Giovanni Branca scite author profile

The most widely used system to define the histological grade of colorectal carcinoma (CRC) is based on the degree of gland formation. This system suffers from significant interobserver variability which may limit its prognostic value and consequently better standardized criteria for the assessment of histological grading of CRC are needed. The present study aims to evaluate and to compare, in a cohort of postsurgical pTNM stage I CRC, conventional histological grading, and a novel grading system based on the number of poorly differentiated clusters of neoplastic cells, in terms of interobserver reproducibility, prognostic significance on progression-free survival, and association with other clinicopathological characteristics. Grading with both systems was performed by two pathologists independently and blinded to the clinicopathological data. Interobserver agreement was higher when grade was assessed by counting poorly differentiated clusters than by assessing the relative proportion of the glandular component. Contrary to conventional grading, the novel system provided significant prognostic information in terms of progression-free survival and was significantly associated with budding, invasive growth, lymphatic invasion, and occult nodal metastases of CRC. In conclusion, our findings suggest that a tumor grading system based on the number of poorly differentiated clusters is more reproducible and provides better prognostic stratification of pTNM stage I CRC patients than conventional grading.

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Histologic grading based on counting poorly differentiated clusters in preoperative biopsy predicts nodal involvement and pTNM stage in colorectal cancer patients

Barresi¹,

Bonetti²,

Ieni³

et al. 2014

Human Pathology

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Micropapillary Pattern and Poorly Differentiated Clusters Represent the Same Biological Phenomenon in Colorectal Cancer

Barresi

Branca

Vitarelli

et al. 2014

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The altered expression of MUC1 and E-cadherin may account for the aggressive behavior and higher metastatic potential of CRCs with high PDC counts and indicate an epithelial-mesenchymal transition. Our findings suggest that regardless of the morphologic aspect, PDCs and the micropapillary component may reflect the same biological phenomenon in CRCs. Thus, we wonder whether the micropapillary areas should be considered a variant of CRCs or more objectively counted as PDCs to predict prognosis. We also believe that the term PDC better describes the biological phenomena underlying this peculiar morphologic aspect in comparison with the misnomer micropapillary.

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Poorly differentiated clusters (PDCs) as a novel histological predictor of nodal metastases in pT1 colorectal cancer

et al. 2014

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The practical use of histological factors such as submucosal (SM) invasion depth, poor differentiation, presence of lymphovascular invasion (LVI) and tumour budding to establish the risk of nodal dissemination in pT1 colorectal cancer (CRC) is limited by their low standardization and high inter-observer variability. It was recently suggested that the presence in CRC histological sections of poorly differentiated clusters (PDCs), defined as ≥5 cancer cells with no gland formation, may predict the metastatic potential of CRC. In addition, PDC assessment was shown to be more reproducible than the evaluation of the other aforementioned histological predictors. Hence, in this study, we investigated and compared the predictive value of PDC and other histological parameters on the risk of nodal involvement in pT1 CRC. The presence of PDC, SM invasion depth ≥1,000 μm and LVI was significantly associated with N+ status in pT1 CRC (P < 0.0001). Among these parameters, SM invasion depth had the highest sensitivity to identify N+ pT1 CRC but with the lowest specificity. When the analysis was restricted to CRCs with SM invasion depth ≥1,000 μm, the presence of PDC was the only independent risk factor for nodal metastases and allowed the identification of 87.5 % of N+ cancers. In conclusion, in this study, we demonstrate that the presence of PDC is associated with the metastatic potential of pT1 CRC. The combination of this parameter with SM invasion depth may allow identifying most of the pT1 CRC with nodal metastases.

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Brachyury: A Diagnostic Marker for the Differential Diagnosis of Chordoma and Hemangioblastoma versus Neoplastic Histological Mimickers

et al. 2014

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Brachyury is a transcription factor which is required for posterior mesoderm formation and differentiation as well as for notochord development during embryogenesis. Due to its expression in the neoplastic cells of chordoma, a malignant tumour deriving from notochordal remnants, but not in tumors showing a similar histology, brachyury has been proposed as a diagnostic marker of this neoplasia. Though commonly considered a hallmark of chordoma, the expression of brachyury has been also documented in the stromal cells of hemangioblastoma (HBL), a slow growing tumor which may involve the central nervous system (CNS) and, rarely, the kidney. Herein we review the role of brachyury immunohistochemical detection in the identification and differential diagnosis of chordoma and HBL towards histological mimickers and suggest that brachyury is added to the panel of immunohistochemical markers for the recognition of HBL in routinary practice, principally in unusual sites.

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Giovanni Branca

Colorectal carcinoma grading by quantifying poorly differentiated cell clusters is more reproducible and provides more robust prognostic information than conventional grading

Histologic grading based on counting poorly differentiated clusters in preoperative biopsy predicts nodal involvement and pTNM stage in colorectal cancer patients

Micropapillary Pattern and Poorly Differentiated Clusters Represent the Same Biological Phenomenon in Colorectal Cancer

Poorly differentiated clusters (PDCs) as a novel histological predictor of nodal metastases in pT1 colorectal cancer

Brachyury: A Diagnostic Marker for the Differential Diagnosis of Chordoma and Hemangioblastoma versus Neoplastic Histological Mimickers

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