Endoscopic Evaluation and Management of Perianal Crohn’s Disease

Introduction

Perianal disease is one of the most disabling aspects of Crohn's disease. It affects 17%–43% of the patients, especially those with proctitis. Perianal Crohn's disease affects both the pelvic floor muscles as well as the gastrointestinal tract. The anal canal contains epithelial lining, subepithelium, supporting tissues, as well as musculature of the pelvic floor and anal sphincter complex ( Fig. 17.1 ). The upper anal canal is composed of transitional and columnar epithelium which changes to squamous anal epithelium at the dentate line that contains anal columns and crypts. Perianal fistulas may develop in this region, and the risk of development increases with those who have more distal involvement. In one natural history study, 92% of the patients with rectal disease developed perianal fistulas. Several theories have been proposed for the development of fistulas. One theory proposes that deep penetrating ulcers in the anus or rectum are extended over time into fistulous tracts as feces are forced into the ulcer with the pressure of defecation. Another theory holds that Crohn's perianal fistulas may result from an infection or abscess of the anal glands, themselves.

Classification systems for describing fistula anatomy allow gastroenterologists, endoscopists, and surgeons to speak a common language when describing fistula anatomy. There are multiple classification systems to describe the extent of perianal fistulas. One system classifies fistulas as either “high” or “low” relative to their presence above or below the dentate line. Fistulas that open into the rectum above the dentate line are considered high fistulas, while those that open below the dentate line are considered low fistulas. Park's classification system, developed in 1976, uses the external anal sphincter to identify five main groups of fistulae: intersphinteric, transsphincteric, suprasphincteric, extrasphincteric, and superficial ( Fig. 17.2A ). Intersphincteric fistulas do not involve the external anal sphincter. These could also be described as “low” fistulas. Transsphincteric fistulas pass through the external anal sphincter. Suprasphincteric fistulas pass over the external anal sphincter and through the pelvic floor muscles. Extrasphincteric fistulas are outside the external sphincter complex and pass through the rectal wall, pelvic floor muscles, and ischiorectal fossa. Finally, superficial fistulas do not involve the internal or external sphincter. A third classification system was established in 2003 by the American Gastroenterological Association technical review of perianal fistulas which combines physical exam as well as endoscopic evaluation to define fistulas as either simple or complex ( Fig. 17.2B ). A simple fistula occurs low in the anal canal with a single external opening and no evidence of abscess, rectovaginal fistula, or anorectal stricture. A complex fistula occurs above the dentate line, involving a significant portion of the external anal sphincter and may have multiple external openings, pain, evidence of abscess, rectovaginal fistula, stricture, and may have active rectal disease as visualized by endoscopy. With these newer classification systems of perianal Crohn's disease, an advanced imaging modality is crucial in characterizing fistula anatomy. Endoscopic ultrasound (EUS) can help demonstrate fistula extension, sphincter complex involvement, and distinguish fistulas and abscesses from other causes of perineal pain as well as provide information about the anatomic extent of the fistulas. It can also be used to assess the degree of inflammation present and also to monitor response to the eventual treatment utilized.

Endoscopic Evaluation

Endoscopic evaluation is normally done with either a flexible sigmoidoscopy or colonoscopy to assess disease activity, identify if a rectal mass is present, and evaluate the adequacy of preparation. The presence of proctitis is one of the key determinates in deciding the best medical and surgical options to utilize for an individual patient. This is normally followed by a rectal EUS to determine fistulas anatomy. As such, both assessments can be performed very quickly during the same session. Previously, the gold standard for diagnosis of perianal fistulas had been exam under anesthesia (EUA) as performed by a surgeon. Given the degree of inflammation and scarring that is often present in patients with perianal Crohn's disease, this can be very inaccurate. Previous accuracy estimates of a digital rectal exam to define fistulas were rated at only 62%.

Computed tomography (CT) scan has been implemented to assess perianal Crohn's disease but has been unreliable in evaluation due to the difficulties in differentiating inflammation and fistulous tracts. A study conducted by Schratter-Sehn of 25 patients, 17 of which had fistulas, CT scan was only able to classify 24% of the areas as fistulas. However, endoscopic evaluation can evaluate for active inflammation and affect possible surgical options.

MRI has been useful to demonstrate fistula extension, involvement of the sphincter complex, and delineate perianal fistulas from other causes of perineal infection. A study conducted by Beets-Tan et al. showed that after initial EUA, MRI findings led to a change in surgery in 12 (21%) of 56 patients. MRI has been compared to EUA, and the specificity of MRI in identifying the fistula and its path ranges from 76% to 100%. A prospective study comparing pelvic MRI, EUS, and EUA showed that the pelvic MRI correctly classified 26 of 30 (87%) patients as compared to the consensus gold standard. MRI provides an additional imaging modality to accurately diagnose perianal Crohn's disease.