Crohn's disease

Last updated

Crohn's disease
Other namesCrohn disease, Crohn syndrome, granulomatous enteritis, regional enteritis, Leśniowski-Crohn disease
CD colitis 2.jpg
Endoscopic image of severe Crohn's colitis showing diffuse loss of mucosal architecture, friability of mucosa in sigmoid colon and exudate on wall.
Specialty Gastroenterology
Symptoms Diarrhea, abdominal pain, fatigue, weight loss, fever [1]
Complications Anemia, bowel cancer, bowel obstruction, strictures, fistulas, abscesses, anal fissure [1]
Usual onset20–30 years [2]
DurationLifelong [1]
CausesUncertain [1]
Risk factors Genetic predisposition, living in a developed country, smoking, diet, [1] antibiotics, oral contraceptives, aspirin, NSAIDS [3]
Diagnostic method Colonoscopy, capsule endoscopy, medical imaging, histopathology [1]
Differential diagnosis Ulcerative colitis, Behçet's disease, intestinal lymphoma, intestinal tuberculosis, ischaemic colitis, irritable bowel syndrome [1]
Medication Biologics (especially TNF blockers), immunosuppressants (thiopurines and methotrexate), corticosteroids, [1]
Prognosis Slightly reduced life expectancy [4]
Frequency~300 in 100,000 (North America and Western Europe) [1]
Named after

Crohn's disease is a chronic inflammatory bowel disease characterized by recurrent episodes of intestinal inflammation, primarily manifesting as diarrhea and abdominal pain. Unlike ulcerative colitis, inflammation can occur anywhere in the gastrointestinal tract, though it most frequently affects the ileum and colon, involving all layers of the intestinal wall. Symptoms may be non-specific and progress gradually, often delaying diagnosis. About one-third of patients have colonic disease, another third have ileocolic disease, and the remaining third have isolated ileal disease. Systemic symptoms such as chronic fatigue, weight loss, and low-grade fevers are common. Organs such as the skin and joints can also be affected. Complications can include bowel obstructions, fistulas, nutrition problems, and an increased risk of intestinal cancers. [1]

Contents

Crohn's disease is influenced by genetic, environmental, and immunological factors. Smoking is a major modifiable risk factor, especially in Western countries, where it doubles the likelihood of developing the disease. Dietary shifts from high-fiber to processed foods may reduce microbiota diversity and increase risk, while high-fiber diets can offer some protection. Genetic predisposition plays a significant role, with first-degree relatives facing a five-fold increased risk, particularly due to mutations in genes like NOD2 that affect immune response. The condition results from a dysregulated immune response to gut bacteria and increased intestinal permeability, alongside changes in the gut microbiome. [1]

Diagnosing Crohn's disease can be complex due to symptom overlap with other gastrointestinal disorders. It typically involves a combination of clinical history, physical examination, and various diagnostic tests. Key methods include ileocolonoscopy, which identifies the disease in about 90% of cases, and imaging techniques like CT and MRI enterography, which help assess the extent of the disease and its complications. Histological examination of biopsy samples is the most reliable method for confirming diagnosis. [1]

Management of Crohn's disease is individualized, focusing on disease severity and location to achieve mucosal healing and improve long-term outcomes. Treatment may include corticosteroids for quick symptom relief, immunosuppressants for maintaining remission, and biologics like anti-TNF therapies, which are effective for both induction and maintenance. Surgery may be necessary for complications such as blockages. Despite ongoing treatment, Crohn's disease is a chronic condition with no cure, often leading to a higher risk of related health issues and reduced life expectancy. [1]

The disease is most prevalent in North America and Western Europe, particularly among Ashkenazi Jews, with prevalence rates of 322 per 100,000 in Germany, 319 in Canada, [1] and 300 in the United States. [5] There is also a rising prevalence in newly industrialized countries, such as 18.6 per 100,000 in Hong Kong and 3.9 in Taiwan. The typical age of onset is between 20 and 30 years, with an increasing number of cases among children. [1]

Signs and symptoms

The three most common sites of intestinal involvement in Crohn's disease are ileal, ileocolic and colonic. Patterns of CD.jpg
The three most common sites of intestinal involvement in Crohn's disease are ileal, ileocolic and colonic.

Crohn's disease is characterized by recurring flares of intestinal inflammation, with diarrhea and abdominal pain as the primary symptoms. Symptoms may be non-specific and progress gradually, and many people have symptoms for years before diagnosis. Unlike ulcerative colitis, inflammation can occur anywhere in the gastrointestinal tract, most often in the ileum and colon, and can involve all layers of the intestine. Disease location tends to be stable, with a third of patients having colonic disease, a third having ileocolic disease, and a third having ileal disease. The disease may also involve perianal, upper gastrointestinal, and extraintestinal organs. [1]

Gastrointestinal

Systemic

Crohn's disease often presents with systemic symptoms, including:

Extraintestinal

Extraintestinal manifestations occur in 21–47% of cases, and include symptoms such as: [1]

Complications

Image of colon cancer identified in the sigmoid colon of a person with Crohn's disease during a colonoscopy. Colorectal cancer endo 2.jpg
Image of colon cancer identified in the sigmoid colon of a person with Crohn's disease during a colonoscopy.

Bowel damage due to inflammation occurs in half of cases within 10 years of diagnosis, and can lead to stricturing or penetrating disease forms. This can cause complications such as:

Malnutrition occurs in 38.9% of people in remission and 82.8% of people with active disease due to malabsorption in the small intestine, reduced appetite, and drug interactions. [17] This can cause complications such as:

Intestinal cancers may develop as a result of prolonged or severe inflammation. [19] This includes:

Causes

Risk factors

Smoking is a major modifiable risk factor for Crohn's disease, particularly in Western countries, where it doubles the risk. This risk is higher in females and varies with age. Smoking is also linked to earlier disease onset, increased need for immunosuppression, more surgeries, and higher recurrence rates. Ethnic differences have been noted, with studies in Japan linking passive smoking to the disease. [1] Proposed mechanisms for smoking's effects include impaired autophagy, direct toxicity to immune cells, and changes in the microbiome. [3]

Diet may influence the development of Crohn's disease by affecting the gut microbiome. The shift from high-fiber, low-fat foods to processed foods reduces microbiota diversity, increasing the risk of Crohn's disease. [1] Conversely, high-fiber diets may reduce risk by up to 40%, likely due to the production of anti-inflammatory short-chain fatty acids from fiber metabolism by gut bacteria. [3] The Mediterranean diet is also linked to a lower risk of later-onset Crohn's disease. Since diet's effect on the microbiome is temporary, its role in gut dysbiosis is controversial. [1]

Childhood antibiotic exposure is linked to a higher risk of Crohn's disease due to changes in the intestinal microbiome, which shapes the immune system in early life. Other medications, like oral contraceptives, aspirin, and NSAIDs, may also increase risk by up to two-fold. Conversely, breastfeeding and statin use may reduce risk, though breastfeeding's effects are inconsistent. Early life factors such as mode of delivery, pet exposure, and infections—related to the hygiene hypothesis—also significantly influence risk, likely due to influences on the microbiome. [3]

Genetics

Genetics significantly influences the risk of Crohn's disease. First-degree relatives of affected individuals have a five-fold increased risk, while identical twins have a 38–50% risk if one twin is affected. Genome-wide association studies have identified around 200 loci linked to Crohn's, most found in non-coding regions that regulate gene expression and overlap with other immune-related conditions, such as ankylosing spondylitis and psoriasis. [3] While genetics can predict disease location, it does not determine complications like stricturing. A substantial portion of inherited risk is attributed to a few key polymorphisms. [1]

Mechanism

The intestinal barrier and immune system in health and during Crohn's disease. In health, immune cells secrete TGFb and retinoic acid to promote the differentiation of Tregs, which regulate the inflammatory behavior of effector T cells. During Crohn's disease, microbiome alterations, intestinal barrier permeability, and deficient innate immunity enable pathogens to enter the gut tissue. This causes antigen-presenting cells to upregulate IL-12, IL-18, and IL-23, increasing the differentiation of Th1 and Th17 cells. These cells secrete inflammatory cytokines such as IL-17, IFNg, and TNF to perpetuate inflammation. Crohn's Disease Mechanism.png
The intestinal barrier and immune system in health and during Crohn's disease. In health, immune cells secrete TGFβ and retinoic acid to promote the differentiation of Tregs, which regulate the inflammatory behavior of effector T cells. During Crohn's disease, microbiome alterations, intestinal barrier permeability, and deficient innate immunity enable pathogens to enter the gut tissue. This causes antigen-presenting cells to upregulate IL-12, IL-18, and IL-23, increasing the differentiation of Th1 and Th17 cells. These cells secrete inflammatory cytokines such as IL-17, IFNγ, and TNF to perpetuate inflammation.

Crohn's disease is believed to be caused by a dysregulated immune response to gut bacteria, though the exact mechanism is unknown. This is evidenced by the disease's links to genes involved in bacteria defense and its occurrence in the ileum and colon, the most bacteria-dense segments of the intestine. [23] In Crohn's disease, a permeable intestinal barrier and a deficient innate immune response enable bacteria to enter intestinal tissue, causing an excessive inflammatory response from T helper 1 (Th1) and T helper 17 (Th17) cells. An altered microbiome may also be causatory and serve as the link to environmental factors. [3]

Intestinal barrier

The epithelial barrier is a single layer of epithelial cells covered in antimicrobial mucus that protects the intestine from gut bacteria. [23] Epithelial cells are joined by tight junction proteins, which are reduced by Crohn's-linked polymorphisms. In particular, claudin-5 and claudin-8 are reduced, while pore-forming claudin-2 is increased, causing intestinal permeability. Epithelial cells under stress emit inflammatory signals such as the unfolded protein response to stimulate the immune system, and Crohn's-linked polymorphisms to the ATG16L1 gene lower the threshold at which this response is triggered. [1]

In a functional state, the intestinal epithelium and IgA dimers work together to manage and keep the luminal microflora distinct from the mucosal immune system [24] . Paneth cells exist in the epithelial barrier of the small intestine and secrete α-defensins to prevent bacteria from entering gut tissue. [23] Genetic polymorphisms associated with Crohn's disease can impair this ability and lead to Crohn's disease in the ileum. NOD2 is a receptor produced by Paneth cells to sense bacteria, and mutations to NOD2 can inhibit the antimicrobial activity of Paneth cells. ATG16L1, IRGM, and LRRK2 are proteins involved in selective autophagy, the mechanism by which Paneth cells secrete α-defensins, and mutations to these genes also impair the antimicrobial activity of Paneth cells. [1]

Intraepithelial lymphocytes (IELs) are immune cells that exist in the epithelial barrier, consisting mostly of activated T cells. They interact with gut bacteria directly and emit signals to regulate the intestinal immune system. IELs in Crohn's disease produce increased levels of inflammatory cytokines IL-17, IFNγ, and TNF. [1] It is hypothesized that inflammatory signals from the immune system and alterations to the gut microbiome influence IELs to produce inflammatory signals, contributing to Crohn's disease. [25]

Immune system

Normally, intestinal macrophages have reduced inflammatory behavior while retaining their ability to consume and destroy pathogens. In Crohn's disease, the number and activity of macrophages is reduced, enabling the entrance of pathogens into intestinal tissue. [3] Macrophages degrade internal pathogens through autophagy, which is impaired by Crohn's-linked polymorphisms in genes such as NOD2 and ATG16L1. [1] Additionally, people with Crohn's tend to have a separate abnormal population of macrophages that secrete proinflammatory cytokines such as TNF and IL-6. [3]

Neutrophils are recruited from the bloodstream in response to inflammatory signals, and defend tissue by secreting antimicrobial substances and consuming pathogens. [23] In Crohn's disease, neutrophil recruitment is delayed and autophagy is impaired, allowing bacteria to survive in intestinal tissue. [3] Dysfunction in neutrophil secretion of reactive oxygen species, which are toxic to bacteria, is associated with very early onset Crohn's disease. Although neutrophils are important in bacterial defense, their subsequent accumulation in Crohn's disease damages the epithelial barrier and perpetuates inflammation. [1]

Innate lymphoid cells (ILCs) consist of subtypes including ILC1s, ILC2s, and ILC3s. ILC3s are particularly important for regenerating the epithelial barrier through secretion of IL-17 by NCR- ILC3s and IL-22 by NCR+ ILC3s. During Crohn's disease, inflammatory signals from antigen-presenting cells, such as IL-23, cause excessive IL-17 and IL-22 secretion. Although these cytokines protect the intestinal barrier, excessive production damages the barrier through increased inflammation and neutrophil recruitment. Additionally, IL-12 from activated dendritic cells influence NCR+ ILC3s to transform into inflammatory IFNγ-producing ILC1s. [26]

Naive T cells are activated primarily by dendritic cells, which then differentiate into anti-inflammatory T regulatory cells (Tregs) or inflammatory T helper cells to maintain balance. In Crohn's disease, macrophages and antigen-presenting cells secrete IL-12, IL-18, and IL-23 in response to pathogens, increasing Th1 and T17 differentiation and promoting inflammation via IL-17, IFNγ and TNF. IL-23 is particularly important, and IL-23 receptor polymorphisms that increase activity are linked with Crohn's disease. Tregs suppress inflammation via IL-10, and mutations to IL-10 and its receptor cause very early onset Crohn's disease. [1]

Microbiome

People with Crohn's disease tend to have altered microbiomes, although no disease-specific microorganisms have been identified. An altered microbiome may link environmental factors with Crohn's, though causality is uncertain. Firmicutes tend to be reduced, particularly Faecalibacterium prausnitzii, which produces short-chain fatty acids that reduce inflammation. Bacteroidetes and proteobacteria tend to be increased, particularly adherent-invasive E. coli, which attaches to intestinal epithelial cells. Additionally, mucolytic and sulfate-reducing bacteria are elevated, contributing to damage to the intestinal barrier. [3]

Alterations in gut viral and fungal communities may contribute to Crohn's disease. Caudovirales bacteriophage sequences found in children with Crohn's suggest a potential biomarker for early-onset disease. A meta-analysis showed lower viral diversity in Crohn's patients compared to healthy individuals, with increased Synechococcus phage S CBS1 and Retroviridae viruses. Additionally, a Japanese study found that the fungal microbiota in Crohn's patients differs significantly from that of healthy individuals, particularly with an abundance of Candida. [1]

Diagnosis

Diagnosis of Crohn's disease may be challenging since its symptoms overlap with other gastrointestinal diseases. An accurate diagnosis requires a combined assessment of clinical history, physical examination, and diagnostic tests.

Endoscopy

Image of a colon showing deep ulceration due to Crohn's disease. CD colitis.jpg
Image of a colon showing deep ulceration due to Crohn's disease.
Image of a serpiginous ulcer in the colon, a classic finding in Crohn's disease CD serpiginous ulcer.jpg
Image of a serpiginous ulcer in the colon, a classic finding in Crohn's disease

Ileocolonoscopy is the primary procedure for diagnosing Crohn's disease in the ileum and colon, accurately identifying it in about 90% of cases. [27] During this exam, doctors closely examine the intestinal lining and take small tissue samples for further testing. Signs of Crohn's disease include uneven inflammation and 'skip lesions', which are patches of inflammation separated by healthy tissue. The ulcers can be small (less than 5 mm) or larger (over 5 mm), often appearing cobblestone-like. Their depth helps determine disease severity. Unlike ulcerative colitis, Crohn's disease usually does not affect the rectum or cause continuous inflammation around the bowel. [1]

In certain cases, such as disease in the upper small bowel, standard colonoscopy may be ineffective. Physicians may then opt for device-assisted enteroscopy or capsule endoscopy. While capsule endoscopy is effective in detecting abnormalities, it may not reliably diagnose Crohn's disease and carries a risk of retention, which is about 1.6% when Crohn's disease is suspected and increases to 13% if already diagnosed. To reduce this risk, physicians typically perform small-bowel imaging and use a patency capsule that disintegrates within 48 to 72 hours. Once the patency capsule has passed through the intestine, capsule endoscopy may be performed. [2]

Device-assisted enteroscopy is not typically the first choice for diagnosing small-bowel Crohn's disease due to its invasiveness and higher costs. [1] The procedure closely examines the small intestine using specialized tools, such as longer endoscopes or balloon-assisted devices, making it easier for doctors to visualize and treat issues. [28] It often requires sedation and is generally reserved for patients needing a tissue sample or immediate treatment. [1]

Cross-sectional Imaging

CT scan showing Crohn's disease in the stomach CT scan gastric CD.jpg
CT scan showing Crohn's disease in the stomach

Cross-sectional imaging techniques, like bowel ultrasonography (BUS), CT enterography (CTE), and MRI enterography (MRE), are essential for understanding how extensive Crohn's disease is and whether there are any complications, like blockages or abnormal connections between organs. All three methods are quite accurate for diagnosing Crohn's disease and spotting these complications. [1]

Histology

Tissue stain of a granuloma in the colonic mucosa due to Crohn's disease, consisting of an aggregate of histiocytes in the center of the image. Histopathology of granuloma of colonic mucosa.jpg
Tissue stain of a granuloma in the colonic mucosa due to Crohn's disease, consisting of an aggregate of histiocytes in the center of the image.
Tissue stain of colon showing deep inflammation across all layers. Crohn's transmural path.jpg
Tissue stain of colon showing deep inflammation across all layers.

The most reliable way to confirm a diagnosis of Crohn's disease is through a histological examination of biopsy samples or tissue removed during surgery. This process helps distinguish Crohn's disease from ulcerative colitis and other types of colitis, particularly infections. While no features are unique to Crohn's disease, typical signs include patchy chronic inflammation, irregularities in the intestinal lining, granulomas (not related to tissue injury), and abnormal villi structure in the terminal ileum. A pathologist specializing in inflammatory bowel disease is important for accurate Crohn's disease diagnoses. Even if biopsy results are unclear, doctors can still suggest a Crohn's disease diagnosis based on clinical symptoms, endoscopic findings, and imaging results. [1]

Disease activity indexes

The Crohn's Disease Activity Index (CDAI) is a scoring system to assess the symptoms associated with Crohn's disease. It assigns a score based on eight clinical factors, including overall well-being, frequency of loose stools, abdominal pain, presence of abdominal masses, changes in weight, low hemoglobin levels, and use of opiates for diarrhea. The CDAI is primarily used in clinical trials to evaluate the effectiveness of treatments and to determine whether the disease is in remission. This is particularly significant, as approximately 50% of patients who report feeling well may still exhibit signs of active disease in the intestine, while some patients with symptoms may present with normal intestinal findings. [1]

The Harvey–Bradshaw Index (HBI) provides a more streamlined approach by assessing only clinical factors, thus eliminating the need for laboratory tests. Neither the CDAI nor the HBI incorporates diagnostic procedures such as endoscopies or imaging studies; instead, they focus exclusively on symptom tracking. The HBI is generally considered easier to apply than the CDAI and may be more suitable for certain clinical trials and routine practice due to its simplicity in calculation and reduced reliance on patient recall of symptoms. [1]

The Crohn's Disease Endoscopic Index of Severity (CDEIS) is a scoring system used during endoscopy to evaluate Crohn's disease severity. It assesses six factors: deep and shallow ulcers, nonulcerated and ulcerated stenosis, the area covered by ulcers, and the overall disease-affected area across five intestinal sections. Scores range from 0 to 44, with higher scores indicating more severe disease. While often seen as the standard for measuring severity, CDEIS can be complex to calculate and may underestimate severity if only one segment, particularly the ileum, is affected. There are also no clear score cutoffs for specific outcomes or treatment responses, limiting its effectiveness in determining remission. [29]

The Simple Endoscopic Score for Crohn's Disease (SES-CD) offers a more straightforward approach than the CDEIS scoring system, using four key factors to evaluate Crohn's disease during an endoscopy. These factors include the presence and size of ulcers, the area affected by ulcers, the overall extent of the disease, and any narrowing of the intestine (stenosis). The first three factors are scored from 0 to 3 in each of the five sections of the intestine, with a maximum score of 15 for each section. Stenosis is scored separately, ranging from 0 to 11. This results in a total SES-CD score that can range from 0 to 56, with higher scores indicating more severe disease. [29]

Laboratory testing

While no lab test can definitively confirm or rule out Crohn's disease, results from serum and stool tests can help support the diagnosis: [2]

Differential diagnosis

Crohn's disease has similar endoscopic, radiographic and histological features with other inflammatory or infectious diseases. 10% of people with Crohn's disease are initially diagnosed with indeterminate colitis. [1]

Classification

The Montreal classification system is a widely used framework for categorizing the phenotypes of Crohn's disease. It considers three primary factors: the age at diagnosis (divided into three groups: less than 16 years, 17 to 40 years, and over 40 years), the location of the disease (which can be ileal, colonic, ileocolonic, or isolated upper), and the behavior of the disease (including non-stricturing/non-penetrating, stricturing, penetrating, and perianal types). [30]

Management

The management of Crohn's disease is customized based on the severity, location, and behavior of the disease. Providers also assess the risk of aggressive disease to determine the need for more intensive treatment. Risk factors include diagnosis before age 30, extensive disease involvement, perianal complications, deep ulcers, and history of surgery. A key goal of treatment is to achieve mucosal healing, which restores the intestinal lining. Mucosal healing is linked to better outcomes, such as fewer flare-ups, reduced hospitalizations, steroid-free remission, and a longer interval without surgery. [1]

Corticosteroids

Steroids are often used to quickly induce remission and relieve symptoms in Crohn's disease, but they are ineffective for maintaining remission. Options include intravenous steroids, prednisone, and budesonide, with budesonide preferred for its safety, though it's limited to mild to moderate cases in the ileum and right colon. Patients on systemic steroids should switch to other medications for long-term remission, as prolonged use can cause adrenal issues, weight gain, cataracts, hypertension, and diabetes. Additionally, systemic steroids may increase the risk of serious infections and mortality in moderate to severe Crohn's disease. [29]

Conventional immunosuppressants

Thiopurines, like azathioprine and 6-mercaptopurine, maintain remission in Crohn's disease but do not induce it initially. Since thiopurines take 6 to 12 weeks to work, steroids are often used to manage symptoms during this time. Before starting thiopurines, liver metabolism is assessed and Epstein-Barr virus is tested in patients under 25. Around 15% to 20% of patients stop thiopurines due to side effects, including low blood cell counts, liver problems, nausea, vomiting, allergic reactions, and acute pancreatitis. Thiopurines also raise the risk of certain cancers and serious conditions, necessitating regular lab monitoring. [29]

Methotrexate is used to induce and maintain remission in Crohn's disease, being slightly more effective than thiopurines and taking 8 to 16 weeks to work. About 17% of patients stop taking it due to side effects like nausea, vomiting, headaches, and fatigue. It can affect liver health and, rarely, lower blood cell counts, requiring regular blood tests. Methotrexate may also cause anemia and mouth sores, so daily folic acid is recommended. Additionally, it may increase the risk of certain skin cancers and lymphoma. Methotrexate is discontinued during pregnancy due to the risks of miscarriage and birth defects. [29]

Biologics

Anti-TNF therapy is the most effective treatment for inducing and maintaining remission, with FDA-approved agents including infliximab, adalimumab, and certolizumab pegol. [29] It blocks the inflammatory protein TNF and induces cell death in activated T cells. [31] Responses may occur within a week, but full effects can take up to six weeks. Loss of response can happen due to the development of antidrug antibodies, necessitating a switch in agents or drug classes. Anti-TNF agents are often combined with thiopurines or methotrexate to minimize antibody development. Side effects include injection-site reactions, a higher risk of infection, a slight increase in melanoma risk, and rare cases of cytopenias and liver toxicity. [29]

Vedolizumab is the first treatment designed specifically for the gut in moderate to severe Crohn's disease. It blocks the molecule α4β7 that helps white blood cells enter the gut, reducing inflammation. Unlike natalizumab, it does not carry a risk of the serious brain infection PML. While vedolizumab can induce remission, it works slowly, taking about 12 weeks to show effects, and its overall effectiveness is limited. However, patients who respond well can maintain remission for up to a year. Since it specifically targets the gut, it does not significantly increase the risk of serious side effects or infections, except for mild nasal infections. [29]

Ustekinumab, approved for moderate to severe Crohn's disease in October 2016, has been FDA-approved for psoriasis since 2009. [32] It appears to be comparable to anti-TNF therapy in both the induction and maintenance of remission, functioning by blocking the inflammatory molecules IL-12 and IL-23. The onset of action is similar to that of anti-TNF treatments, with responses typically observed within six weeks. Notably, Ustekinumab does not seem to increase the risk of serious infections, although the studies conducted in Crohn's disease have been relatively short-term. [29]

Small molecules

The JAK inhibitor such as upadacitinib is approved for treatment of moderate to severe Crohn's disease, with a large multi-centre randomized control trial demonstrating its effectiveness in induction and maintenance of disease. [32] [33]

Surgery

Resected ileum from a person with Crohn's disease ResectedIleum.jpg
Resected ileum from a person with Crohn's disease

Many individuals with Crohn's disease may require a bowel resection to remove part of the intestine due to blockages, lesions, infections, or ineffective medications. Since surgery is not a cure, the goal is to preserve as much of the small bowel as possible, [29] and extensive resections can lead to short bowel syndrome. [34] In cases with widespread strictures, only the most prominent stricture is typically resected, while minor strictures may be dilated through strictureplasty. After a resection, the healthy ends of the intestine are rejoined in a primary anastomosis. [29]

Approximately six to twelve months after surgery, patients usually undergo a colonoscopy to check for inflammation, using the Rutgeerts scoring system to assess the likelihood of recurrence. About 50% may experience a return of symptoms within five years, and nearly 40% may need a second surgery within ten years, [29] often due to inflammation near the anastomosis. [35] While drug therapy aims to prevent recurrences, its effectiveness remains uncertain. [29]

Diet

Other treatments

Outlook

Crohn's disease is a chronic condition requiring ongoing management, as there is currently no cure. Inflammation is typically controlled through medications such as steroids and immunosuppressants, and in severe cases, surgery may be necessary. The clinical course of the disease is classified into four patterns: [43]

Approximately 40% to 56% of individuals with Crohn's disease achieve clinical remission after one year of infliximab treatment, increasing to 56% to 58% when combined with an immunosuppressant. Furthermore, 16% to 39% attain both clinical and endoscopic remission, showing no signs of inflammation in the intestine. Once in remission, individuals have an 80% chance of maintaining this state for the following year. Conversely, 10% to 15% of individuals may experience ongoing active disease without remission. [43]

Chronic inflammation from Crohn's disease increases the risk of heart problems, cancers, arthritis, osteoporosis (weakened bones), and mental health issues. Some medications can also raise the chances of infections and cancers. Because of these combined risks, people with Crohn's disease tend to have a shorter lifespan compared to those who are healthy. In Canada, studies show that women affected with Crohn's disease live about 7.7 years less than unaffected women, and affected men live about 7.7 years less than otherwise expected. [4]

Epidemiology

Crohn's disease is most prevalent in North America and Western Europe, particularly among Ashkenazi jews and possibly more common in women. [29] The annual incidence in North America is 0–20.2 new cases per 100,000 people, while incidence in Europe is 0.3–12.7 per 100,000. The prevalence of Crohn's disease is 322 per 100,000 in Germany, 319 per 100,000 in Canada, [1] and 300 per 100,000 in the United States. [5] The prevalence of Crohn's disease has risen in newly industrialized countries, with rates of 18.6 per 100,000 in Hong Kong and 3.9 per 100,000 in Taiwan. [1]

The typical age of onset is between 20 and 30 years, with a smaller peak around 50 years, leading to a median onset age of 30. [29] About 20 to 25% of patients presenting with inflammatory bowel disease are children under 18 years old, while 80% are adolescents. Additionally, the incidence of Crohn's disease in children is on the rise, with 2.5–11.4 new cases per 100,000 and a prevalence of 58 per 100,000. [44]

History

Giovanni Battista Morgagni, often referred to as the father of anatomic pathology, provided one of the earliest detailed accounts of the disease in his 1761 treatise, noting specific autopsy findings in a young patient who suffered from severe gastrointestinal symptoms. [45]

The first notable series of cases of Crohn's disease was reported by Polish surgeon Antoni Leśniowski in 1903, [46] followed by Scottish surgeon Thomas Kennedy Dalziel in 1913, who described nine patients exhibiting significant pathological features treated by surgical resection. However, the disease only gained widespread recognition with a landmark 1932 article by Burrill B. Crohn, Leon Ginzburg, and Gordon D. Oppenheimer. In this publication, they introduced the term "regional ileitis" based on their observations of chronic inflammation in the terminal ileum of 14 patients. [45]

Over the following decades, Crohn's disease was recognized as affecting various parts of the gastrointestinal tract, with reports of involvement from the esophagus to the colon. This period also marked the identification of skip lesions—areas of healthy bowel between diseased sections—adding to the understanding of the disease's pathology. Public awareness of Crohn's disease increased significantly after President Eisenhower underwent surgery for the condition in 1956, which highlighted its impact on quality of life and encouraged discussions about the disease. [45]

In 1960, ulcerative colitis and Crohn's colitis were officially classified as distinct diseases, despite lingering beliefs that Crohn's disease could not manifest in the colon. During this decade, advancements such as fiberoptic colonoscopy and the capability to perform biopsies significantly enhanced the diagnosis and management of Crohn's disease, facilitating improved visualization of the gastrointestinal tract and more accurate assessments of disease severity. Subsequent decades saw the testing of various medications for Crohn's disease in clinical trials, including the identification of methotrexate's efficacy in 1989. [45]

In the 1990s, the focus of treatment for Crohn's disease began to shift towards biologic therapies, particularly anti-TNF agents. Concurrently, nutritional therapy gained prominence in managing pediatric cases and instances of malnutrition. The introduction of MRI enterography emerged as a safe and effective method for monitoring disease activity. This was further augmented by the FDA's approval of capsule endoscopy in 2001, which allowed for improved imaging of the small intestine. Since the inception of genome-wide association studies in 2005, several genetic markers associated with Crohn's disease have been identified, contributing to a deeper understanding of the condition. [45]

Support organizations such as the Crohn's & Colitis Foundation have also emerged, providing resources and community for patients, helping to raise awareness and funding for research initiatives. [45] Today, Crohn's disease continues to be a focus of extensive research, aiming to improve treatment outcomes and enhance the quality of life for those affected. [45]

Etymology

Crohn's disease is named after Dr. Burrill Crohn, though its eponymous association arose from complex circumstances. Initially, researchers Ginzburg and Oppenheimer identified a pattern of the disease and compiled 12 cases, all linked to surgeon A. A. Berg. However, Berg declined authorship due to his lack of prior involvement. Ginzburg and Oppenheimer then connected with Crohn, who received the manuscript, which was later published with his name listed first and two additional cases included. [45]

Originally, the disease was referred to as "regional ileitis," reflecting the findings of the time, but subsequent reports revealed its presence throughout the gastrointestinal tract, leading to the adoption of the eponym. [45] In Poland, it was historically called “Lesniowski-Crohn's disease.” [46] There has been growing criticism of medical eponyms for their inaccuracies, prompting a movement towards using non-possessive forms, such as "Crohn disease," which has gained traction in recent years among academic and medical publications. [45]

Related Research Articles

<span class="mw-page-title-main">Ulcerative colitis</span> Inflammatory bowel disease that causes ulcers in the colon

Ulcerative colitis (UC) is one of the two types of inflammatory bowel disease (IBD), with the other type being Crohn's disease. It is a long-term condition that results in inflammation and ulcers of the colon and rectum. The primary symptoms of active disease are abdominal pain and diarrhea mixed with blood (hematochezia). Weight loss, fever, and anemia may also occur. Often, symptoms come on slowly and can range from mild to severe. Symptoms typically occur intermittently with periods of no symptoms between flares. Complications may include abnormal dilation of the colon (megacolon), inflammation of the eye, joints, or liver, and colon cancer.

<span class="mw-page-title-main">Irritable bowel syndrome</span> Functional gastrointestinal disorder

Irritable bowel syndrome (IBS) is a functional gastrointestinal disorder characterized by a group of symptoms that commonly include abdominal pain, abdominal bloating and changes in the consistency of bowel movements. These symptoms may occur over a long time, sometimes for years. IBS can negatively affect quality of life and may result in missed school or work or reduced productivity at work. Disorders such as anxiety, major depression, and chronic fatigue syndrome are common among people with IBS.

<span class="mw-page-title-main">Enteritis</span> Inflammation of the small intestine

Enteritis is inflammation of the small intestine. It is most commonly caused by food or drink contaminated with pathogenic microbes, such as Serratia, but may have other causes such as NSAIDs, radiation therapy as well as autoimmune conditions like coeliac disease. Symptoms include abdominal pain, cramping, diarrhoea, dehydration, and fever. Related diseases of the gastrointestinal system involve inflammation of the stomach and large intestine.

<span class="mw-page-title-main">Inflammatory bowel disease</span> Medical condition

Inflammatory bowel disease (IBD) is a group of inflammatory conditions of the colon and small intestine, with Crohn's disease and ulcerative colitis (UC) being the principal types. Crohn's disease affects the small intestine and large intestine, as well as the mouth, esophagus, stomach and the anus, whereas UC primarily affects the colon and the rectum.

<span class="mw-page-title-main">Colitis</span> Inflammation of the colon (large intestine)

Colitis is swelling or inflammation of the large intestine (colon). Colitis may be acute and self-limited or long-term. It broadly fits into the category of digestive diseases.

<span class="mw-page-title-main">Small intestinal bacterial overgrowth</span> Medical condition

Small intestinal bacterial overgrowth (SIBO), also termed bacterial overgrowth, or small bowel bacterial overgrowth syndrome (SBBOS), is a disorder of excessive bacterial growth in the small intestine. Unlike the colon, which is rich with bacteria, the small bowel usually has fewer than 100,000 organisms per millilitre. Patients with bacterial overgrowth typically develop symptoms which may include nausea, bloating, vomiting, diarrhea, malnutrition, weight loss, and malabsorption by various mechanisms.

In medicine, the ileal pouch–anal anastomosis (IPAA), also known as restorative proctocolectomy (RPC), ileal-anal reservoir (IAR), an ileo-anal pouch, ileal-anal pullthrough, or sometimes referred to as a J-pouch, S-pouch, W-pouch, or a pelvic pouch, is an anastomosis of a reservoir pouch made from ileum to the anus, bypassing the former site of the colon in cases where the colon and rectum have been removed. The pouch retains and restores functionality of the anus, with stools passed under voluntary control of the person, preventing fecal incontinence and serving as an alternative to a total proctocolectomy with ileostomy.

<span class="mw-page-title-main">Megacolon</span> Abnormal dilation of the large intestine

Megacolon is an abnormal dilation of the colon. This leads to hypertrophy of the colon. The dilation is often accompanied by a paralysis of the peristaltic movements of the bowel. In more extreme cases, the feces consolidate into hard masses inside the colon, called fecalomas, which can require surgery to be removed.

<span class="mw-page-title-main">Blood in stool</span> Medical condition of blood in the feces

Blood in stool looks different depending on how early it enters the digestive tract—and thus how much digestive action it has been exposed to—and how much there is. The term can refer either to melena, with a black appearance, typically originating from upper gastrointestinal bleeding; or to hematochezia, with a red color, typically originating from lower gastrointestinal bleeding. Evaluation of the blood found in stool depends on its characteristics, in terms of color, quantity and other features, which can point to its source, however, more serious conditions can present with a mixed picture, or with the form of bleeding that is found in another section of the tract. The term "blood in stool" is usually only used to describe visible blood, and not fecal occult blood, which is found only after physical examination and chemical laboratory testing.

Pouchitis is an umbrella term for inflammation of the ileal pouch, an artificial rectum surgically created out of ileum in patients who have undergone a proctocolectomy or total colectomy. The ileal pouch-anal anastomosis is created in the management of patients with ulcerative colitis, indeterminate colitis, familial adenomatous polyposis, cancer, or rarely, other colitides.

<span class="mw-page-title-main">Ischemic colitis</span> Inflammation of the large intestine due to insufficient blood supply

Ischemic colitis is a medical condition in which inflammation and injury of the large intestine result from inadequate blood supply (ischemia). Although uncommon in the general population, ischemic colitis occurs with greater frequency in the elderly, and is the most common form of bowel ischemia. Causes of the reduced blood flow can include changes in the systemic circulation or local factors such as constriction of blood vessels or a blood clot. In most cases, no specific cause can be identified.

Management of Crohn's disease involves first treating the acute symptoms of the disease, then maintaining remission. Since Crohn's disease is an immune system condition, it cannot be cured by medication or surgery. Treatment initially involves the use of medications to eliminate infections and reduce inflammation. Surgery may be required for complications such as obstructions, fistulae, abscesses, or if the disease does not respond to drugs within a reasonable time. However, surgery cannot cure Crohn's disease. It involves removing the diseased part of the intestine and rejoining the healthy ends, but the disease tends to recur after surgery.

Management of ulcerative colitis involves first treating the acute symptoms of the disease, then maintaining remission. Ulcerative colitis is a form of colitis, a disease of the intestine, specifically the large intestine or colon, that includes characteristic ulcers, or open sores, in the colon. The main symptom of active disease is usually diarrhea mixed with blood, of gradual onset which often leads to anaemia. Ulcerative colitis is, however, a systemic disease that affects many parts of the body outside the intestine.

Dysbiosis is characterized by a disruption to the microbiome resulting in an imbalance in the microbiota, changes in their functional composition and metabolic activities, or a shift in their local distribution. For example, a part of the human microbiota such as the skin flora, gut flora, or vaginal flora, can become deranged (unbalanced), when normally dominating species become underrepresented and species that normally are outcompeted or contained increase to fill the void. Similar to the human gut microbiome, diverse microbes colonize the plant rhizosphere, and dysbiosis in the rhizosphere, can negatively impact plant health. Dysbiosis is most commonly reported as a condition in the gastrointestinal tract or plant rhizosphere.

<span class="mw-page-title-main">Biological therapy for inflammatory bowel disease</span>

Biological therapy, the use of medications called biopharmaceuticals or biologics that are tailored to specifically target an immune or genetic mediator of disease, plays a major role in the treatment of inflammatory bowel disease. Even for diseases of unknown cause, molecules that are involved in the disease process have been identified, and can be targeted for biological therapy. Many of these molecules, which are mainly cytokines, are directly involved in the immune system. Biological therapy has found a niche in the management of cancer, autoimmune diseases, and diseases of unknown cause that result in symptoms due to immune related mechanisms.

<span class="mw-page-title-main">Pancolitis</span> Medical condition

Pancolitis or universal colitis, in its most general sense, refers to inflammation of the entire large intestine comprising the cecum, ascending, transverse, descending, sigmoid colon and rectum. It can be caused by a variety of things such as inflammatory bowel disease, more specifically a severe form of ulcerative colitis. A diagnosis can be made using a number of techniques but the most accurate method is direct visualization via a colonoscopy. Symptoms are similar to those of ulcerative colitis but more severe and affect the entire large intestine. Patients generally exhibit symptoms including rectal bleeding as a result of ulcers, pain in the abdominal region, inflammation in varying degrees, and diarrhea, fatigue, fever, and night sweats. Due to the loss of function in the large intestine patients may lose large amounts of weight from being unable to procure nutrients from food. In other cases the blood loss from ulcers can result in anemia which can be treated with iron supplements. Additionally, due to the chronic nature of most cases of pancolitis, patients have a higher chance of developing colorectal cancer.

<span class="mw-page-title-main">Enteropathic arthropathy</span> Medical condition

Enteropathic arthropathy commonly referred to as enteropathic arthritis, is a type of arthritis linked to Crohn's disease, ulcerative colitis, and chronic inflammatory bowel diseases.

Leukocyte apheresis is a medical device therapy for the treatment of inflammation of the colon. It works by removing from the blood a group of white blood cells called activated leukocytes that play a key role in the inflammatory stages of ulcerative colitis (UC). Selectively reducing these cells in the blood helps to reduce inflammation in the colon. Leukocyte apheresis can help UC patients with chronic, grumbling disease who are either unsuitable for, intolerant of, or failing on medicines described above.

<span class="mw-page-title-main">Colonic ulcer</span> Medical condition

Colonic ulcer can occur at any age, in children however they are rare. Most common symptoms are abdominal pain and hematochezia.

Checkpoint inhibitor induced colitis is an inflammatory condition affecting the colon (colitis), which is caused by cancer immunotherapy. Symptoms typically consist of diarrhea, abdominal pain and rectal bleeding. Less commonly, nausea and vomiting may occur, which may suggest the present of gastroenteritis. The severity of diarrhea and colitis are graded based on the frequency of bowel movements and symptoms of colitis, respectively.

References

  1. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 Roda G, Chien Ng S, Kotze PG, Argollo M, Panaccione R, Spinelli A, et al. (April 2020). "Crohn's Disease". Nature Reviews Disease Primers. 6 (1): 22. doi: 10.1038/s41572-020-0156-2 . PMID   32242028.
  2. 1 2 3 4 5 6 7 Feuerstein JD, Cheifetz AS (June 2017). "Crohn Disease: Epidemiology, Diagnosis, and Management". Mayo Clinic Proceedings. 92 (7): 1088–1103. doi: 10.1016/j.mayocp.2017.04.010 . PMID   28601423.
  3. 1 2 3 4 5 6 7 8 9 10 11 Ramos GP, Papadakis KA (January 2019). "Mechanisms of Disease: Inflammatory Bowel Diseases". Mayo Clinic Proceedings. 94 (1): 155–165. doi: 10.1016/j.mayocp.2018.09.013 . PMC   6386158 . PMID   30611442.
  4. 1 2 Kuenzig ME, Manuel DG, Donelle J, Benchimol EI (November 2020). "Life expectancy and health-adjusted life expectancy in people with inflammatory bowel disease Factors". Canadian Medical Association Journal. 192 (45): E1394–E1402. doi: 10.1503/cmaj.190976 . PMC   7669301 . PMID   33168761.
  5. 1 2 Weisman MH, Stens O, Kim SH, Hou JK, Miller FW, Dillon CF (March 2023). "Inflammatory Bowel Disease Prevalence: Surveillance data from the U.S. National Health and Nutrition Examination Survey". Preventive Medicine Reports. 9 (33): 102173. doi: 10.1016/j.pmedr.2023.102173 . PMC   10201824 . PMID   37223580.
  6. Wenzl HH (September 2012). "Diarrhea in chronic inflammatory bowel diseases". Gastroenterology Clinics of North America. 41 (3): 651–675. doi: 10.1016/j.gtc.2012.06.006 . PMID   22917170.
  7. Coates MD, Clarke K, Williams E, Jeganathan N, Yadav S, Giampetro D, et al. (September 2023). "Abdominal Pain in Inflammatory Bowel Disease: An Evidence-Based, Multidisciplinary Review". Crohns Colitis 360. 5 (4): otad055. doi: 10.1093/crocol/otad055 . PMC   10588456 . PMID   37867930.
  8. "What I need to know about Crohn's Disease". www.niddk.nih.gov. Archived from the original on November 21, 2015. Retrieved December 11, 2015.
  9. "Bleeding and Blood in the Stool". crohn's and colitis. Retrieved October 16, 2024.
  10. Barros LL, Farias AQ, Rezaie A (August 2019). "Gastrointestinal motility and absorptive disorders in patients with inflammatory bowel diseases: Prevalence, diagnosis and treatment". World Journal of Gastroenterology. 25 (31): 4414–4426. doi: 10.3748/wjg.v25.i31.4414 . PMC   6710178 . PMID   31496621.
  11. Pogacnik JS, Salgado G (September 2019). "Perianal Crohn's Disease". Clinics in Colon and Rectal Surgery. 32 (5): 377–385. doi: 10.1055/s-0039-1687834 . PMC   6731113 . PMID   31507348.
  12. Laube R, Liu K, Schifter M, Yang JL, Suen MK, Leong RW (February 2018). "Oral and upper gastrointestinal Crohn's disease". Journal of Gastroenterology and Hepatology. 33 (2): 355–364. doi:10.1111/jgh.13866. ISSN   0815-9319. PMID   28708248.
  13. Włodarczyk M, Makaro A, Prusisz M, Włodarczyk J, Nowocień M, Maryńczak K, et al. (August 2023). "The Role of Chronic Fatigue in Patients with Crohn's Disease". Life (Basel). 13 (8): 1692. Bibcode:2023Life...13.1692W. doi: 10.3390/life13081692 . PMC   10455565 . PMID   37629549.
  14. 1 2 Ranasinghe IR, Tian C, Hsu R (2024). "Crohn Disease". StatPearls Publishing. PMID   28613792 . Retrieved October 18, 2024.
  15. Antonelli E, Bassotti G, Tramontana M, Hansel K, Stingeni L, Ardizzone S, et al. (January 2021). "Dermatological Manifestations in Inflammatory Bowel Diseases". J Clin Med. 10 (2): 364. doi: 10.3390/jcm10020364 . PMC   7835974 . PMID   33477990.
  16. Bisgaard TH, Allin KH, Keefer L, Ananthakrishnan AN, Jess T (March 2023). "Depression and anxiety in inflammatory bowel disease: epidemiology, mechanisms and treatment". Nature Reviews Gastroenterology & Hepatology. 19 (11): 717–726. doi: 10.1038/s41575-022-00634-6 . PMID   35732730.
  17. 1 2 3 4 Jabłońska B, Mrowiec S (April 2023). "Nutritional Status and Its Detection in Patients with Inflammatory Bowel Diseases". Nutrients. 15 (8): 1991. doi: 10.3390/nu15081991 . PMC   10143611 . PMID   37111210.
  18. Gasparetto M, Guariso G (October 2014). "Crohn's disease and growth deficiency in children and adolescents". World Journal of Gastroenterology. 20 (37): 13219–13233. doi: 10.3748/wjg.v20.i37.13219 . PMC   4188880 . PMID   25309059.
  19. 1 2 Sato Y, Tsujinaka S, Miura T, Kitamura Y, Suzuki H, Shibata C (August 2023). "Inflammatory Bowel Disease and Colorectal Cancer: Epidemiology, Etiology, Surveillance, and Management". Cancers (Basel). 15 (16): 4154. doi: 10.3390/cancers15164154 . PMC   10452690 . PMID   37627182.
  20. Bhatt H, Mathis KL (March 2023). "Small Bowel Carcinoma in the Setting of Inflammatory Bowel Disease". Clinics in Colon and Rectal Surgery. 37 (1): 46–52. doi: 10.1055/s-0043-1762929 . PMC   10769580 . PMID   38188070.
  21. Kayali S, Fantasia S, Gaiani F, Cavallaro LG, de'Angelis GL, Laghi L (April 2024). "NOD2 and Crohn's Disease Clinical Practice: From Epidemiology to Diagnosis and Therapy, Rewired". Inflammatory Bowel Diseases. doi: 10.1093/ibd/izae075 . PMID   38582044.
  22. Plitas G, Rudensky AY (September 2016). "Regulatory T Cells: Differentiation and Function". Cancer Immunology Research. 4 (9): 721–725. doi: 10.1158/2326-6066.CIR-16-0193 . PMC   5026325 . PMID   27590281.
  23. 1 2 3 4 Mowat AM, Agace WW (October 2014). "Regional specialization within the intestinal immune system". Nature Reviews Immunology. 14 (10): 667–85. doi: 10.1038/nri3738 . PMID   25234148.
  24. Hu MD, Edelblum KL (August 2017). "Sentinels at the frontline: the role of intraepithelial lymphocytes in inflammatory bowel disease". Current Pharmacology Reports. 3 (6): 321–334. doi: 10.1007/s40495-017-0105-2 . PMC   5724577 . PMID   29242771.
  25. Zeng B, Shi S, Ashworth G, Dong C, Liu J, Xing F (April 2019). "ILC3 function as a double-edged sword in inflammatory bowel diseases". Cell Death & Disease. 10 (4): 315. doi: 10.1038/s41419-019-1540-2 . PMC   6453898 . PMID   30962426.
  26. Passos MA, Chaves FC, Chaves-Junior N (2018). "The Importance of Colonoscopy in Inflammatory Bowel Diseases". Arquivos Brasileiros de Cirurgia Digestiva. 31 (2): e1374. doi: 10.1590/0102-672020180001e1374 . PMC   6044200 . PMID   29972402.
  27. Schneider M, Höllerich J, Beyna T (July 2019). "Device-assisted enteroscopy: A review of available techniques and upcoming new technologies". World Journal of Gastroenterology. 25 (27): 3538–3545. doi: 10.3748/wjg.v25.i27.3538 . PMC   6658397 . PMID   31367155.
  28. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Koutroumpakis E, Katsanos KH (May 2016). "Implementation of the simple endoscopic activity score in crohn's disease". Saudi Journal of Gastroenterology. 22 (3): 183–191. doi: 10.4103/1319-3767.182455 . PMC   4898086 . PMID   31367155.
  29. Cockburn E, Kamal S, Chan A, Rao V, Liu T, Huang JY, et al. (November 2023). "Crohn's disease: an update". Clinical Medicine (London). 23 (6): 549–557. doi: 10.7861/clinmed.2023-0493 . PMC   11298500 . PMID   38065612.
  30. Levin AD, Wildenberg ME, van den Brink GR (August 2016). "Mechanism of Action of Anti-TNF Therapy in Inflammatory Bowel Disease". Journal of Crohn's and Colitis. 10 (8): 989–997. doi: 10.1093/ecco-jcc/jjw053 . PMC   5724577 . PMID   29242771.
  31. 1 2 Gordon H, Minozzi S, Kopylov U, Verstockt B, Chaparro M, Buskens C, et al. (October 2024). "ECCO Guidelines on Therapeutics in Crohn's Disease: Medical Treatment". J Crohns Colitis. 18 (10): 1531–1555. doi:10.1093/ecco-jcc/jjae091. PMID   38877997.
  32. Loftus EV, Panés J, Lacerda AP, Peyrin-Biroulet L, D'Haens G, Panaccione R, et al. (2023). "Upadacitinib Induction and Maintenance Therapy for Crohn's Disease". N Engl J Med. 388 (21): 1966–1980. doi:10.1056/NEJMoa2212728. hdl: 2268/304716 . PMID   37224198.{{cite journal}}: CS1 maint: multiple names: authors list (link) Review in: Ann Intern Med. 2023 Sep;176(9):JC103. doi: 10.7326/J23-0069
  33. Aksan A, Farrag K, Blumenstein I, Schröder O, Dignass AU, Stein J (June 2021). "Chronic intestinal failure and short bowel syndrome in Crohn's disease". World Journal of Gastroenterology. 27 (24): 3440–3465. doi: 10.3748/wjg.v27.i24.3440 . PMC   8240052 . PMID   34239262.
  34. Lewis RT, Maron DJ (September 2010). "Efficacy and complications of surgery for Crohn's disease". Gastroenterology and Hepatology. 6 (9): 587–596. PMC   2976865 . PMID   21088749.
  35. Di Caro S, Fragkos KC, Keetarut K, Koo HF, Sebepos-Rogers G, Saravanapavan H, et al. (September 2019). "Enteral Nutrition in Adult Crohn's Disease: Toward a Paradigm Shift". Nutrients. 11 (4): 2222. doi: 10.3390/nu11092222 . PMC   6770416 . PMID   31540038.
  36. Comeche JM, Comino I, Altavilla C, Tuells J, Gutierrez-Hervas A, Caballero P (November 2019). "Parenteral Nutrition in Patients with Inflammatory Bowel Disease Systematic Review, Meta-Analysis and Meta-Regression". Nutrients. 11 (12): 2865. doi: 10.3390/nu11122865 . PMC   6950216 . PMID   31766687.
  37. 1 2 Hashash JG, Elkins J, Lewis JD, Binion DG (January 2024). "AGA Clinical Practice Update on Diet and Nutritional Therapies in Patients With Inflammatory Bowel Disease: Expert Review". Gastroenterology. 166 (3): 521–532. doi: 10.1053/j.gastro.2023.11.303 . PMID   38276922.
  38. Fehily SR, Basnayake C, Wright EK, Kamm MA (July 2021). "Fecal microbiota transplantation therapy in Crohn's disease: Systematic review". Journal of Gastroenterology and Hepatology. 36 (10): 2672–2686. doi:10.1111/jgh.15598. hdl:11343/298722. PMID   34169565.
  39. Song G, Fiocchi C, Achkar JP (June 2019). "Acupuncture in Inflammatory Bowel Disease". Inflammatory Bowel Diseases. 25 (7): 1129–1139. doi:10.1093/ibd/izy371. PMID   30535303.
  40. Kafil TS, Nguyen TM, MacDonald JK, Chande N (November 2018). "Cannabis for the treatment of Crohn's disease". The Cochrane Database of Systematic Reviews. 11 (11): CD012853. doi:10.1002/14651858.CD012853.pub2. PMC   6517156 . PMID   30407616.
  41. Chen J, Chen X, Sun Y, Xie Y, Wang X, Li R, et al. (December 2021). "The physiological and psychological effects of cognitive behavior therapy on patients with inflammatory bowel disease before COVID-19: a systematic review". BMC Gastroenterology. 21 (1): 469. doi: 10.1186/s12876-021-02003-0 . PMC   8672154 . PMID   34911469.
  42. 1 2 3 4 5 6 Cho CW, You MW, Oh CH, Lee CK, Moon SK (March 2022). "Long-term Disease Course of Crohn's Disease: Changes in Disease Location, Phenotype, Activities, and Predictive Factors". Gut and Liver. 16 (2): 157–170. doi: 10.5009/gnl210118 . PMC   8924800 . PMID   34456186.
  43. von Allmen D (February 2018). "ediatric Crohn's Disease". Clinics in Colon and Rectal Surgery. 31 (2): 80–88. doi: 10.1055/s-0037-1609022 . PMC   5825885 . PMID   29487490.
  44. 1 2 3 4 5 6 7 8 9 10 Mulder DJ, Noble AJ, Justinich CJ, Duffin JM (May 2014). "A tale of two diseases: the history of inflammatory bowel disease". Journal of Crohn's and Colitis. 8 (5): 341–348. doi: 10.1016/j.crohns.2013.09.009 . PMID   24094598.
  45. 1 2 Van Hootegem P, Travis S (July 2020). "Is Crohn's Disease a Rightly Used Eponym?". Journal of Crohn's and Colitis. 14 (6): 867–871. doi: 10.1093/ecco-jcc/jjz183 . PMID   31701137.

Further reading