Diverticular disease includes a spectrum of conditions sharing the underlying pathology of acquired diverticula of the colon. Because diverticular disease occurs almost exclusively in developed countries, it has been dubbed a “disease of Western Civilization.”1
|Clinical recommendation||Evidence rating||References|
|Patients with asymptomatic diverticulosis should eat a high-fiber diet to prevent symptomatic diverticular disease.||C||6|
|All patients with symptomatic diverticular disease should undergo colonoscopy to exclude underlying neoplasm.||C||6|
|Patients with suspected diverticulitis should undergo computed tomography with intravenous and oral contrast rather than other diagnostic modalities such as endoscopy or contrast radiography.||C||13,17|
|To provide adequate coverage of gram-negative rods and anaerobic bacteria, patients with acute diverticulitis treated as outpatients should receive metronidazole (Flagyl) combined with a quinolone or with trimethoprim-sulfamethoxazole (Bactrim, Septra) or amoxicillin-clavulanate (Augmentin).||C||6|
|Patients hospitalized with acute diverticulitis should receive metronidazole or clindamycin (Cleocin) combined with an aminoglycoside, a monobactam, or a third-generation cephalosporin.||C||6|
Acquired diverticula form through the relative weakness in the muscle wall of the colon at the site where arteries (the vasa recta) penetrate the muscularis layer to reach the mucosa and submucosa. Diverticula generally are multiple. Each diverticulum is typically 5 to 10 mm in diameter, but at times they can exceed 20 mm. The most common site is the sigmoid colon, although diverticula can occur throughout the large bowel, with right-sided disease being more common in Asians and in patients younger than 60 years.2,3 Vegetarians and others who consume large amounts of dietary fiber have a lower incidence of diverticula. Although the pathogenic mechanisms of diverticular disease are poorly understood, they are clearly related to complex interactions of colon structure, intestinal motility, diet, and genetic features.4
The true prevalence of diverticula is unknown, but in one large observational study5 of 9,086 consecutive patients undergoing colonoscopy for all indications, the overall prevalence of diverticulosis was 27 percent and increased with patient age. Studies performed in the 1970s suggest that the prevalence of diverticula may be as high as 60 percent in patients older than 80 years, with no clear gender predilection. Of patients with diverticula, 80 to 85 percent are believed to remain asymptomatic. Three fourths of the remaining 15 to 20 percent of patients have symptomatic diverticular disease with colicky abdominal pain but no inflammation. The remaining one fourth (or approximately 5 percent of all patients with diverticula) develop diverticulitis, and a small number will develop complications of diverticulitis such as abscess formation, fistulas, obstruction, or hemorrhage.6 Table 1Table 1 compares the various diverticular syndromes.
|Asymptomatic||Diverticula in the absence of clinical symptoms||High-fiber diet|
|Symptomatic||Diverticula and abdominal pain, with or without change in bowel habits; no inflammation||High-fiber diet|
|Diverticulitis: uncomplicated (in stable patients)||Abdominal pain, fever, leukocytosis; able to tolerate oral fluids||Oral antibiotics (to cover anaerobes and gram-negative rods); clear liquid diet; avoid morphine (Duramorph) if possible because of risk of increasing intracolonic pressure|
|Diverticulitis: uncomplicated (in older or ill patients)||Abdominal pain, fever, leukocytosis; able to tolerate oral fluids, or patient is older than 85 years||IV antibiotics (to cover anaerobes and gram-negative rods); IV fluids; bowel rest, nothing by mouth; meperidine (Demerol)|
|Diverticulitis: complicated||Abdominal pain, fever, leukocytosis; with or without sepsis, perforation, abscess, fistula, obstruction||Stabilization with fluids and antibiotics; surgical consultation; percutaneous drainage|
Diverticulosis is an anatomic diagnosis that describes the presence of one or more diverticula. Uncomplicated, asymptomatic diverticulosis typically is diagnosed incidentally and does not require further work-up. Consensus guidelines6 recommend a high-fiber diet in these patients to prevent symptomatic diverticular disease, although there are no randomized controlled trials to support or refute this strategy.
Symptomatic Diverticular Disease
Symptomatic diverticular disease, also known as symptomatic diverticulosis, is characterized by nonspecific attacks of abdominal pain without evidence of an inflammatory process. This pain typically is colicky in nature, but can be steady, and often is relieved by passing flatus or having a bowel movement. Patients often note that attacks are precipitated by eating. Bloating and changes in bowel habits also can occur, and constipation is more common than diarrhea. Fullness or tenderness in the left lower quadrant, or occasionally a tender palpable loop of sigmoid colon, often is appreciated on physical examination. These nonspecific symptoms overlap considerably with those of irritable bowel syndrome; disorders of inhibitory control of neuromuscular function may play a role in the development of both diseases.7
For unknown reasons, only a small percentage of patients with diverticulosis develop symptomatic diverticular disease. Some researchers have proposed that more painful disease is associated with an increased motility index and increased intraluminal pressure.8 Prospective studies9,10 in men have shown no connection between symptomatic diverticular disease and smoking, caffeine, or alcohol intake, although lack of physical activity appears to play at least an indirect role. In a large prospective study11 of 43,881 U.S. male health care professionals, an inverse relationship was noted between the consumption of insoluble dietary fiber and the development of symptomatic diverticular disease.
The diagnosis of symptomatic diverticular disease is one of exclusion in patients with diverticula(Table 2). Traditionally, diverticula are identified by barium enema, and additional investigations are performed as indicated to rule out other potential causes of symptoms in individual patients. Although computed tomography (CT) has been used commonly in the investigation of diverticular disease, the morphology of diverticular segments makes the diagnosis of underlying cancer difficult even with ideal technique.12 Consensus expert opinion recommends colonoscopy in all patients who present with symptomatic diverticular disease to exclude underlying neoplastic disease.6 CT colonography is a promising modality that may supplant colonoscopy once further data demonstrating its effectiveness are available.
|Complicated ulcer disease|
|Ovarian cyst, abscess, or neoplasm|
|Pelvic inflammatory disease|
|Small bowel obstruction|
Several uncontrolled studies11 suggest that fiber supplementation benefits patients with symptomatic diverticular disease, but no large placebo-controlled trials have been performed. Nevertheless, a high-fiber diet, fiber supplementation, or both generally are recommended and are likely to do no harm. Historically, physicians have recommended avoiding ingestion of seeds, corn, popcorn, and nuts for fear that they might become entrapped in diverticula, but no controlled studies support this dietary restriction. Similarly, no evidence supports the use of antispasmodic agents, despite the cramping and bloating often associated with symptomatic diverticular disease.3
Classically, diverticulitis is characterized by acute, constant abdominal pain most often occurring in the left lower quadrant. The location varies depending on the site of the involved diverticulum. Fever and leukocytosis generally are present. Other commonly associated symptoms include nausea, vomiting, and constipation or diarrhea. Some patients may complain of dysuria and frequency, reflecting what has been called “sympathetic cystitis” induced by bladder irritation from the adjacent inflamed colon. On physical examination, localized tenderness generally is found in the left lower quadrant and may be associated with guarding and rebound tenderness. Right-sided pain, however, does not preclude diverticulitis because some patients have redundant sigmoid colons, and right-sided diverticula can occur, particularly in Asian populations. Bowel sounds often are decreased but may be normal early in the condition or increased in the presence of obstruction. Hematochezia is rare and should suggest other diagnoses.3
Diverticulitis is believed to develop as the result of a micro- or macro-perforation of a diverticulum, which may be caused by erosion of the luminal wall by increased intraluminal pressure or thickened fecal material in the neck of the diverticulum. After a micro-perforation, infection generally is contained by pericolonic fat, mesentery, or adjacent organs, and a localized phlegmon occurs. With macro-perforation, the resultant infection is less restricted, and peritonitis or a pericolonic abscess can occur. If this septic process erodes into adjacent structures, it may result in fistula formation.
The diagnosis of diverticulitis is suspected most often on the basis of clinical history and physical examination. Laboratory studies and imaging can be used judiciously to confirm a diagnosis of diverticulitis and to exclude other potential causes of similar symptoms ( Table 2Table 2). The white blood cell count usually is elevated with a predominance of polymorphonuclear cells. Immature band forms may be present. An acute abdominal radiographic series should be obtained in all patients with significant abdominal pain and suspected diverticulitis to identify pneumoperitoneum if macro-perforation has occurred. Otherwise, findings often are nonspecific and include small or large bowel dilation or ileus, or evidence of bowel obstruction.
CT with intravenous and oral contrast is the test of choice to confirm a suspected diagnosis of diverticulitis.13 The finding of pericolic fat infiltration ( Figure 1Figure 1) is diagnostic.14 Other common findings include thickened fascia (78.9 percent), muscular hypertrophy (26.3 percent), and an “arrowhead sign” (23.7 percent). The arrowhead sign consists of focal thickening of the colonic wall with an arrowhead-shaped lumen pointing to the inflamed diverticula ( Figure 2Figure 2).14 In one large prospective study,15 investigators demonstrated the ability of CT to accurately predict medical treatment failure or risk of complications by determining the presence of severe disease (abscess or extraluminal air or contrast). Although the sensitivity is excellent (97 percent), a normal CT does not preclude the diagnosis.
Uncommonly, ultrasonography is used to confirm the diagnosis, primarily in patients with right-sided pain in whom other diseases (e.g., ovarian pathology) are suspected. In such cases, ultrasonography reveals a hypoechoic or anechoic structure protruding from a segmentally thickened colonic wall. Ultrasonography was found to have a specificity of 99.8 percent in one large retrospective study.16
Although barium enema was used commonly in the past, it is no longer recommended because of the risk of extravasation of contrast material if perforation has occurred. If barium enema is performed, water-soluble contrast should be used. Typical findings include spiculation of the mucosa, spasm, abscess, or evidence of frank perforation.
Because of the theoretic potential to exacerbate perforation, endoscopic examination is acutely contraindicated unless inflammatory bowel disease, ischemic colitis, or carcinoma is highly suspected.17 Colonoscopy always should be performed six to eight weeks after recovery from acute diverticulitis to exclude coexisting neoplastic disease.
The severity of the inflammatory and infectious processes, as well as the underlying health of the patient, determines the appropriate treatment for patients with diverticulitis. In patients with uncomplicated diverticulitis who are clinically stable and able to tolerate fluids, outpatient treatment with broad-spectrum antibiotics covering anaerobes and gram-negative rods is appropriate ( Table 3Table 36). Common choices are metronidazole (Flagyl) plus a quinolone; metronidazole plus trimethoprim-sulfamethoxazole (Bactrim, Septra); or amoxicillinclavulanic acid (Augmentin).6 Patients also should follow a clear liquid diet. Morphine (Duramorph) should be avoided if possible because of its propensity to increase intracolonic pressure.3,10 Patients should improve within 48 to 72 hours, at which time the diet may be advanced cautiously. Close follow-up is recommended, and hospitalization should be considered if the patient experiences increasing pain, fever, or an inability to tolerate fluids. Antibiotic treatment should be continued for seven to 10 days.
Hospitalization is recommended if patients show signs of significant inflammation, are unable to take oral fluids, are older than 85 years, or have significant comorbid conditions. These patients should be placed on bowel rest and treated with intravenous fluids and intravenous antibiotics ( Table 3Table 36). Appropriate choices, based on expert consensus rather than randomized trials, include anaerobic coverage with metronidazole or clindamycin (Cleocin) and gram-negative coverage with an aminoglycoside, a monobactam, or a third-generation cephalosporin.6 Single-agent coverage with intravenous second-generation cephalosporins (i.e., cefoxitin [Mefoxin] or cefotetan [Cefotan]), or betalactamase inhibitor combinations such as ampicillinsulbactam (Unasyn) or ticarcillin-clavulanate (Timentin) also have been advocated.3 Meperidine (Demerol) is the opiate of choice because it has been shown to decrease intraluminal pressure. Nasogastric suction is not indicated unless there is significant ileus. As with patients receiving out-patient therapy, hospitalized patients should improve within 48 to 72 hours. The diet then can be advanced, and the patient discharged to complete a seven- to 10-day course of oral antibiotics.
|Trimethoprim-sulfamethoxazole (Bactrim, Septra) and metronidazole (Flagyl)|
|Fluoroquinolone and metronidazole|
|Metronidazole or clindamycin (Cleocin)|
|Aminoglycoside (gentamicin [Garamycin] or tobramycin [Tobrex])|
|Monobactam (aztreonam [Azactam])|
|Third-generation cephalosporin (ceftriaxone [Rocephin], ceftazidime [Fortaz], cefotaxime [Claforan])|
|Second-generation cephalosporin (cefoxitin [Mefoxin], cefotetan [Cefotan])|
|Beta-lactamase inhibitor combinations (ampicillin-sulbactam [Unasyn], ticarcillin-clavulanate [Timentin])|
Most patients with acute diverticulitis respond to conservative medical management, although 15 to 30 percent may require surgery during hospital admission because of lack of response to treatment or because of development of complications.18 Surgery typically is not indicated after an uncomplicated first episode because only 7 to 35 percent of patients experience a recurrent episode. After a second episode, the probability of a third episode surpasses 50 percent, and subsequent attacks are less likely to respond to medical therapy and also have a higher mortality rate.19 Surgical referral should be considered for patients with recurrent episodes or aggressive disease at a young age.
Several surgical options are available, including resection with primary anastomosis, resection with colostomy and closure of the rectal stump, transverse colostomy and drainage, and laparoscopic colectomy. The decision about which option to choose is best guided by an experienced surgeon and the patient’s preference.
Complications of diverticulitis include abscess, fistula, bowel obstruction, and free perforation. These complications all require surgical consultation.
Abscesses occur when the pericolic tissues fail to control the spread of the inflammatory process. Abscess formation should be suspected when fever, leukocytosis, or both persist despite an adequate trial of appropriate antibiotics. A tender mass may be palpable on physical examination. If right upper quadrant pain or elevated transaminase levels occur, evidence of a pyogenic liver abscess should be sought. CT-guided percutaneous drainage may be appropriate for small abscesses or while patients with sepsis are being stabilized for surgery.3,6
Peridiverticular abscesses can progress to form fistulas between the colon and surrounding structures in up to 10 percent of patients. Colovesical fistulas are the most common variety and require surgery for treatment. Fistulas involving the bladder are more common in men; in women, the uterus is interposed between the colon and the bladder.
Intestinal obstruction is uncommon in diverticulitis, occurring in approximately 2 percent of patients. The small bowel is affected most often, and obstruction usually is caused by adhesions. The colon can become obstructed because of luminal narrowing caused by inflammation or compression by an abscess. Multiple attacks can lead to progressive fibrosis and stricture of the colonic wall. Obstruction generally is self-limited and responds to conservative therapy. If persistent, obstruction of the colon can be treated by a variety of endoscopic and surgical techniques.
Free perforation with peritonitis is rare, but it carries a mortality rate as high as 35 percent and requires urgent surgical consultation. If generalized peritonitis develops, the mortality rate is even higher. Perforation has been linked to nonsteroidal anti-inflammatory drug (NSAID) use in case-control studies.20 Glucocorticoids may increase this risk. Steroids also may mask symptoms and delay appropriate therapy. Because of this, NSAIDs and glucocorticoids should be used with caution in patients who have known diverticular disease.
Diverticular hemorrhage is a possible complication of diverticulosis, and it is the most common cause of major lower gastrointestinal (GI) bleeding. It is arterial in nature and is attributed to medial thinning of the vasa recta as they cross over the dome of a diverticulum. In as many as 16 percent of patients with diverticular hemorrhage, bleeding may be the first sign of diverticular disease and is abrupt, voluminous, and painless in onset. The diagnosis and treatment of lower GI bleeds require a coordinated approach. Following fluid resuscitation, angiography, nuclear bleeding scans, and colonoscopy may be therapeutically useful in patients with ongoing bleeding. Surgery may be required for patients in whom medical management is unsuccessful.6