Endometrial cancer is among the most frequently diagnosed malignancies of the female genital tract in industrialized nations 1. Although this disease is 10 times more common in developed countries than in the developing world, the incidence of and the mortality related to endometrial cancer have increased dramatically in underprivileged regions in past decades, and this neoplasm will certainly constitute a major health care problem in the near future 2.

Since 1988, the international scientific agenda regarding endometrial cancer has been dominated by a debate about nodal dissection. Although there have been technical discussions about the most appropriate surgical approach for treating endometrial cancer, regional disparities in access to proper oncologic therapies have rarely been discussed in the literature 3,4. Intuitively, one may assume that insufficient human resources and medical technology are available in the developing world. The lack of professionals with advanced surgical expertise and the ability to perform retroperitoneal lymphadenectomy is evident. In addition, many cancer institutions in the developing world cannot offer adequate operative treatments to meet patient demand. This situation poses major difficulties in implementing standard oncologic therapies and results in unacceptable treatment delays that may lead to tumor progression and can negatively impact survival 5. Thus, the scientific discussion of lymphadenectomy in the developed world may be considered distant from the realities of the great number of women in developing countries who are affected by the disease 5.

Several algorithms have been designed to guide the selective omission of nodal dissection in patients with endometrial cancer 6–11. The Mayo Clinic criteria 12, which are based on histological type, differentiation grade, tumor size, and myometrial invasion, are the most commonly applied. The presence of lymphovascular space invasion (LVSI) has also been used to predict lymph node (LN) metastasis 13. Although this algorithm was independently validated 10, it has never been tested in a large cohort of women in Brazil.

Following the 2009 release of guidelines for the surgical staging of endometrial cancer by the International Federation of Gynecology and Obstetrics (FIGO) 14 and because of the current lack of consensus regarding the importance of retroperitoneal lymphadenectomy 9,15,16, our institution initiated a protocol in 2009 in which all patients with clinical disease are considered candidates for complete surgical staging with pelvic and para-aortic nodal dissection, independent of prognostic risk factors.

The primary study objective was to use the Mayo Clinic algorithm to determine the percentage of patients in our institution for whom LN dissection could be avoided. The secondary objective was to determine whether these criteria are as useful in Brazil as they were found to be in the previous validation study 10.

After receiving ethics review board approval (ICESP no. 394/13), we conducted a retrospective study of patients with endometrial cancer who underwent primary surgical treatment at the Instituto do Câncer do Estado de São Paulo, Universidade de São Paulo, Brazil, between January 2009 and February 2014. We included all patients with histologically confirmed endometrial carcinoma (FIGO stages Ia–IIIc2) and no evidence of extrapelvic disease on initial imaging staging (computed tomography or magnetic resonance imaging) who underwent primary operative therapy that included total hysterectomy with bilateral salpingo-oophorectomy. We excluded patients who had received neoadjuvant therapies and those who did not undergo a total hysterectomy with bilateral salpingo-oophorectomy.

The medical records of all patients were reviewed, and the following epidemiologic and operative information was collected: age at diagnosis, surgical route (laparoscopic, laparotomic, or vaginal), and the magnitude of the procedure (complete staging with pelvic and para-aortic LN dissection, incomplete staging with only pelvic or para-aortic LN dissection, or lack of nodal dissection). Pathological analyses were performed at the institution's central laboratory. Tumors were classified according to the World Health Organization criteria as endometrioid (endometrioid or mucinous) or non-endometrioid (serous or clear cells). Endometrioid tumors were classified according to FIGO criteria 14 as low grade (1 or 2) or high grade (3). Non-endometrioid histology was considered high grade. Data on tumor size (≤ or >2 cm), the depth of myometrial invasion (≤50% or >50%), and LVSI were obtained from the pathological descriptions.

The final tumor staging was established according to the FIGO 2009 classification 14. The patients included in the study were divided into two major groups according to their surgical staging. Group 1 comprised women for whom lymphadenectomy was omitted or who underwent incomplete nodal dissection for diverse reasons, including poor clinical condition, massive LN involvement, or intraoperative complications. Group 2 comprised women who underwent pelvic and para-aortic lymphadenectomy and who were categorized as LN positive (LN+) or LN negative (LN-).

The cohort comprised 310 patients (134 [43%] in group 1 and 176 [57%] in group 2). The mean patient age was 64±10.2 (range, 32–86) years. In group 1, no LN dissection was performed in 119 (38%) patients, and only pelvic or para-aortic LN dissection was performed in 15 (5%) patients. Most (n=192 [62%]) of the surgeries were laparoscopic, and laparotomy was performed in 138 (38%) patients.

According to the histological analysis, 255 (82.3%) tumors were endometrioid, 40 (12.9%) were serous, and 15 (4.8%) were clear cell tumors. Table 1 summarizes the pathological characteristics of the patients in groups 1 and 2. No differences in age, histology, grade, tumor size, myometrial infiltration, or LVSI were observed between the groups (Table 1).

Among the patients in group 2, the median numbers of pelvic and para-aortic LNs dissected were 14 (range, 1–47) and 9 (range, 1–41), respectively. Table 2 shows the pathological features of the surgical specimens according to the participant's LN status. The risk of LN involvement was related to the tumor size (p=0.03; OR 0.13 [0.01−0.90]), depth of myometrial invasion (p<0.01; OR 0.18 [0.07−0.44]), LVSI (p<0.01; OR 0.14 [0.06−0.33]), and grade (p=0.01; OR 0.39 [0.18−0,85]) but not to histological type (p=0.52; OR 0.77 [0.32−1.99]). Twelve of the 176 (6.8%) patients in group 2 fulfilled the Mayo Clinic criteria for the omission of LN dissection (endometrioid carcinoma with tumor size ≤2 cm, ≤50% depth of myometrial infiltration, and low grade).

Surgeons have not reached a consensus regarding the advantages of LN dissection for all patients with endometrial cancer. Almost three decades after FIGO recommended including lymphadenectomy in the surgical treatment of endometrial cancer, much doubt remains about the extension and benefits of this procedure 15,17,21. Even in reference centers, complete LN dissection increases morbidity, operative time, and treatment costs 22,23. Many algorithms have been proposed to predict LN involvement and to stratify patients according to their need for a lymphadenectomy 12,24. The most commonly used parameters are histological type, grade, tumor size, myometrial invasion 9, tumor markers 25, LVSI 13, and imaging characteristics 26.

Mariani et al. 12 proposed the use of the Mayo Clinic algorithm to predict LN involvement in endometrial cancer. Patients with low-grade endometrioid carcinoma, tumor size <2 cm, and ≤50% myometrial invasion are considered to be at low risk of LN involvement and are thus candidates for lymphadenectomy omission. These criteria indicated that lymphadenectomy was not required for 27% of patients (all low risk) and 33% of endometrioid cases 12. Despite the omission of lymphadenectomy, the 5-year cause-specific survival rate was 99.0%. This intraoperative algorithm has been validated in two independent studies 12,24

Comparing our population to that examined by Mariani et al. 12, we found that 20% vs. 18% of cases were classified as the non-endometrioid histological subtype, 72% vs. 68% of tumors were low grade, and 77% vs. 46% of tumors had ≤50% myometrial invasion. In addition, only 11% of our patients presented a tumor size ≤2 cm. Mariani et al. 12 determined that 27% of all patients and 33% of patients with endometrioid tumors fulfilled the criteria for lymphadenectomy omission; in contrast, only 6.8% of the patients in our population fulfilled these criteria. Most of our patients presented with deep myometrial invasion and large tumors; thus, the use of the Mayo Clinic criteria is unlikely to have a large impact on surgical treatment in a population such as ours.

LVSI is another strong predictor of LN metastasis 13. In the presence of LVSI, an overall recurrence rate of 17% has been reported 27, along with a hazard ratio of 4.9 (p=0.000) that increased to 8.8 (p=0.004) when the LNs were positive 28. The estimated 5-year survival rates of patients with stage IIIc endometrial cancer with and without LVSI are 50.9% and 93.3%, respectively (p=0.0024) 29. Thus, LVSI is associated with a high risk of recurrence and poor overall survival, even in the early stages of endometrial cancer 30.

The main characteristics of endometrial cancer in our Brazilian population were large tumors, deep myometrial invasion, and a high rate of LVSI. This presentation of more advanced disease may be associated with difficulties in providing timely oncologic treatment for all cases within the public health system. New strategies are thus needed to address the challenge of providing adequate treatment. We believe that it is most important to consider offering early hysterectomy with bilateral salpingo-oophorectomy to all patients as soon as possible after diagnosis. LN dissection should be postponed until patients have been evaluated at a reference center.

Developing countries lack sufficient numbers of reference centers that perform oncologic surgery. In Brazil, and likely in many other countries, patients with endometrial cancer have two options: (1) undergoing a simple hysterectomy and salpingo-oophorectomy at a general hospital, in discordance with the protocol proposed by FIGO, or (2) waiting for several months until treatment can be provided at one of the few reference centers. General obstetricians and gynecologists are discouraged from surgically treating endometrial cancer, even in cases of clinical suspicion, because they are not sufficiently trained in LN dissection. When patients finally arrive at reference centers, the disease is often advanced, and tumors are large; in such scenarios, discussions about whether to perform LN dissection are not relevant. In our opinion, the main issue is determining how to reduce the interval between diagnosis and surgical treatment at existing general hospitals.

The delayed diagnosis of endometrial cancer has been demonstrated to impact survival rates. In a retrospective study of 190 postmenopausal patients with symptomatic endometrial cancer and 123 asymptomatic patients with suspicious endometria detected with transvaginal ultrasound, the 5-year disease-free survival rates were 74% and 62% in patients with ≤8 weeks and >16 weeks of bleeding, respectively 31. Delayed surgical treatment can reasonably be considered to have the greatest impact on patients with cancer diagnoses compared with other patient groups. We believe that efforts should be made to perform a hysterectomy while the disease is still in an early stage with a low probability of LN metastasis. For patients with early-stage disease, LN dissection has no benefit; in fact, it increases morbidity and mortality. Previous studies have shown that LN dissection with customized adjuvant treatment has a potential advantage only in patients with LN positivity 32,33; even among these patients, the benefits of systematic LN dissection are questionable 15.

To overcome current obstacles to the surgical treatment of endometrial cancer in Brazil, we recently proposed a two-step approach to the systematic management of the condition 34. In this approach, women with type I endometrial cancer undergo total extrafascial hysterectomy with bilateral salpingo-oophorectomy but without nodal dissection upon diagnosis. Following this primary intervention, all women are referred to cancer centers, where specialists evaluate the clinical and pathological risk factors based on the analysis of surgical specimens. Decisions about the need for an eventual reoperation to perform retroperitoneal lymphadenectomy are based on the risk of nodal metastasis. We consider that an early simple hysterectomy performed by a general gynecologist in a general hospital would be more advantageous for these women than delayed, albeit supposedly ideal, surgery. If necessary, lymphadenectomy is performed in a tertiary hospital. A large, collaborative, prospective study should be performed to evaluate the impacts of this innovative strategy on morbidity, mortality, and treatment cost in patients with endometrial cancer, particularly in developing countries.

In conclusion, the prediction of LN involvement based on histology, grade, tumor size ≤2 cm and ≤50% myometrial invasion appears unlikely to have a large impact on surgical treatment of endometrial cancer in the Brazilian population. Our patients presented with larger and more advanced tumors, generally associated with delayed treatment. To address this situation in Brazil, we consider recommending performing a hysterectomy at a general hospital as soon as possible after diagnosis and later evaluating the need for LN dissection at a reference center. However, prospective studies to evaluate the morbidity, feasibility and cost of this systematic two-step surgical treatment need to be conducted before a national recommendation is made.

Anton C collected the data, analyzed the samples and wrote the paper. Favero G and Köhler C analyzed and interpreted the samples. Carvalho FM revised the pathological reports. Baracat EC participated in the study design. Carvalho JP conceived the study and analyzed the samples.