Introduction
Crohn’s disease (CD), also referred to as regional enteritis, granulomatous enterocolitis, and terminal ileitis, is a chronic relapsing and remitting inflammatory disease of unknown cause that is often multifocal and can affect any portion of the gastrointestinal tract (GIT) [
1]. It is generally accepted that the Scottish surgeon Dalziel gave the first account of the disease in 1913 [
2]. In the 1960s, Lockhart-Mummery and Morson described the involvement of the large intestine by CD [
3], and it was in the 1950s that anal and anorectal CD were described [
4]. In time, it became clear that CD can involve any part of the digestive tract and that extraintestinal manifestations can be present, especially in the skin, eyes, and joints [
5‐
9].
Epidemiological studies showed that CD has an incidence of 3 to 20 cases per 100,000 [
10,
11]. CD is more common in the industrialized world, particularly in North America and Western Europe, though the incidence is rising in Asia and South America [
10,
12,
13]. There may be a slightly higher predominance of CD in women, and it is more common in individuals of Ashkenazi Jewish origin than in non-Jews. The exact pathogenesis of CD is unknown, although there are a number of genetic and environmental factors that have been shown to increase the risk of the disease and lead to the aberrant gut immune response characteristic of the disease [
10,
12].
In a related development, other literature suggested a “north to south gradient” with respect to the incidence of CD. North America (7 to 10.3/100,000 per year), the United Kingdom (8.3 to 9.1/100,000 per year), and Northern Europe (5.8–6.3/100,000 per year) have the highest incidence of CD [
10,
12,
13]. The prevalence of CD also demonstrated a similar pattern, which is reported to be 207/100,000 per year in North America, 156/100,000 per year in the United Kingdom, and 90/100,000 per year in Northern Europe [
14‐
20]. However, owing to limited information on inflammatory bowel disease (IBD) in southern countries, this “gradient” is not widely accepted.
Furthermore, there are only a few studies on the incidence and prevalence of CD in Latin America [
14,
21]. Although the incidence of CD in South America has been surveyed to be lower than in North America, in the last 50 years, occidental countries have reported a rise in both incidence and prevalence of IBD [
14,
21]. Another study mentioned that Puerto Rico has the lowest incidence of IBD within the southern American subregion [
14,
22]. Yamamoto-Furusho, in his study of a Mexican population, reported an increasing incidence of ulcerative colitis (UC) from 1987 to 2006, with a 2.6-fold increase from 1997 to 2006, compared with the previous decade. This increasing incidence of UC has been linked to environmental factors and the unique genetic mosaic of the Mexican population, but there is no information regarding CD incidence in Mexico to date [
14,
23].
The rarity of CD and the prevalence of tuberculous enterocolitis in Africa and Asia in general tend to unnecessarily make clinicians hesitant to diagnose a CD both clinically and histologically [
9,
24‐
27]. Its differentiation from UC is always a problem, but the distinction from tuberculosis is rather more difficult in developing countries if the lesion is granulomatous [
9,
24‐
27]. Surgically resected bowel segments again require a close examination using various diagnostic criteria to diagnose or exclude a CD [
9,
24‐
27]. This case of histopathologically confirmed CD is presented because of the rarity and clinical curiosity of this entity. Evidence-based, up-to-date information on CD is also presented.
Discussion
CD causes inflammation of the digestive tract. It can affect any area of the GIT from mouth to anus; however, it most commonly affects the ileum [
28]. In CD, all layers of the intestine may be involved, and normal healthy bowel can be found between sections of diseased bowel. CD affects men and women equally in all age groups, with a predilection in the second and third decades and familial preponderance in a few [
29]. IBD was once considered rare in the developing world; its epidemiology is changing, and the incidence of both CD and UC is increasing in the Asia-Pacific region, India, Eastern Europe, and South Africa [
30‐
33]. There have been very few reported cases of CD in black African patients in Kenya and South Africa [
34]. The symptoms, anatomical distribution, signs, and pathology in black patients in Africa and America are similar to those described in white individuals. The disease is probably underdiagnosed in Africa because of difficulties in distinguishing schistosomiasis and tuberculosis of the bowel [
24,
35‐
37]. The etiology of CD remains incompletely known, although several theories have been issued, such as the involvement of genetic factors, environmental factors (including diet), and infective agents [
24‐
26]. CD is directly correlated with a triad of predisposing factors, including genetic problems, immune system malfunctions, and environmental factors [
24‐
26].
CD usually presents with abdominal pain especially due to involvement of ileum, blood-stained diarrhea, and anemia. Some patients with CD may have low-grade fever, nausea, and vomiting. Fissures or cracks may be evident, and fistulas and abscesses may form in anal involvement [
38]. CD may also present with extraintestinal manifestations such as skin or mouth lesions, pain in the joints, eye irritation, kidney stones, gallstones, and other diseases of the hepatobiliary system [
39]. Affected children may have delayed milestones. Patients with severe cases of CD may have most common complications such as intestinal blockage with thickening and fibrosis of the affected segment [
40].
The diagnosis of CD is a clinical one and can be quite difficult, given that the presenting symptoms can be insidious and nonspecific [
41]. Red flag symptoms that require further evaluation include weight loss, bloody diarrhea, iron deficiency, and nighttime awakenings.
Similarly, significant family history of IBD, unexplained elevations in the C-reactive protein level and erythrocyte sedimentation rate, or other acute-phase reactants (for example, ferritin and platelets), or low vitamin B
12 should prompt further investigation for possible CD. Laboratory findings that are useful in CD are hypoalbuminemia, elevation of the erythrocyte sedimentation rate and C-reactive protein, anemia, or leukocytosis [
41‐
43]. The serologic markers of clinical importance are the anti-
Saccharomyces cerevisiae antibodies, which are commonly positive in CD, and antineutrophil cytoplasmic antibody, which is negative for CD [
41‐
43]. These tests are suggestive of CD but are not meant to be interpreted as diagnostic tests, because positive results could be present in a healthy population The main utility of these antibodies is for differential diagnosis in patients with characteristics of CD and other diseases, including UC [
41‐
43].
In spite of the widely used diagnostic modalities such as ultrasound, barium x-rays, CT scans, and colonoscopy, a clear diagnosis of CD may remain obscure. Although no single “gold standard” indicator of this disease has been established, it is indeed possible to make an ideal diagnosis based on the patient’s clinical, laboratory, endoscopic, and pathologic data; meanwhile, colonoscopy, capsular endoscopy, and laparoscopy significantly assist clinicians worldwide in elucidating the diagnosis [
42]. Both computed tomography enterography (CTE) and magnetic resonance enterography (MRE) allow visualization of the bowel wall, mucosa, and extraluminal complications. CTE and MRE have supplanted small-bowel barium studies as the criterion standard for the diagnosis and assessment of CD [
14,
43].
Treatment and prognosis of the disease depend on several factors. The Montreal classification considers age of onset, location, and behavior of the disease, as well as presence of perianal disease, for categorization; many decisions regarding diagnostic approach, treatment, follow-up, and prediction of several outcomes, ranging from response to therapy to long-term prognosis, depend on this classification (Table
1) [
44].
Table 1
Montreal classification [
10]
Age at diagnosis | A1: less than 16 years |
A2: between 17 and 40 years |
A3: over 40 years |
Location | L1: ileal |
L2: colonic |
L3: ileocolonic |
L4: isolated upper digestive |
Behavior | B1: nonstricturing, nonpenetrating |
B2: stricturing |
B3: penetrating |
P: perianal disease |
Furthermore, for severity scoring, there is an extensive number of validated scores such as the Crohn’s Disease Activity Index (CDAI), mainly used in clinical trials because of its complexity, and the Harvey-Bradshaw Index used in the clinical setting owing to its simplicity (Table
2) [
45‐
47].
Table 2
Crohn’s Disease Activity Index [
14]
1 | No. of liquid or soft stools (each day for 7 days) | ×2 | |
2 | Abdominal pain, sum of seven daily ratings (0 = none, 1 = mild, 2 = moderate, 3 = severe) | ×5 | |
3 | Abdominal mass (0 = no, 2 = questionable, 5 = definite) | ×10 | |
4 | General well-being, sum of seven daily ratings (0 = generally well, 1 = slightly under par) | ×7 | |
5 | Hematocrit (males 47%, females 42%) | ×6 | |
6 | Body weight (1-weight/standard weight) (add or subtract according to sign) | ×100 | |
7 | Use of diphenoxylate or loperamide for diarrhea (0 = no, 1 = yes) | ×30 | |
8 | Number of listed complications (arthritis or arthralgia, iritis or uveitis, erythema nodosum or pyoderma gangrenosum or aphthous stomatitis, anal fissure or fistula or abscess, other fistula, fever over 37.8 °C). | ×20 | |
There is a global resolve among clinicians that the treatment of CD should depend on disease severity, location of disease, and subtype of disease (that is, inflammatory, stricturing, or penetrating). Attempts are also being made to determine individuals who are at risk for aggressive CD and who may require earlier and more aggressive therapies. Risk factors for aggressive disease activity include age of diagnosis less than 30 years, extensive anatomic involvement, perianal disease, deep ulcers, prior surgery, and stricturing and/or penetrating disease [
10,
48]. One of the biggest challenges associated with CD is that after 20 years of disease activity, 80% of patients will require surgery, and approximately 30% will require surgery within 5 years of diagnosis [
10,
41,
48]. Although the goal of medical therapy is to maintain remission without the need for surgery, once strictures and/or fistula complications occur, surgery may be required. Unfortunately, because surgery is not curative for CD, many patients will require multiple surgeries over their lifetime [
10,
49].
There are a number of different drugs used to treat CD, as highlighted in Table
3. Mesalamine has been evaluated in a number of studies but has not been shown to effectively induce or maintain remission in CD. The perceived benefit of mesalamine is likely related to its safety profile [
10,
41]. Antibiotics are also used in CD, but the evidence supporting their use is also limited [
50]. The main role of antibiotics is to treat the suppurative or perianal complications of CD [
51].
Table 3
Medications, monitoring, and adverse events
a [
10]
5-Aminosalycilates | Mesalamine Balsalazide Sulfasalazine | Oral Rectal | Induction and maintenance | Cr, urinalysis CBC, LFTs | Headache, nausea, diarrhea Paradoxical worsening of symptoms Interstitial nephritis Hemolytic anemia,a leukopenia,a hepatitisa |
Corticosteroids | Prednisone Budesonide Methylprednisolone | Oral Rectal IV | Induction only | Consider checking hemoglobin A1c and vitamin D levels If prolonged steroid > 3 mo: DEXA scan and ophthalmologic evaluation | Osteopenia/osteoporosis Avascular necrosis Serious infection Weight gain Insomnia Mood changes Delirium Cataracts Glaucoma Skin changes Delayed wound healing Adrenal insufficiency |
Thiopurines | Azathioprine Mercaptopurine | Oral | Maintenance | TPMT enzyme activity or genetics before initiation CBC, LFTs Skin examinations Yearly Pap smear in women | Nausea Vomiting Transaminitis Bone marrow suppression Pancreatitis Infection Non-Hodgkin lymphoma Nonmelanoma skin cancer Cervical dysplasia |
Methotrexateb | Methotrexate | SC or IM (limited efficacy of oral route) | Induction and maintenance | CBC, LFTs | Infection Cytopenias Transaminitis Cirrhosis Nausea/vomiting Flulike symptoms Oral ulcers Pulmonary toxicity Contraindicated in pregnancy |
Anti-TNF | Infliximab Adalimumab Certolizumab pegol | IV SC | Induction and maintenance | Latent TB and hepatitis B before initiation CBC, LFTs Skin examinations | Infusion/injection site reaction Infection Non-Hodgkin lymphoma (mostly if combined with a thiopurine) HSTC-L (if combined with a thiopurine) Melanoma Reactivation of latent TB and hepatitis B Drug-induced lupus erythematosus Demyelinating disease Psoriasiform and eczema reactions Worsening of CHF |
Adhesion molecule inhibitors | Natalizumab Vedolizumab | IV | Induction and maintenance | Natalizumab: JC virus checking before initiation and yearly monitoring for JC virus Vedolizumab and natalizumab: Consider CBC | Infusion reactions Infection Nasopharyngeal polyps PML (natalizumab only with positive JC virus |
IL-12/IL-23 inhibitors | Ustekinumab | IV SC | Induction and maintenance | Latent TB before initiation Consider CBC, LFTs | Infusion reactions Skin cancer Reversible posterior leukoencephalopathy TB |
Immunosuppressants, including AZA, mecaptopurine (MP), and MTX, have been used for many years to treat CD. These drugs are typically used to maintain remission because of their slow onset of action. However, more recent studies question the overall efficacy of AZA/MP as monotherapy and their use in early CD [
10,
52‐
54]. Newer reports have suggested that these drugs can be used in combination with anti-tumor necrosis factor (anti-TNF) drugs to decrease their immunogenicity and also to increase anti-TNF drug concentrations. The mainstay of therapy for CD has been anti-TNF agents.
More recently approved drugs are monoclonal antibodies directed against certain integrins (α4 or α4β7) or interleukins (IL-12/IL-23). The first anti-integrin approved for CD was natalizumab, but this is associated with progressive multifocal leukoencephalopathy (PML), a fatal brain infection [
10,
55,
56]. Vedolizumab is a gut-selective anti-integrin that has not been associated with PML and is used mostly to maintain remission in moderate to severe CD with only modest effectiveness at induction of remission [
10,
57]. In contrast, the most recently approved agent, ustekinumab, an IL-12/IL-23 inhibitor, has been shown to be as effective as anti-TNF therapy at inducing and maintaining remission in moderate to severe CD [
10,
58].
Ultimately, the goal of medical therapy is to induce and maintain a steroid-free clinical remission, prevent complications and surgery, and improve the patient’s quality of life [
10,
59]. For typical medication, complications, and monitoring recommendations,
see Table
3.
A significant number of patients with CD can be managed by adopting a conservative approach that includes adequate rest, a nutritious diet, multivitamins, iron, folic acid, antioxidants, and sulfasalazine. Surgical therapy is useful in refractory disease and when complications such as occlusion, abscess, and fistulas develop. Though surgery is required to relieve obstruction, to repair a perforation, to treat an abscess, or to close a fistula, a judicious approach to treating the patient is of utmost importance regarding the decision whether to intervene or to continue with conservative management to avoid life-threatening complications [
2]. This evidence confirmed the role of surgical intervention as reported in the index patient.
The outcome of CD has improved with good medical care. It is serious, but it is not a terminal illness. Mortality in these patients is due to risks of surgery or associated diseases [
60]. These patients require very regular follow-up even if they are well, and any new symptom should be given due consideration. The index patient received adjuvant chemotherapy consisting of AZA, MTX, mesalamine, and methylprednisolone. He had complete disease remission.
With respect to prognosis, the literature suggests that almost all patients with CD have complications; perianal disease is present in approximately 50%. Approximately 40% will develop active disease within the first 3 years, and disease remains inactive over time in only a small percentage [
14,
61]. The majority will require bowel resections and several surgeries. A review showed that 10 years after diagnosis, 85% had the same disease location; however, the initial pattern will change after 25 years [
14,
61]. Stenosis or penetrating complications will be found in 60% of patients in the first 5 years, which will require intensive medical treatment (immunomodulatory and/or biological therapy) [
14,
61].
The most recent postoperative abdominal CT scan and colonoscopy revealed disease-free status in the index patient. The index patient is currently receiving a maintenance dose of rectal mesalamine and oral omeprazole treatment. He has been followed every 2 months in the surgical outpatient clinic over the last 16 months with a satisfactory clinical outcome.