Serrated polyposis syndrome
Serrated polyposis syndrome (SPS), previously known as hyperplastic polyposis syndrome, is a disorder characterized by the appearance of serrated polyps in the colon. While serrated polyposis syndrome does not cause symptoms, the condition is associated with a higher risk of colorectal cancer (CRC). The lifelong risk of CRC is between 25 and 40%. SPS is the most common polyposis syndrome affecting the colon, but is under recognized due to a lack of systemic long term monitoring.[5] Diagnosis requires colonoscopy, and is defined by the presence of either of two criteria: ≥5 serrated lesions/polyps proximal to the rectum (all ≥ 5 mm in size, with two lesions ≥10 mm), or >20 serrated lesions/polyps of any size distributed throughout the colon with 5 proximal to the rectum.[6]
Serrated polyposis syndrome | |
---|---|
Other names | Hyperplastic polyposis syndrome (former) |
Hyperplastic polyp seen under microscopy with H&E stain | |
Specialty | Gastroenterology |
Symptoms | Asymptomatic |
Complications | Colorectal cancer (~20%)[1] |
Usual onset | 55 years of age (average)[2] |
Types | Distal and proximal |
Causes | Environmental and genetic factors |
Risk factors | Smoking, Lymphoma[3] |
Diagnostic method | Colonoscopy |
Treatment | Surveillance colonoscopy Polypectomy Surgery |
Frequency | 0.03–0.5%.[4] |
A family history of SPS and smoking tobacco are associated with a higher risk of serrated polyposis syndrome, whereas the use of aspirin and nonsteroidal anti-inflammatory drugs (NSAIDs) are associated with a lower risk. While the only validated genetic cause of SPS is RNF43,[7] additional important genetic abnormalities include BRAF mutations, abnormal CpG island methylator phenotype, and microsatellite instability. However, most individuals with the syndrome do not have an associated germline mutation. The types of polyps found in SPS include sessile serrated adenomas/polyps, traditional serrated adenomas, and hyperplastic polyps. SPS occurs in 2 phenotypes: proximal and distal. Proximal SPS has a greater risk of CRC than distal SPS.
The vast majority of cases may be managed with colonoscopy with removal polyps (polypectomy). Polyp removal is recommended to decrease the risk of colorectal cancer. Repeat colonoscopy should be performed every 1–2 years. If polyps are very large, numerous, or increase in number rapidly, then surgery may be necessary. Surgery may also be warranted if CRC is suspected or confirmed. First-degree relatives of people with SPS have an increased risk of CRC, and should undergo early screening with colonoscopy.
Types
SPS may occur with one of two phenotypes: distal or proximal.[6] The distal phenotype may demonstrate numerous small polyps in the distal colon (sigmoid) and rectum, whereas the proximal phenotype may be characterized by relatively fewer, but larger polyps in the proximal colon (cecum, ascending colon, etc.).[6] Individuals meeting only criterion 3 from 2010 criteria, or only criterion 2 from the 2019 classification, have a distal phenotype have a lower risk of CRC compared with the proximal phenotype.[6]
Signs and symptoms
Serrated polyposis syndrome often does not cause symptoms. The risk of colon cancer is between 25 and 40%.[8]
Sessile serrated polyps, as seen during endoscopy or colonoscopy, are flat (rather than raised) and are easily overlooked. Serrated lesions range in size from small (<5 mm) to large, and often have a "mucous cap" overlying the polyp. Serrated lesions are frequently located on the folds of the colon (haustral folds).
Pathophysiology
SPS is not caused by a single gene mutation. Several genetic abnormalities are associated with the condition, and a familial or inherited pattern may occur. Key genetic abnormalities include mutations in BRAF, abnormal CpG island methylator phenotype, and microsatellite instability. Additional implicated genes include: SMAD4, BMPR1A, PTEN, GREM1, and MUTYH. The only validated genetic cause of SPS is RNF43.[7] However, most individuals with SPS do not have a germline mutation in any of the associated genes, including RNF43.[4] As the underlying genetic risks for SPS are not fully understood, genetic testing is not recommended. Both autosomal dominant and autosomal recessive patterns of inheritance have been reported,[8] as well as sporadic. Individuals with SPS have serrated polyps, which include hyperplastic polyps, traditional serrated adenomas, and sessile serrated polyps.[5] In addition to serrated polyps, adenomas are often identified.[5]
Diagnosis
The diagnosis of serrated polyposis syndrome is achieved when either one of two criteria are met: ≥5 serrated lesions/polyps proximal to the rectum (all ≥ 5 mm in size, with two lesions ≥10 mm), or >20 serrated lesions/polyps of any size distributed throughout the large bowel with 5 proximal to the rectum.[6] Any serrated polyp is counted towards the diagnosis, including sessile serrated lesions, hyperplastic polyps, and traditional serrated adenomas.[4] In addition, the cumulative number of serrated lesions is cumulative over time and includes multiple colonoscopies.[4] The diagnosis of SPS is often overlooked,[9] and requires lifelong tracking of cumulative serrated polyps.[5]
Treatment
Colonoscopy is the mainstay of treatment for SPS, which allows for the identification of polyps and removal.[5] Polyp removal is recommended to prevent the development of colorectal cancer. If polyps are relatively few, then removal may be achieved with colonoscopy. After polyps are removed, repeat colonoscopy is recommended in 1 to 3 year intervals.[10][5] On average, about 2.8 colonscopies are necessary to achieve control of disease.[11] The majority of cases may be managed with colonoscopy alone.[11] Narrow-band imaging, an imaging technique used to enhance features of mucosa seen during colonoscopy, may improve detection of serrated lesions;[12] however, one multicenter trial did not show improved detection.[13]
If polyps are very numerous, very large, or their growth cannot be controlled with colonoscopy, then surgery may be necessary.[14] When surgery is necessary, a total abdominal colectomy with ileorectal anastomosis should be considered to minimize the risk of colon cancer.[15] If surgery is necessary and involvement of polyps is focal or largely confined to a particular section of bowel, then segmental resection may be considered.[15] Segmental resection is also recommended for cancer.[16] In most cases, the rectum is left in place. Any remaining segments of colon or rectum require annual surveillance with colonoscopy.[16]
First degree relatives of people with SPS are at a higher risk of colorectal cancer[5][17][18] and SPS.[19] As such, these individuals should undergo screening with colonoscopy[20] beginning at the earliest of the following: 40 years of age, the age of the youngest diagnosis of SPS in the family, or 10 years younger than the earliest CRC related to SPS.[5] Repeat colonoscopy should be performed at 5 year intervals.[6]
Prognosis
The overall risk of colorectal cancer is about 19.9%.[1] However, the risk of cancer varies widely and depends on age, polyp burden, phenotype and the presence of dysplasia on histology.[4] Endoscopic surveillance can decrease the risk of progression to cancer.[4]
History
The condition was originally known as hyperplastic polyposis syndrome.[14] When the syndrome was first recognized, only hyperplastic polyps were included in its definition,[14] and the syndrome was believed to not be associated with a higher risk of colorectal cancer.[21] In 1996, a case series revealed an association of the syndrome with cancer and serrated adenomas.[22] Subsequently, other types of serrated polyps were found to occur in this condition, so the name was adjusted to the present "serrated polyposis syndrome."[14]
The World Health Organization released diagnostic criteria in 2010, which were updated in 2010 and again in 2019.[6] The 2010 classification defined SPS as meeting any of the following criteria: 1) five or more serrated polyps proximal to the sigmoid colon with 2 larger than 10 mm in size, 2) any serrated polyps found proximal to the sigmoid colon in a person with a first-degree relative with serrated polyposis, or 3) more than 20 serrated colon polyps. The updated 2019 classification revised the first criterion to include lesions in the sigmoid colon, and excluded very small polyps (<5 mm).[6] The updated 2019 classification also removed the criterion that included any serrated lesions proximal to the sigmoid colon in a person with a first degree relative with SPS.[6]
Epidemiology
Data regarding overall prevalence of SPS is lacking, but it is estimated to occur in roughly 1 in 100,000.[14] SPS is equally common among men and women.[2] Most individuals with SPS are diagnosed between 40 and 60 years of age,[4] with an average age of 55 years.[2] Nearly half of individuals with SPS have a family member with colorectal cancer.[16] Most individuals (37–70%) with SPS fulfill criterion 3 of the 2010 criteria (now criteria 2 from the 2019 classification). Of the remaining individuals with SPS, roughly half meet only criterion 1 and half meet both criteria 1 and 3 (2010 classification).
Among individuals undergoing colonoscopy for the evaluation of an abnormal fecal occult blood test, the prevalence of SPS ranges from 0.34 to 0.66%. The overall prevalence of SPS is 0.03–0.5%.[4] The prevalence of SPS is between 1 in 127 and 1 in 242 among individuals undergoing colonoscopy.[5] SPS is associated with tobacco use.[14] Aside from colorectal cancer, the risk of others cancers is not increased in people with SPS.[14] Aspirin and nonsteroidal anti-inflammatory drug (NSAIDs) may be associated with a lower risk of SPS.[8] SPS is the most common polyposis syndrome affecting the colon.[5]
There is no clear association of SPS with any cancers other than colorectal cancer. However, there is mixed evidence regarding a possible association with SPS and pancreatic cancer.[17][23] Individuals with a history of lymphoma have a higher risk of developing sessile serrated polyposis syndrome.[3]
References
- Muller, C; Yamada, A; Ikegami, S; Haider, H; Komaki, Y; Komaki, F; Micic, D; Sakuraba, A (2021-06-02). "Risk of Colorectal Cancer in Serrated Polyposis Syndrome: A Systematic Review and Meta-Analysis". Clinical Gastroenterology and Hepatology. doi:10.1016/j.cgh.2021.05.057. PMID 34089849. S2CID 235353836.
- Guarinos, C; Sánchez-Fortún, C; Rodríguez-Soler, M; Alenda, C; Payá, A; Jover, R (28 May 2012). "Serrated polyposis syndrome: molecular, pathological and clinical aspects". World Journal of Gastroenterology. 18 (20): 2452–61. doi:10.3748/wjg.v18.i20.2452. PMC 3360443. PMID 22654442.
- Rigter, LS; Spaander, MCW; Aleman, BMP; Bisseling, TM; Moons, LM; Cats, A; Lugtenburg, PJ; Janus, CPM; Petersen, EJ; Roesink, JM; van der Maazen, RWM; Snaebjornsson, P; Kuipers, EJ; Bruno, MJ; Dekker, E; Meijer, GA; de Boer, JP; van Leeuwen, FE; van Leerdam, ME (15 March 2019). "High prevalence of advanced colorectal neoplasia and serrated polyposis syndrome in Hodgkin lymphoma survivors". Cancer. 125 (6): 990–999. doi:10.1002/cncr.31903. PMC 6590398. PMID 30561773. S2CID 56172996.
- Crockett, SD; Nagtegaal, ID (October 2019). "Terminology, Molecular Features, Epidemiology, and Management of Serrated Colorectal Neoplasia". Gastroenterology. 157 (4): 949–966.e4. doi:10.1053/j.gastro.2019.06.041. PMID 31323292.
- Mankaney, G; Rouphael, C; Burke, CA (April 2020). "Serrated Polyposis Syndrome". Clinical Gastroenterology and Hepatology. 18 (4): 777–779. doi:10.1016/j.cgh.2019.09.006. PMID 31520728.
- Dekker, E; Bleijenberg, A; Balaguer, F; Dutch-Spanish-British Serrated Polyposis Syndrome, collaboration. (May 2020). "Update on the World Health Organization Criteria for Diagnosis of Serrated Polyposis Syndrome". Gastroenterology. 158 (6): 1520–1523. doi:10.1053/j.gastro.2019.11.310. PMID 31982410.
- Stanich, PP; Pearlman, R (December 2019). "Hereditary or Not? Understanding Serrated Polyposis Syndrome". Current Treatment Options in Gastroenterology. 17 (4): 692–701. doi:10.1007/s11938-019-00256-z. PMID 31673925. S2CID 207810042.
- Fan, C; Younis, A; Bookhout, CE; Crockett, SD (March 2018). "Management of Serrated Polyps of the Colon". Current Treatment Options in Gastroenterology. 16 (1): 182–202. doi:10.1007/s11938-018-0176-0. PMC 6284520. PMID 29445907.
- van Herwaarden, YJ; Pape, S; Vink-Börger, E; Dura, P; Nagengast, FM; Epping, LSM; Bisseling, TM; Nagtegaal, ID (March 2019). "Reasons why the diagnosis of serrated polyposis syndrome is missed". European Journal of Gastroenterology & Hepatology. 31 (3): 340–344. doi:10.1097/MEG.0000000000001328. PMID 30520764. S2CID 54521984.
- Rex, DK; Ahnen, DJ; Baron, JA; Batts, KP; Burke, CA; Burt, RW; Goldblum, JR; Guillem, JG; Kahi, CJ; Kalady, MF; O'Brien, MJ; Odze, RD; Ogino, S; Parry, S; Snover, DC; Torlakovic, EE; Wise, PE; Young, J; Church, J (September 2012). "Serrated lesions of the colorectum: review and recommendations from an expert panel". The American Journal of Gastroenterology. 107 (9): 1315–29, quiz 1314, 1330. doi:10.1038/ajg.2012.161. PMC 3629844. PMID 22710576.
- Pellisé, Maria; Balaguer, Francesc (July 2019). "Serrated polyposis syndrome: time to rethink endoscopic treatment and surveillance". Gastrointestinal Endoscopy. 90 (1): 101–104. doi:10.1016/j.gie.2019.04.224. PMID 31228973.
- Murakami, T; Sakamoto, N; Nagahara, A (7 August 2018). "Endoscopic diagnosis of sessile serrated adenoma/polyp with and without dysplasia/carcinoma". World Journal of Gastroenterology. 24 (29): 3250–3259. doi:10.3748/wjg.v24.i29.3250. PMC 6079289. PMID 30090005.
- Hazewinkel, Y; Tytgat, KM; van Leerdam, ME; Koornstra, JJ; Bastiaansen, BA; van Eeden, S; Fockens, P; Dekker, E (March 2015). "Narrow-band imaging for the detection of polyps in patients with serrated polyposis syndrome: a multicenter, randomized, back-to-back trial". Gastrointestinal Endoscopy. 81 (3): 531–8. doi:10.1016/j.gie.2014.06.043. PMID 25088921.
- Syngal, S; Brand, RE; Church, JM; Giardiello, FM; Hampel, HL; Burt, RW; American College of, Gastroenterology. (February 2015). "ACG clinical guideline: Genetic testing and management of hereditary gastrointestinal cancer syndromes". The American Journal of Gastroenterology. 110 (2): 223–62, quiz 263. doi:10.1038/ajg.2014.435. PMC 4695986. PMID 25645574.
- Ashburn, JH; Plesec, TP; Kalady, MF (December 2016). "Serrated Polyps and Serrated Polyposis Syndrome". Clinics in Colon and Rectal Surgery. 29 (4): 336–344. doi:10.1055/s-0036-1584088. PMC 6878941. PMID 31777465.
- Sleisenger and Fordtran's gastrointestinal and liver disease : pathophysiology/diagnosis/management (Tenth ed.). Saunders. 2016. pp. 2246–2247. ISBN 978-1455746927.
- Win, AK; Walters, RJ; Buchanan, DD; Jenkins, MA; Sweet, K; Frankel, WL; de la Chapelle, A; McKeone, DM; Walsh, MD; Clendenning, M; Pearson, SA; Pavluk, E; Nagler, B; Hopper, JL; Gattas, MR; Goldblatt, J; George, J; Suthers, GK; Phillips, KD; Woodall, S; Arnold, J; Tucker, K; Field, M; Greening, S; Gallinger, S; Aronson, M; Perrier, R; Woods, MO; Green, JS; Walker, N; Rosty, C; Parry, S; Young, JP (May 2012). "Cancer risks for relatives of patients with serrated polyposis". The American Journal of Gastroenterology. 107 (5): 770–8. doi:10.1038/ajg.2012.52. PMC 3488375. PMID 22525305.
- Boparai, KS; Reitsma, JB; Lemmens, V; van Os, TA; Mathus-Vliegen, EM; Koornstra, JJ; Nagengast, FM; van Hest, LP; Keller, JJ; Dekker, E (September 2010). "Increased colorectal cancer risk in first-degree relatives of patients with hyperplastic polyposis syndrome". Gut. 59 (9): 1222–5. doi:10.1136/gut.2009.200741. PMID 20584785. S2CID 206950814.
- Oquiñena, S; Guerra, A; Pueyo, A; Eguaras, J; Montes, M; Razquin, S; Ciaurriz, A; Aznárez, R (January 2013). "Serrated polyposis: prospective study of first-degree relatives". European Journal of Gastroenterology & Hepatology. 25 (1): 28–32. doi:10.1097/MEG.0b013e3283598506. PMID 23011040. S2CID 24555717.
- Hazewinkel, Y; Koornstra, JJ; Boparai, KS; van Os, TA; Tytgat, KM; Van Eeden, S; Fockens, P; Dekker, E (2015). "Yield of screening colonoscopy in first-degree relatives of patients with serrated polyposis syndrome". Journal of Clinical Gastroenterology. 49 (5): 407–12. doi:10.1097/MCG.0000000000000103. PMID 24583756. S2CID 38054015.
- East, James E; Atkin, Wendy S; Bateman, Adrian C; Clark, Susan K; Dolwani, Sunil; Ket, Shara N; Leedham, Simon J; Phull, Perminder S; Rutter, Matt D; Shepherd, Neil A; Tomlinson, Ian; Rees, Colin J (July 2017). "British Society of Gastroenterology position statement on serrated polyps in the colon and rectum". Gut. 66 (7): 1181–1196. doi:10.1136/gutjnl-2017-314005. PMC 5530473. PMID 28450390.
- Torlakovic, E; Snover, DC (March 1996). "Serrated adenomatous polyposis in humans". Gastroenterology. 110 (3): 748–55. doi:10.1053/gast.1996.v110.pm8608884. PMID 8608884.
- Hazewinkel, Y; Reitsma, JB; Nagengast, FM; Vasen, HF; van Os, TA; van Leerdam, ME; Koornstra, JJ; Dekker, E (December 2013). "Extracolonic cancer risk in patients with serrated polyposis syndrome and their first-degree relatives". Familial Cancer. 12 (4): 669–73. doi:10.1007/s10689-013-9643-x. PMID 23591707. S2CID 17110463.