Rhabdoid tumours were first identified in renal tumours at the end of the twentieth century as rare variants of Wilms’ tumour.1 Since then, tumours with this type of differentiation have been described at various locations, each characterised by greater aggressiveness of the lesions and poor patient prognosis.2 The rarest site of extrarenal tumours with rhabdoid differentiation is the colon.
This case study concerns an 80-year-old patient with ASA II who attended the clinic for a screening colonoscopy finding of a tumour at the hepatic flexure of the colon.
The pathological diagnosis of the biopsy of the lesion taken during the colonoscopy was poorly differentiated adenocarcinoma, with additional immunohistochemical (IHC) study results indicating diffuse positivity for CK7 and negativity for CK20. As these findings were not typical of colorectal carcinoma, a definitive diagnosis of primary colorectal adenocarcinoma could not be confirmed.
CEA levels at the time of the study were 2.6ng/ml.
After ruling out distant disease by thoracic, abdominal, and pelvic CT scan, a laparoscopic right hemicolectomy was performed, with no complications arising during the procedure or the post-operative period.
The pathological study of the specimen confirmed the diagnosis of poorly differentiated adenocarcinoma of the colon with rhabdoid differentiation (component comprising 70% of the lesion), which infiltrated the pericolic fatty tissue without reaching the serosa. However, angiolymphatic and perineural invasion was observed. Three of the 12 lymph nodes isolated were positive for metastatic carcinoma. End stage pT3N1 Mx.
The immunohistochemistry study of the differentiated component was positive for pan-CK AE1-AE3, CK20, EMA and CDX2 and negative for vimentin. Furthermore, the dedifferentiated rhabdoid component was positive for focal pan-CK AE1-AE3 and CK7, β-catenin and vimentin, and negative for CK20, EMA and CDX2. Both neoplastic components were negative for other markers like actin HHF35, desmin, CD56 and TTF1. p53 overexpression was seen in both components. No microsatellite instability was observed (Fig. 1).
(A) Magnification (×40) of the haematoxylin and eosin stain of neoplastic cells with rhabdoid phenotype: marked pleomorphism and visible nucleoli, frequent mitotic figures, large eosinophilic cytoplasms. (B) Staining with vimentin (×20), positive in the mesenchymal component with rhabdoid phenotype and negative in the more differentiated epithelial component (adenocarcinoma).
The multidisciplinary committee decided to commence eight cycles of adjuvant chemotherapy (CT) with capecitabine in monotherapy. Eight months after the diagnosis and surgical treatment, the patient was in good general condition, with good tolerance of the adjuvant therapy and with no signs of disease progression.
Since it was defined as a pleomorphic giant cell carcinoma, fewer than 100 cases of undifferentiated carcinomas with rhabdoid component in the gastrointestinal tract have been published in the literature, with just 20 cases in colon resection specimens having been published, making the colon the most unusual site in the whole body3 (Table 1). These tumours tend to appear in patients over the age of 60, irrespective of gender. The existence of this tumour as an independent pathological entity continues to be disputed as some experts consider it to be a phenotypic variation of a ‘not otherwise specified’ (NOS) adenocarcinoma. There are two types of tumour with rhabdoid component: pure, in which only rhabdoid cells are differentiated without another epithelial element, and composite, in which rhabdoid phenotype cells mix together with the adenocarcinoma.4 In these cases, rhabdoid phenotype cells are believed to derive from malignant epithelial cells in which a clone suffers sarcomatoid dedifferentiation.3
Colon tumours with rhabdoid differentiation previously reported in the literature (arranged by date of publication).
| Author | Age and gender | Location | Histology | Reference |
|---|---|---|---|---|
| Chetty et al. | 72 M | Caecum | Composite | Chetty R, Bhathal P. Caecal adenocarcinoma with rhabdoid phenotype: an immunohistochemical and ultrastructural analysis. Virchows Arch A Pathol Anat Histopathol. 1993;422:179–182 |
| Yang et al. | 75 M | Transverse colon | Pure | Yang A, Chen W, Chiang H. Malignant rhabdoid tumour of colon. Histopathology. 1994;24:89–91 |
| Macak et al. | 50 M | Rectum | Composite | Macak J, Kodet R. Rectal adenocarcinoma with rhabdoid phenotype. Pathologica. 1995;87:696–699 |
| Marcus et al. | 84 F | Transverse colon | Composite | Marcus V, Viloria J, Owen D, Tsao M. Malignant rhabdoid tumour of the colon. Dis Colon Rectum. 1996;39:1322–1326 |
| Nakamura et al. | 76 M | Caecum | Pure | Nakamura I, Nakano K, Nakayama K, Ishii Y, Ohta K, Takahashi M, et al. Malignant rhabdoid tumour of the colon: Report of a case. Surg Today. 1999;29:1083–1087 |
| Kono, et al. | 66 M | Caecum | Composite | Kono T, Imai Y, Imura J, Ono Y, Hagiwara S, Taira K, et al. Cecal Adenocarcinoma with prominent rhabdoid feature: report of a case with immunohistochemical, ultrastructural, and molecular analyses. Int J Surg Pathol. 2007;15:414–420 |
| Mastoraki et al. | 62 F | Descending colon | Pure | Mastoraki A, Kotsilianou O, Papanikolaou I, Foukas P, Sakorafas G, Safioleas M. Malignant rhabdoid tumour of the large intestine. Int J Colorectal Dis. 2009;24:1357–1358 |
| Han et al. | 23 F | Rectum | Pure | Han S, Li J, Liu Z, Cheng J, Guo S, Wu X. Malignant rhabdoid tumour of rectum: report of a case. Tech Coloproctol. 2010;14:199–200 |
| Pancione et al. | 71 F | Ascending colon | Pure | Pancione M, di Blasi A, Sabatino L, Fucci A, Dalena A, Palombi N, et al. A novel case of rhabdoid colon carcinoma associated with a positive CpG island methylator phenotype and BRAF mutation. Hum Pathol. 2011;42:1047–1052 |
| Remo et al. | 73 F | Ascending colon | Composite | Remo A, Zanella C, Molinari E, Talamini A, Tollini F, Piacentini P, et al. Rhabdoid carcinoma of the colon: a distinct entity with a very aggressive behaviour. Int J Surg Pathol. 2011;20:183–188 |
| Lee et al. | 62M83 F | SigmoidRectum | CompositeComposite | Lee S, Seol H, Kim W, Lim S, Kim W, Hwang T, et al. Rhabdoid colorectal carcinomas: reports of two cases. Korean J Pathol. 2013;47:372 |
| Samalavicius et al. | 49 M | Rectum | Pure | Samalavicius N, Stulpinas R, Gasilionis V, Baltruskeviciene E, Aleknavicius E, Mickys U. Rhabdoid carcinoma of the rectum. Ann Coloproctol. 2013;29:252 |
| Romera Barba et al. | 77 M | Descending colon | Pure | Romera Barba E, Sánchez Pérez A, Duque Pérez C, García Marcilla J, Vázquez Rojas J. Malignant rhabdoid tumour of the colon: a case report. Cir Esp. 2014;92:638–640 |
| Baba et al. | 45 F | Composite | Baba Y, Uchiyama T, Hamada K, Ishihara Y, Tanaka H, Isono Y, et al. A case report of undifferentiated carcinoma of the sigmoid colon with rhabdoid features. Nihon Shokakibyo Gakkai Zasshi. 2014;111:1384–1390. | |
| Agaimy et al. | 79 M | Caecum | Pure | Agaimy A, Rau T, Hartmann A, Stoehr R. SMARCB1 (INI1)-negative rhabdoid carcinomas of the gastrointestinal tract. Am J Surg Pathol. 2014;38:910–920 |
| Moussaly et al. | 87 F | Transverse colon | Composite | Moussaly E, Atallah J. A rare case of undifferentiated carcinoma of the colon with rhabdoid features: a case report and review of the literature. Case Rep Oncol Med. 2015;2015:1–5 |
| Cho et al. | 73 M | Caecum | Composite | Cho I, Kim S, Min Y, Noh M, Hong R. Poorly differentiated cecal adenocarcinoma showing prominent rhabdoid feature combined with appendiceal mucinous cystadenoma: a case report and review of the literature. Oncol Lett. 2015;9:1527–1530 |
| Kalyan et al. | 31 F | Caecum | Composite | Kalyan A, Pasricha G, Monga D, Singhi A, Bahary N. Case report of rhabdoid colon cancer and review of literature. Clin Colorectal Cancer. 2015;14:e5-e8 |
| D’Amico et al. | 65 M | Ascending colon | Pure | D’Amico F, Bertacco A, Cesari M, Mescoli C, Caturegli G, Gondolesi G, et al. Extraordinary disease-free survival in a rare malignant extrarenal rhabdoid tumour: a case report and review of the literature. J Med Case Rep. 2018;12:39 |
They are histologically characterised by the presence of pleomorphic mesenchymal cells with specific immunohistochemical findings co-existing with a conventional epithelial tumour. Loss of INI1 nuclear expression due to deletions, translocations or other types of mutation that involve the tumour suppressor gene SMARCB1/INI1 at locus 22q11.2 has been seen in some cases.5
These tumours are extremely unusual and very aggressive, with significantly lower survival rates than other histological forms of colon cancer.
The rhabdoid variant is also very rare, and even more so at certain sites, like the gastrointestinal tract. The malignant neoplasms may be completely dedifferentiated towards this phenotype or, as more often occurs, this rhabdoid phenotype may be seen as an area in a typical epithelial neoplasm as a whole.
The finding of this histological characteristic in neoplasms implies greater dedifferentiation and therefore a worse prognostic course than for other neoplasms.
Please cite this article as: Serrano González J, García Martos M, Román García de León L, Colao García L, Galindo Jara P. Adenocarcinoma de colon pobremente diferenciado con diferenciación rabdoide: un diagnóstico anatomopatológico extremadamente infrecuente. Gastroenterol Hepatol. 2019;42:378–381.
