We will focus on the two most frequent pathologies of hereditary colorectal cancer according to the polyposis classification:

1. (HNPCC) -Lynch syndrome (LS): Characteristically presents with flat polyps, located in the right colon, which generate CRC and other cancers (endometrium, stomach, ovary, pancreas, ureter and renal pelvis, cerebral glioblastoma, biliary tract, cancer of the small intestine, sebaceous carcinomas and keratoacanthomas). Endometrial cancer occurs in relatively young women.[37] The diagnosis is a challenge for the doctor due to the absence of pathognomonic clinical signs, and a genetic study is required to establish the definitive diagnosis, so it is recommended to make a previous selection of these patients with the criteria of Bethesda and Amsterdam.[38] 

2. (HPCC) -Familial adenomatous polyposis (FAP): It is characterized by hundreds or thousands of precancerous adenomatous polyps, which generates CRC and other cancers, Also, may occur extracolonic manifestations (desmoid tumor, osteomas, epidermoid cysts, papillary thyroid carcinoma, pancreatic carcinoma, gastric cancer, duodenal cancer, hepatobiliary and CNS tumors), this is due to mutations in the gene (APC), which controls cell proliferation and the regulation of a new long non-coding RNA (lncRNA).[39] It is classified clinically in two ways:

• Classic FAP: Consists of the involvement of the entire colon with the appearance of 100 to 1000 adenomatous polyps, the age of onset of polyps comprises between 10 and 20 years of age; estimates are that the diagnosis of CRC corresponds to 30 to 40 years of age,[40] It correlates with the majority of cancers described above, which increases comorbidity.[41]
• Attenuated FAP: Frequently affects the right colon, with an appearance of 10 to 100 adenomatous polyps, the age of onset of polyps between 20 to 30 years of age, estimates are that the diagnosis of CRC corresponds to 40 to 50 years of age. It commonly carries associations with gastric, duodenal, and thyroid cancer.[42][43] 

The diagnostic basis of hereditary CRC is from clinical findings, family history, genetic tests, and diagnostic images.

1. The physical examination: Should include evaluation of adenopathies mainly supraclavicular, cervical and axillary, digital rectal examination, abdominal palpation in search of masses or ascites, hepatomegaly suggesting a hepatic metastatic compromise.

2. Total colonoscopy: It is a gold standard technique since it allows the resection and biopsy of the lesions observed during the procedure.[44]  Moreover, endoscopy with a colonic capsule is a promising technique for noninvasive colon screening; however, it is a risk to detect polyps and not be able to biopsy them.[45]

3. Family history: with more than one criteria raises suspicion of LS.

• Modified Bethesda criteria, which are[46]:   
  • Patients with CRC who belong to families that meet the criteria of Amsterdam.
  • Patients with two neoplasms associated with HNPCC, including synchronous or metachronous CRC and extracolonic cancer (endometrium, ovary, gastric, hepatobiliary, small intestine, ureter or renal pelvis)
  • Patients with CRC and a first degree relative with CRC, extracolonic neoplasm associated with HNPCC or colorectal adenoma; one of the cancers diagnosed before 50 years of age and the adenoma before of 40 years of age.
  • Patients with CRC or endometrial cancer diagnosed before 50 years of age.
  • Patients with CRC located in the right colon and histologically undifferentiated, diagnosed before 50 years of age.
  • Patients with CCR-type cells in the signet ring (composed of more than 50% of signet ring cells) diagnosed before 50 years of age.
  • Patients with colorectal adenoma diagnosed before 40 years of age.

• Amsterdam criteria II, which are[47]:
  • Three or more relatives affected by a neoplasm associated with HNPCC (CRC, cancer of the endometrium, small intestine, ureter or renal pelvis), one of them being a first-degree relative of the other two, and;
  • Two or more successive generations affected, and;
  • One or more relatives affected by CRC diagnosed before 50 years of age, and;
  • Exclusion of FAP in cases of CCR.

4. Molecular and genetic testing: LS Diagnosis is made by tumor testing with MMR immunohistochemistry and  PCR for MSI (microsatellite instability), a genetic phenotype that characterizes these tumors.  Therefore, having a positive genetic test (MSI), a positive Bethesda or Amsterdam item and the tumor located on the right side of the colon, are highly suspicious findings of Lynch syndrome.[48] When colonic polyposis presents in a single person with a negative family history, consideration should be to test for a de novo APC mutation; if negative follow with MUTYH genetic testing when colonic polyposis is present only in siblings, consider recessive inheritance and test for MUTYH first.[39]

5. Diagnostic Imaging: It is suggested to perform computed tomography with contrast of chest, abdomen, and pelvis to estimate the stage of the disease to all patients with colorectal cancer. Additional, It is suggested to perform computed tomography or magnetic resonance imaging of the pelvis to assess the status of the mesorectal margin in selected cases.

Management of patients with HCCR is multidisciplinary and mainly stems from patients specific findings. 

• Chemotherapy: Hereditary CRCs, depending on their genetic mutation, may respond differently to traditional chemotherapy regimens. The microsatellite instability in many cases reflects a difference in the biological characteristics of the tumor, possibly with a unique susceptibility to immunotherapy.[49][50] High-risk rectal cancers require neoadjuvant chemotherapy along with radiotherapy.[51] 
  • Current ASCO, NCCN and ESMO guidelines strongly recommend adjuvant therapy for selected stage II with high-risk/pMMR/MSI-S disease and all stage III (node-positive). The guidelines advocate administering adjuvant chemotherapy (FOLFOX or CAPOX) within 6 to 8 weeks after surgical resection pending recovery of the patient's health. 
  • FOLFOX (5-fluorouracil plus + leucovorin plus +oxaliplatin) is the first-line modern chemotherapy for metastatic disease more effective than the obsolete single-agent chemotherapy (5-fluorouracil) (HR for SLP: 0.59, 95% CI 0.49 to 0.73, 2 RCT),  (HR for OS: 0.69, 95% CI 0.51 to 0.94, 1 RCT).[52]
  • FOLFIRI (5-fluorouracil plus + leucovorin plus + irinotecan) is the second most effective chemotherapy in metastatic CRC and is either first or second line. (HR for OS: 0.58, 95% CI 0.43 to 0.80, 1 RCT).
  • Combinations based on irinotecan were more effective than irinotecan alone (HR for PFS: 0.68, 95% CI 0.60 to 0.76, 6 RCT) [Level II]. Targeted agents increased the efficacy of conventional chemotherapy when considered together (HR for OS: 0.84, 95% CI 0.77 to 0.91, 6 RCT) and when bevacizumab alone (HR for PFS: 0.67, 95% CI 0.60 to 0.75, 4 RCT).[52]
  • In the metastatic colorectal cancer, monoclonal antibodies are used (bevacizumab, cetuximab, and panitumumab)  in combination with chemotherapy. There is a distinct benefit in the addition of bevacizumab to chemotherapy for tumors on the right side or cetuximab to chemotherapy for tumors on the left side (for RAS wild type tumors) to oxaliplatin- and irinotecan-based regimens which can be a consideration for first-line therapy.[53]
  • A meta-analysis including TAILOR and PRIME study suggests that primary tumor location predicted a survival benefit when adding the anti-epidermal growth factor receptor antibody to FOLFOX regimen in RAS & NRAS-wild metastatic CRC patients (OS, HR for left-sided: 0.71; 95% CI: 0.59-0.85; P=.0002 and HR for right-sided: 0.90; 95% CI: 0.65-1.25; P=.53). The efficacy was similar in patients with wild molecular characteristics RAS / BRAF.[54]

• Radiotherapy: Preoperative radiotherapy (hypofractionated) with chemotherapy is recommended in patients with stage II and III rectal cancer or with unresectable residual tumor (positive margins), according to the report of anatomopathological findings of the surgical specimen.[55] The use of radiotherapy is limited to palliative therapy for selected cases of metastasis (bone, brain).[56]
• Surgery: The appropriate surgical option for patients with colon cancer and LS (total abdominal colectomy or segmental colectomy with ileorectal anastomosis) will depend on the risk factors. The surgical preferences of the patient, with special emphasis on the age of the patient and the capacity of the patient to follow intensive surveillance,[57] but currently, segmental resection is the most performed surgical method in these cases.[58] Also, patients should be offered the option of prophylactically extended surgery (hysterectomy and oophorectomy) if possible in postmenopausal women.[59][60] In FAP, prophylactic colectomy is an important option to prevent CRC.[61] The preventive surgical approach is limited for patients with attenuated FAP, delayed colectomy time, and increased standardization of laparoscopic surgery.[62] However, surveillance and surgical management planning should follow a thorough assessment of familial cancer risk.[63]

• Gardner syndrome: is a variant of FAP, is an autosomal dominant inherited disease characterized by multiple intestinal polyps together with extra-intestinal manifestations including multiple osteomas, connective tissue tumors, thyroid carcinomas, hypertrophied pigmented epithelium of the retina, and also frequent retained supernumerary teeth and odontomas.[24] This condition carries a high risk of developing colon cancer.[64] 

• Muir-Torre syndrome: MTS is a rare subtype of LS characterized by the presence of sebaceous neoplasms of the skin and visceral malignancies with colonic carcinoma being the most common.[65]

• Turcot syndrome: TS is the association of primary brain tumors. It divides into two subtypes: TS type I (Intestinal polyps are large, fewer in number than 100, and are apt to undergo a malignant change. Associated brain tumor is usually a glioblastoma or an astrocytoma.) and TS type II (Familial adenomatous polyposis-associated type. There is a predisposition to development of medulloblastoma.)[66] Tumors can also arise from the spinal cord, manifesting with symptoms of spinal cord compression.[67]

• Juvenile polyposis coli: JPC is a rare disease characterized by the presence of juvenile hamartomatous polyps in the gastrointestinal tract. The lifetime risk of CRC is 20%.[68] JPC is diagnosed with the presence of more than five juvenile polyps in the colon and/or rectum; the presence of juvenile polyps along the digestive tract, including the stomach; the presence of any number of juvenile polyps in association with a family history of JIP.[69] Clinical signs include isolated rectal bleeding, anemia, abdominal pain, intestinal invaginations, diarrhea, rectal prolapse, and spontaneous anal elimination of polyps in juvenile polyposis coli and generalized juvenile polyposis. Other associated signs may include growth retardation and edema.[70]

• Peutz-Jeghers Syndrome: PJS is characterized by pigmentation of mucocutaneous melanin and multiple gastrointestinal polyposis. The clinical manifestations mainly included black spots, abdominal pain, and anemia.[71] These polyps have a higher risk of developing GI cancers of the colorectal, pancreatic and gastric organs, in addition to a wide variety of non-GI epithelial malignancies, such as cancers of the breast, uterus, cervix, ovary, testicular and lung. The lifetime risk of CRC is 39%.[72] Patients with PJS present a high risk of intussusception and should receive regular follow-up due to the high risk of cancer and the possibility of relapse.[73]

• Hamartoma tumor syndrome: This is called PTEN (PHTS).[74] PTEN correlates with multiple benign diseases (macrocephaly, Hashimoto's thyroiditis, mucocutaneous hamartomas, colon polyps, and vascular malformations) and malignant tumors (breast, thyroid, renal, endometrial and colon cancer),[74]  as well as neurodevelopmental disorders such as autism.[75] PHTS patients may also demonstrate an increased risk of immunological dysregulation, including autoimmunity and immune deficiencies.[18]

• Cowden syndrome: CS classically is characterized by multiple hamartomas that can occur in any organ, macrocephaly, mucocutaneous lesions, and an increased risk of breast and thyroid cancers, ovarian, colon cancer. The lifetime risk of CRC 13%.[21][76]

• Bannayan-Riley-Ruvalcaba syndrome: BRRS is a congenital disorder that is frequently characterized by hamartomatous intestinal polyps, lipomas, macrocephaly, and genital lentiginosis. BRRS patients with a PTEN mutation share the same risk of developing cancer as patients with CS.[77]

• Proteus syndromes: PS is a disorder characterized by progressive excessive growth at the level of the skeleton, skin, fat and central nervous system, with few hamartomatous polyps. Complications include hemimegaencephaly, bullous lung disease, pulmonary embolism, and deep vein thrombosis. The tumors are usually benign, although there are reports of rare cases of malignant tumors.[78]

• Solamen syndrome: The term 'SOLAMEN syndrome' "Segmental Overgrowth, Lipomatosis, Arteriovenous Malformation, and Epidermal Nevus." These patients are carriers of germline mutations in the phosphatase and PTEN homologs.[79]

• In their study, Lee and his colleagues indicated that those with sporadic colorectal cancer (CRC) and a family history of CRC had better overall survival but a cancer recurrence similar to those who did not have CRC family history.[80]
• CRC survivors (5 to 10 years post-diagnosis) reported overall good health-related quality of life but significantly poorer social functioning and more problems with dyspnea, constipation, diarrhea, and finances than controls; mainly among younger subjects.[81]

• Severe complications during colonoscopy represent the most important adverse effect of colorectal cancer screening programs. The immediate complication occurred in 3.3%, as perforation and hemorrhagic events. However, the following factors increase the risk of early and late complications, including a history of colon disease, a history of anticoagulation, a history of pelvic surgery or abdominal radiotherapy, and a history of perforation.[82]
• After a total colectomy, systemic complications can occur in 22%, mainly in those older than 65 years due to significant comorbidities, while the incidence of surgical complications was 8%, such as anastomotic leakage, major infections in the wound, and postoperative hemorrhage.[83]

• There is a need for educational efforts to raise awareness about CRC, particular in the young. There is also a need to improve adherence to screening in young patients eligible for screening, and to emphasize early evaluation of symptoms. These are essential steps to decreasing the burden of CRC in younger patients.[84] 
• Good lifestyle and dietary habits are recommended, to reduce the most critical factor in colorectal carcinogenesis starting in the early stages of life.[85]

• An interprofessional approach includes a gastroenterologist, oncologist, colorectal surgeon, primary care provider, nurse practitioner, and a geneticist.
• Consider offering genetic testing to people with suspected hereditary colorectal cancer and their family members, after genetic counseling.[86]
• Suggestions are that in individuals with a family history in the first degree of classical FAP, the screening strategy is annual colonoscopy from 12 to 15 years, up to 30 to 35 years of age and then it is suggested to continue screening every five years.[87][88]
• In the population with suspicion or family history of HNPCC, suggestions are that the screening strategy is colonoscopy every two years, from 20 to 25 years, or five to ten years before the age of the youngest case diagnosed in the family.[89][90] 
• Studies consistently report that registration and screening result in a reduction of CRC incidence and mortality in patients with FAP and LS.[91][Level II]
• The MSI test is an effective screening test for Lynch syndrome. However, it must correlate with the panel of markers used or the thresholds used to denote a positive test.[92][Level II] 
• The studies indicate that in adenomatous polyposis coli patients with APC promoter, hypermethylation is an early event in carcinogenesis of CRC and could be a valuable diagnostic marker for early-stage CRC.[93][94][Level II] 
• Currently, the evidence of chemoprevention is for NSAIDs, sulindac, and aspirin in low doses that reduce the progression of polyps and reduce the long-term incidence of colorectal cancers, in patients with FAP  and HNPCC, respectively.[95] [Level II] 
• Strict vigilance is necessary for the syndromes associated with CCR and extracolonic manifestations, especially LS with endometrial cancer, as well as those mentioned in the differential diagnosis section.[96]
• The risk factors that increase mortality are advanced age, male sex, African-American race, elevated CEA and not undergoing curative surgery. Likewise, patients with CRC have an association with an increased risk of cardiovascular death, especially during the first year after diagnosis.[97][Level II]
• Overall, FOLFOX was the most effective first-line treatment [Level I], and FOLFIRI plus cetuximab (KRAS/NRAS wild) was the most effective treatment in terms of long-term survival, Wang and colleagues, in their analysis of 75 RCTs published after 1997. This treatment is preferable for patients with CRC in clinical practice.[98][Level I]
• The use of bevacizumab represents hope for increased survival and a chance of metastasectomy for patients with metastatic CRC. However, there are serious adverse events associated with its use, especially severe hypertension and gastrointestinal perforation, that merit consideration.[99][Level I] 
• The treating physician should recommend a diet rich in dietary fiber because it decreases CRC risk and post-operative relapses.[100][101][102] Currently, there is inadequate data to support the benefits of exercise in the field of colorectal surgery.[103][104][Level III]