hyperplasia and endometrial cancer in the absence of focal lesions, the sensitivity of hysteroscopy was 33% and the specificity was 87%27. Small uterine lesions or functional changes with polypoid pattern in the endometrium may result in failure to identify focal lesions during hysteroscopic evaluation. Furthermore, malignant endometrial neoplasms may coexist with findings of benign endometrial polyps. For this reason, resection of endometrial polyps accompanied by guided biopsy of the adjacent endometrium is recommended in patients at risk29,30.
Data from the present study has shown that sonographic endometrial thickness and hysteroscopic measurement of endometrial polyps have a low level of accuracy in predicting malignancy in focal lesions. These methods alone are not sufficient to exclude the need for additional histological evaluation in suspected cases. There are still no satisfactory diagnostic methods for identifying patients that should undergo more judicious surgical resection. On the basis of the literature, an individualized approach to the treatment of patients with endometrial polyps is recommended, considering the associated risk factors for each patient. Symptomatic postmenopausal women should undergo hysteroscopic polyp resection while asymptomatic postmenopausal women should receive individualized therapy based on polyp size, presence of risk factors for malignancy, general clinical conditions, and their expectations from treatment31.
The aim of this study was to assess the accuracy of sonographic endometrial thickness and hysteroscopic characteristics in predicting malignancy in women undergoing hysteroscopic resection of endometrial polyps using histologic diagnosis as the gold standard.
Received: 05/22/2012
Accepted with modifications: 05/14/2013
Study carried out at Universidade Estadual de Campinas - Unicamp - Campinas (SP), Brasil.