Background
Neuroendocrine tumors (NET) can occur anywhere in the human body, but in more than 90% of cases, they are found in the gastrointestinal tract or the respiratory tract [
1]. NETs in the genitourinary system are only found in very small numbers, and primary renal NET is extremely rare [
2].
Primary renal NETs consist of well-differentiated neuroendocrine tumors (WDNET) and high grade neuroendocrine carcinomas [
3]. High grade neuroendocrine carcinomas can be classified into large cell neuroendocrine carcinoma and small cell neuroendocrine carcinoma, according to their histopathologic features. These disease entities present with extensive necrosis and abundant mitotic figures [
4‐
6].
Primary renal WDNET is a disease entity that histopathologically shows hardly any necrosis and exhibits as low mitotic figures [
7]. It has an indolent clinical course but occasionally has lymph node metastasis at surgery, subsequently progressing to metastatic disease [
8]. WDNET frequently occurs in relation to congenital renal diseases, such as a horseshoe kidney or renal teratomas [
9,
10]. Primary renal WDNETs have very low incidence, with fewer than 100 reported cases [
11].
NETs in other organs are classified into three grades that provide significant prognostic information [
12]. The World Health Organization (WHO) classifies gastroenteropancreatic NETs having fewer than 2 mitoses/10 high power field (HPF) and a Ki-67 index lower than 3% as low grade, those with 2 to 20 mitoses/10 HPF or a Ki-67 index between 3 and 20% as intermediate, and those with greater than 20 mitoses/10 HPF or a Ki-67 index of greater than 20% as high grade. Lung and thymus NETs with fewer than 2 mitoses/10 HPF in the absence of necrosis are classified as low grade, those with 2 to 10 mitoses/10 HPF or foci of necrosis are classified as intermediate, and those with more than 10 mitoses/10 HPF are classified as high grade [
13]. However, in primary renal WDNETs, little is known about the prognostic parameters.
In this study, we report six primary renal WDNET cases with histopathologic characteristics and proliferative activity.
Methods
Case selection and histopathological review
We searched the computerized database of the Department of Pathology, Seoul National University Hospital and found six cases that diagnosed with primary renal carcinoid or well-differentiated NET between 2005 and 2016. Four cases underwent radical nephrectomy at Seoul National University Hospital, and two cases (case no. 5 and no. 6) were consultation cases. Primary renal mass was detected by abdominal computed tomography and/or magnetic resonance imaging. We reviewed hematoxylin and eosin (H&E)-stained slides to confirm the diagnosis and to identify various histological parameters, including mitotic activity, the proportion of growth patterns, and tumor local extension. We collected the clinical data and pathologic information from the medical records and pathology reports.
This study was approved by the institutional review board of Seoul National University Hospital.
Immunohistochemistry and morphometric analysis
Immunohistochemical staining for Ki-67 (MIB-1, Dako, Glostrup, Denmark), CD56 (123C3.D5, Cell Marque, Rocklin, CA), synaptophysin (27G12, Novocastra, Newcastle, UK) and chromogranin (5H7, Leica Biosystems, Newcastle, UK) was performed using the Ventana Benchmark XT automated staining system (Ventana Medical Systems, Tucson, AZ).
Morphometric analysis of Ki-67 immunostaining was performed in primary and metastatic lesions for accurate measurement. All stained slides were scanned at 400x absolute magnification using the Aperio scanning system (Aperio Technologies; Vista, CA). Acquired digital pathology slide images were viewed and analyzed with ImageScope analysis software (version 12; Aperio Technologies, Inc.). The whole slide was examined, and an area was considered acceptable for analysis if it contained 500–1000 tumor cells. The Ki-67 index is the ratio of the number of tumor cells with positive nuclear Ki-67 staining to the total number of tumor cells in a designated area. Three areas with the highest positive nuclear staining cell ratio were designated as hot spot areas. These areas were then analyzed, and a mean value of measurements was calculated [
14,
15].
Discussion
Renal neuroendocrine tumors are classified into primary renal WDNETs and neuroendocrine carcinomas. Primary renal WDNET includes typical and atypical carcinoid tumors, and neuroendocrine carcinoma includes small cell and large cell neuroendocrine carcinomas [
17]. These entities are all International Classification of Diseases for Oncology (ICD-O) behavior 3 code [
3]. Primary renal WDNET is known to have distinct histopathological and clinical characteristics, distinct from high-grade neuroendocrine carcinoma [
18]. However, little is known about prognostic indicators of tumor aggressiveness, such as lymph node or distant metastasis.
In this study, six cases of surgically resected primary renal WDNET were analyzed. Lymph node or distant metastasis was confirmed in three cases, two of which presented with metastases at the time of initial nephrectomy. Case no. 4 showed lymph node and liver metastases, and case no. 6 showed liver and bone metastases. These two cases with synchronous metastases showed 3 and 6 mitoses/10 HPF on H&E staining, respectively, as well as high Ki-67 indices. Case no. 5 did not show metastasis at the time of initial surgery, but retroperitoneal lymph node metastasis was found 15 years later. In this case, the primary renal lesion showed 1 mitosis/10 HPF on H&E staining and a low Ki-67 index, comparable to the three cases lacking metastasis. All metastatic lesions in case no. 4, 5, and 6 showed high mitotic counts and high Ki-67 indices.
Currently, there is no established grading system for renal NET. However, according to the WHO classification, gastroenteropancreatic, lung, and thymic NETs are classified into low, intermediate and high grades [
13].
If the grading system for gastroenteropancreatic NETs was applied to our six cases, two cases (case no. 4 and 6) showing synchronous metastasis would be classified as NET grade 2 due to a high mitotic rate and Ki-67 index. In case no. 5, with non-synchronous lymph node metastasis, the primary renal lesion would be classified as NET grade 1, and the metastatic lymph node lesion would be classified as NET grade 2. The three cases without metastasis would be classified as NET grade 1. If the grading system for lung and thymic NETs was applied, two cases (case no. 4 and 6) showing synchronous metastasis would be classified as atypical carcinoid. In case no. 5, with non-synchronous lymph node metastasis, the primary renal lesion would be classified as typical carcinoid, and the metastatic lymph node lesion would be classified as atypical carcinoid. The three cases without metastasis would be classified as typical carcinoid.
The prognostic value of mitosis and/or the Ki-67 index in gastroenteropancreatic NETs has been well studied [
19]. A multi-institutional study reported a positive correlation between the risk of lymph node metastasis and grade in neuroendocrine tumors of the large intestine [
20].
Currently, there are no well-defined grading systems in use for renal NET and only a few studies regarding prognostic indicators of primary renal WDNET have been published. Aung et al. reported eleven cases of primary renal neuroendocrine tumors, of which only two cases with liver metastases showed a Ki-67 index of 3 and 5%. They could be classified as NET grade 2, atypical carcinoid, according to WHO classification of lung and thymus tumors. The authors suggested that high proliferative rate could indicate poor outcome [
16]. Hansel et al. reported 21 cases of primary renal carcinoid tumor. The case with the highest mitotic figures (4 mitoses/10 HPF) had liver and bone metastases at the time of initial surgery and died of disease eight months later [
21]. Raslan et al. suggested that tumor stage, cellular atypia and mitotic figures are likely to correlate with patient outcome [
22]. Romero et al. suggested that mitotic figure higher than 1/10 HPF may be related to poor outcome, and tumors of less than 4 cm in size, which are confined to the renal parenchyma, may be related to lower rates of metastasis [
1].
In this study, we also revealed that renal WDNETs with metastasis exhibited the higher mitotic counts and Ki-67 indices than those without metastasis. Furthermore, tumor size of the three cases with metastases were greater than 5 cm, while tumor size of the three cases without metastasis were less than 4 cm. A case with extension to the renal sinus fat also presented with lymph node and liver metastases. These results suggested that mitotic count, Ki-67 index and tumor size can be useful prognostic indicators in primary renal WDNET.
Conclusion
In summary, a higher proliferative activity of primary renal WDNET, including mitotic counts and the Ki-67 index, appears to correlate with the risk of metastasis. The results of our study, in accordance with previous studies, suggest that a grading system based on mitotic counts and the Ki-67 index may be a good candidate for predicting the aggressiveness of primary renal WDNET. Further analysis of a greater number of cases of primary renal WDNET is needed to determine the most appropriate prognostic parameters.