Medicine:Histopathology of colorectal carcinoma

From HandWiki
Relative incidence of colorectal cancer types. The vast majority of colorectal cancers are adenocarcinomas.[1]

The histopathology of colorectal carcinoma involves analysis of tissue taken from a biopsy or surgery. A pathology report contains a description of the microscopical characteristics of the tumor tissue, including both tumor cells and how the tumor invades into healthy tissues and finally if the tumor appears to be completely removed. The most common form of colon cancer is adenocarcinoma, constituting between 95%[2] to 98%[3] of all cases of colorectal cancer. Other, rarer types include lymphoma, adenosquamous and squamous cell carcinoma. Some subtypes have been found to be more aggressive.[4]

Macroscopy

Cancers on the right side of the large intestine (ascending colon and cecum) tend to be exophytic, that is, the tumor grows outwards from one location in the bowel wall. This very rarely causes obstruction of feces, and presents with symptoms such as anemia. Left-sided tumors tend to be circumferential, and can obstruct the bowel lumen, much like a napkin ring, and results in thinner caliber stools.

Microscopy

Adenocarcinoma is a malignant epithelial tumor, originating from superficial glandular epithelial cells lining the colon and rectum. It invades the wall, infiltrating the muscularis mucosae layer, the submucosa, and then the muscularis propria. Tumor cells describe irregular tubular structures, harboring pluristratification, multiple lumens, reduced stroma ("back to back" aspect). Sometimes, tumor cells are discohesive and secrete mucus, which invades the interstitium producing large pools of mucus. This occurs in mucinous adenocarcinoma, in which cells are poorly differentiated. If the mucus remains inside the tumor cell, it pushes the nucleus at the periphery, this occurs in "signet-ring cell." Depending on glandular architecture, cellular pleomorphism, and mucosecretion of the predominant pattern, adenocarcinoma may present three degrees of differentiation: well, moderately, and poorly differentiated.[5]

Micrographs (H&E stain)

Microscopic criteria

Colorectal adenocarcinoma, not otherwise specified
  • A lesion at least "high grade intramucosal neoplasia" (high grade dysplasia) has:
  • Severe cytologic atypia[6]
  • Cribriform architecture, consisting of juxtaposed gland lumens without stroma in between, with loss of cell polarity. Rarely, they have foci of squamous differentiation (morules).[6]
  • This should be distinguished from cases where piles of well-differentiated mucin-producing cells appear cribriform. In such piles, nuclei show regular polarity with apical mucin, and their nuclei are not markedly enlarged.[6]
  • Invasive adenocarcinoma commonly displays:[6]
  • Varying degrees of gland formation with tall columnar cells
  • Frequently desmoplasia
  • Dirty necrosis, consisting of extensive central necrosis with granular eosinophilic karyorrhectic cell detritus.[6][7] It is located within the glandular lumina,[7] or often with a garland of cribriform glands in their vicinity.[6]

Subtyping

Pie chart of relative rates of histopathologic subtypes of colorectal carcinoma.[8]

Determining the specific histopathologic subtype of colorectal adenocardinoma is not as important as its staging (see #Staging section below), and about half cases do not have any specific subtype. Still, it is customary to specify it where applicable.

Differential diagnosis

Colorectal adenocarcinoma is distinguished from a colorectal adenoma (mainly tubular and ⁄or villous adenomas) mainly by invasion through the muscularis mucosae.[10]

In carcinoma in situ (Tis), cancer cells invade into the lamina propria, and may involve but not penetrating the muscularis mucosae. This can be classified as an adenoma with "high-grade dysplasia", because prognosis and management are essentially the same.[11]

Grading

Conventional adenocarcinoma may be graded as follows[12]

Gland forming volume or surface
>95% 50-95% <50%
Well differentiated Moderately differentiated Low differentiated
Low grade High grade

Staging

The T stages of bowel cancer.

Staging is typically made according to the TNM staging system from the WHO organization, the UICC and the AJCC. The Astler-Coller classification (1954) and the Dukes classification (1932) are now less used. T stands for tumor stage and ranges from 0, no evidence of primary tumor, to T4 when the tumor penetrates the surface of the peritoneum or directly invades other organs or structures. The N stage reflects the number of metastatic lymph nodes and ranges from 0 (no lymph node metastasis) to 2 (four or more lymph node metastasis), and the M stage gives information about distant metastasis (M0 stands for no distant metastasis, and M1 for the presence of distant metastasis). A clinical classification (cTNM) is done at diagnosis and is based on MRI and CT, and a pathological TNM (pTNM) classification is performed after surgery.[13]

The most common metastasis sites for colorectal cancer are the liver, the lung and the peritoneum.[14]

Tumor budding

Tumor budding in colorectal cancer is loosely defined by the presence of individual cells and small clusters of tumor cells at the invasive front of carcinomas. It has been postulated to represent an epithelial–mesenchymal transition (EMT). Tumor budding is a well-established independent marker of a potentially poor outcome in colorectal carcinoma that may allow for dividing people into risk categories more meaningful than those defined by TNM staging, and also potentially guide treatment decisions, especially in T1 and T3 N0 (Stage II, Dukes’ B) colorectal carcinoma. Unfortunately, its universal acceptance as a reportable factor has been held back by a lack of definitional uniformity with respect to both qualitative and quantitative aspects of tumor budding.[15]

Immunohistochemistry

In cases where a metastasis from colorectal cancer is suspected, immunohistochemistry is used to ascertain correct diagnosis.[16] Some proteins are more specifically expressed in colorectal cancer and can be used as diagnostic markers such as CK20 and MUC2.[16] Immunohistochemistry can also be used to screen for Lynch syndrome, a genetic disorder with increased risk of colorectal and other cancers. The diagnosis of Lynch syndrome is made by looking for specific genetic mutations in genes MLH1, MSH2, MSH6, and PMS2.[17] Immunohistochemical testing can also be used to guide treatment and assist in determining the prognosis. Certain markers isolated from the tumor can indicate specific cancer types or susceptibility to different treatments.[18]

References

  1. Kang, Hakjung; O’Connell, Jessica B.; Leonardi, Michael J.; Maggard, Melinda A.; McGory, Marcia L.; Ko, Clifford Y. (2006). "Rare tumors of the colon and rectum: a national review". International Journal of Colorectal Disease 22 (2): 183–189. doi:10.1007/s00384-006-0145-2. ISSN 0179-1958. 
  2. "Colon, Rectosigmoid, and Rectum Equivalent Terms and Definitions C180-C189, C199, C209, (Excludes lymphoma and leukemia M9590 – M9992 and Kaposi sarcoma M9140) - Colon Solid Tumor Rules 2018. July 2019 Update". https://seer.cancer.gov/tools/solidtumor/Colon_STM.pdf. 
  3. "Colorectal cancer types". https://www.cancercenter.com/cancer-types/colorectal-cancer/types. Retrieved 2020-01-16. 
  4. Di Como, Joseph A. (October 2015). "Adenosquamous carcinoma of the colon and rectum: a population based clinical outcomes study involving 578 patients from the Surveillance Epidemiology and End Result (SEER) database (1973–2010)". Journal of the American College of Surgeons 221 (4): 56. doi:10.1016/j.jamcollsurg.2015.08.044. 
  5. "Moderately differentiated adenocarcinoma (colon)". pathologyatlas.ro. Archived from the original on January 26, 2016. https://web.archive.org/web/20160126135026/http://www.pathologyatlas.ro/moderatelly-differentiated-adenocarcinoma-colon-gastrointestinal-pathology.php. 
  6. 6.0 6.1 6.2 6.3 6.4 6.5 Robert V Rouse. "Adenocarcinoma of the Colon and Rectum". http://surgpathcriteria.stanford.edu/gitumors/colorectal-adenocarcinoma/.  Original posting/updates: 1/31/10, 7/15/11, 11/12/11
  7. 7.0 7.1 Li, Lianhuang; Jiang, Weizhong; Yang, Yinghong; Chen, Zhifen; Feng, Changyin; Li, Hongsheng; Guan, Guoxian; Chen, Jianxin (2014). "Identification of dirty necrosis in colorectal carcinoma based on multiphoton microscopy". Journal of Biomedical Optics 19 (6): 066008. doi:10.1117/1.JBO.19.6.066008. ISSN 1083-3668. Bibcode2014JBO....19f6008L. 
  8. Remo, Andrea; Fassan, Matteo; Vanoli, Alessandro; Bonetti, Luca Reggiani; Barresi, Valeria; Tatangelo, Fabiana; Gafà, Roberta; Giordano, Guido et al. (2019). "Morphology and Molecular Features of Rare Colorectal Carcinoma Histotypes". Cancers 11 (7): 1036. doi:10.3390/cancers11071036. ISSN 2072-6694. PMID 31340478. 
  9. 9.0 9.1 9.2 9.3 Initially copied from: Remo, Andrea; Fassan, Matteo; Vanoli, Alessandro; Bonetti, Luca Reggiani; Barresi, Valeria; Tatangelo, Fabiana; Gafà, Roberta; Giordano, Guido et al. (2019). "Morphology and Molecular Features of Rare Colorectal Carcinoma Histotypes". Cancers 11 (7): 1036. doi:10.3390/cancers11071036. ISSN 2072-6694.  Attribution 4.0 International (CC BY 4.0) license
  10. Robert V Rouse. "Colorectal Adenoma Containing Invasive Adenocarcinoma". http://surgpathcriteria.stanford.edu/gitumors/colorectal-carcinoma-in-adenoma/index.html. 
  11. Finlay A Macrae. "Overview of colon polyps". https://www.uptodate.com/contents/overview-of-colon-polyps#H695577522.  This topic last updated: Dec 10, 2018.
  12. :"Colorectal carcinoma: Pathologic aspects". J Gastrointest Oncol 3 (3): 153–73. September 2012. doi:10.3978/j.issn.2078-6891.2012.030. PMID 22943008. 
  13. "Colon and Rectum Cancer Staging, American Joint Committee on Cancer, 7th Edition". https://cancerstaging.org/references-tools/quickreferences/documents/colonmedium.pdf. 
  14. "Metastatic Cancer". 2017-02-06. Archived from the original on April 4, 2017. https://web.archive.org/web/20170404184540/https://www.cancer.gov/types/metastatic-cancer. Retrieved 2017-04-05. 
  15. "Tumor budding in colorectal carcinoma: time to take notice". Modern Pathology 25 (10): 1315–1325. October 2012. doi:10.1038/modpathol.2012.94. PMID 22790014. 
  16. 16.0 16.1 "Immunohistochemistry of colorectal carcinoma: current practice and evolving applications". Human Pathology 44 (2): 151–163. February 2013. doi:10.1016/j.humpath.2012.04.017. PMID 22939578. 
  17. "Approach to Lynch Syndrome for the Gastroenterologist". Digestive Diseases and Sciences 62 (2): 299–304. February 2017. doi:10.1007/s10620-016-4346-4. PMID 27990589. 
  18. "Molecular Testing of Colorectal Cancer in the Modern Era: What Are We Doing and Why?". Surgical Pathology Clinics 10 (4): 1009–1020. December 2017. doi:10.1016/j.path.2017.07.013. PMID 29103530.