2388 PART 10 Disorders of the Gastrointestinal System
FIGURE 322-3 Normal upper endoscopic examination. A. Esophagus. B. Gastroesophageal junction. C. Gastric fundus. D. Gastric body. E. Gastric antrum. F. Pylorus.
G. Duodenal bulb. H. Second portion of the duodenum.
A B
C D
E F
2389 Gastrointestinal Endoscopy CHAPTER 322
FIGURE 322-4 Duodenal ulcers. A. Ulcer with a small, flat, pigmented spot in its base. B. Ulcer with a visible vessel (arrow) in a patient with recent hemorrhage.
FIGURE 322-5 Gastric ulcers. A. Benign gastric ulcer in the antrum. B. Malignant gastric ulcer involving greater curvature of stomach.
G H
A B
A B
FIGURE 322-3 (Continued)
2390 PART 10 Disorders of the Gastrointestinal System
FIGURE 322-7 Colonoscopic view of terminal ileum. A. Normal-appearing terminal ileum (TI). B. View of normal villi of TI enhanced by examination under water immersion.
A B
C D
FIGURE 322-6 Barrett’s esophagus. A. Salmon-colored Barrett’s mucosa extending proximally from the gastroesophageal junction. B. Barrett’s esophagus with a suspicious
nodule (arrow) identified during endoscopic surveillance. C. Histologic finding of intramucosal adenocarcinoma in the endoscopically resected nodule. Tumor extends into
the esophageal submucosa (arrow). D. Barrett’s esophagus with locally advanced adenocarcinoma.
A B
>95% of cases, and the terminal ileum (Fig. 322-7) can often be examined. Colonoscopy is the gold standard for imaging the colonic mucosa
(Fig. 322-8). Colonoscopy has greater sensitivity than barium enema
for colitis (Fig. 322-9), polyps (Fig. 322-10), and cancer (Fig. 322-11).
CT colonography rivals the accuracy of colonoscopy for detection of
some polyps and cancer, although it is not as sensitive for the detection
of flat lesions, such as serrated polyps (Fig. 322-12). Moderate sedation is usually given before colonoscopy in the United States, although
a willing patient and a skilled examiner can complete the procedure
without sedation in many cases.
■ FLEXIBLE SIGMOIDOSCOPY
Flexible sigmoidoscopy is akin to colonoscopy, but it visualizes only
the rectum and a variable portion of the left colon, typically to 60 cm
from the anal verge. This procedure causes abdominal cramping, but
it is brief and usually performed without sedation. Flexible sigmoidoscopy is primarily used for evaluation of diarrhea and rectal outlet
bleeding.
■ SMALL-BOWEL ENDOSCOPY
Three endoscopic techniques are currently used to evaluate the small
intestine, most often in patients presenting with presumed smallbowel bleeding. For capsule endoscopy, the patient swallows a disposable capsule that contains a CMOS chip camera. Color still images
(Fig. 322-13) are transmitted wirelessly to an external receiver at
several frames per second until the capsule’s battery is exhausted
or it is passed into the toilet. Capsule endoscopy enables visualization of the small-bowel mucosa beyond the reach of a conventional
2391 Gastrointestinal Endoscopy CHAPTER 322
FIGURE 322-8 Normal colonoscopic examination. A. Cecum with view of appendiceal orifice. B. Ileocecal valve. C. Normal-appearing colon. D. Rectum (retroflexed view).
A B
C D
endoscope, and at present, it is solely a diagnostic procedure. Patients
with a history of prior intestinal surgery or Crohn’s disease are at risk
for capsule retention at the site of a clinically unsuspected smallbowel stricture, and ingestion of a “patency capsule” composed of
radiologically opaque biodegradable material may be indicated prior
to capsule endoscopy in such patients.
Push enteroscopy is generally performed using a variable-stiffness
pediatric or adult colonoscope or a dedicated enteroscope with or without the assistance of a stiffening overtube that extends from the mouth
to the small intestine. The proximal to mid-jejunum is usually reached,
and the instrument channel of the endoscope allows for biopsy or
endoscopic therapy.
Deeper insertion into the small bowel can be accomplished by
device-assisted enteroscopy, which may utilize inflatable balloons at
the tip of the enteroscope and/or an overtube (single- or doubleballoon enteroscopy) or a rotating, screw-like overtube (motorized
spiral enteroscopy) to pleat the small intestine onto the endoscope
(Fig. 322-14, Video V5-1). With device-assisted enteroscopy, the
entire small intestine can be visualized in some patients when both
the oral and anal routes of insertion are used. Biopsies and endoscopic therapy can be performed throughout the visualized small
bowel (Fig. 322-15).
■ ENDOSCOPIC RETROGRADE
CHOLANGIOPANCREATOGRAPHY
During endoscopic retrograde cholangiopancreatography (ERCP), a
side-viewing endoscope is passed through the mouth to the duodenum, the ampulla of Vater is identified and cannulated with a thin plastic catheter, and radiographic contrast material is injected into the bile
duct and pancreatic duct under fluoroscopic guidance (Fig. 322-16).
When indicated, the major papilla can be incised using the technique of endoscopic sphincterotomy (Fig. 322-17). Stones can be
retrieved from the ducts, biopsies can be performed, strictures can be
dilated and/or stented (Fig. 322-18), and ductal leaks can be treated
(Fig. 322-19). ERCP is usually performed for therapy but is also
important diagnostically as it facilitates tissue sampling of biliary or
pancreatic ductal strictures.
■ ENDOSCOPIC ULTRASOUND
Endoscopic ultrasound (EUS) utilizes ultrasound transducers incorporated into the tip of a flexible endoscope. Ultrasound images are
obtained of the gut wall and adjacent organs, vessels, lymph nodes, and
other structures. High-resolution images are obtained by bringing a
high-frequency ultrasound transducer close to the area of interest via
endoscopy. EUS provides the most accurate preoperative local staging
2392 PART 10 Disorders of the Gastrointestinal System
C D
A B
FIGURE 322-10 Colonic polyps. A. Pedunculated polyp on a stalk. B. Sessile polyp.
A B
FIGURE 322-9 Causes of colitis. A. Chronic ulcerative colitis with diffuse ulcerations and exudates. B. Severe Crohn’s colitis with deep ulcers. C. Pseudomembranous colitis
with yellow, adherent pseudomembranes. D. Ischemic colitis with patchy mucosal edema, subepithelial hemorrhage, superficial ulcerations, and cyanosis.
2393 Gastrointestinal Endoscopy CHAPTER 322
FIGURE 322-12 Flat serrated polyp in the cecum. A. Appearance of the lesion under
conventional white-light imaging. B. Mucosal patterns and boundary of the lesion
enhanced with narrow-band imaging. C. Submucosal lifting of the lesion with dye
(methylene blue) injection prior to resection.
FIGURE 322-13 Capsule endoscopy. Image of a jejunal vascular ectasia.
FIGURE 322-14 Double-balloon enteroscopy. Radiograph of the orally inserted
instrument deep in the small intestine.
FIGURE 322-11 Ulcerated colon adenocarcinoma narrowing the colonic lumen.
A
B
C
of esophageal, pancreatic, and rectal malignancies (Fig. 322-20), but
it does not detect most distant metastases. EUS is also useful for diagnosis of bile duct stones, gallbladder disease, subepithelial gastrointestinal lesions, and chronic pancreatitis. Fine-needle aspirates and core
biopsies of organs, masses, and lymph nodes in the posterior mediastinum, abdomen, retroperitoneum, and pelvis can be obtained under
EUS guidance (Fig. 322-21). EUS-guided therapeutic procedures are
increasingly performed, including drainage of abscesses, pseudocysts,
and pancreatic necrosis into the gut lumen (Video V5-2); celiac plexus
neurolysis for treatment of pancreatic pain; ethanol ablation of pancreatic neuroendocrine tumors; treatment of gastrointestinal hemorrhage;
and drainage of obstructed biliary and pancreatic ducts.
■ NATURAL ORIFICE TRANSLUMINAL
ENDOSCOPIC SURGERY
Natural orifice transluminal endoscopic surgery (NOTES) is an
evolving collection of endoscopic methods that entail passage of an
2394 PART 10 Disorders of the Gastrointestinal System
FIGURE 322-15 Nonsteroidal anti-inflammatory drug (NSAID)–induced proximal
ileal stricture managed via double-balloon enteroscopy. A. High-grade ileal
stricture causing obstructive symptoms. B. Balloon dilation of the ileal stricture.
C. Appearance of the stricture after dilation.
A
B
C
A
B
FIGURE 322-16 Endoscopic retrograde cholangiopancreatography (ERCP) for bile
duct stones with cholangitis. A. Faceted bile duct stones are demonstrated in the
common bile duct. B. After endoscopic sphincterotomy, the stones are extracted
with a Dormia basket. A small abscess communicates with the left hepatic duct.
2395 Gastrointestinal Endoscopy CHAPTER 322
FIGURE 322-17 Endoscopic sphincterotomy. A. A normal-appearing ampulla of Vater. B. Sphincterotomy is performed with electrosurgery. C. Bile duct stones are extracted
with a balloon catheter. D. Final appearance of the sphincterotomy.
FIGURE 322-18 Endoscopic diagnosis, staging, and palliation of hilar cholangiocarcinoma. A. Endoscopic retrograde cholangiopancreatography (ERCP) in a patient with
obstructive jaundice demonstrates a malignant-appearing stricture of the biliary confluence extending into the left and right intrahepatic ducts. B. Intraductal ultrasound
of the biliary stricture demonstrates marked bile duct wall thickening due to tumor (T) with partial encasement of the hepatic artery (arrow). C. Intraductal biopsy obtained
during ERCP demonstrates malignant cells infiltrating the submucosa of the bile duct wall (arrow). D. Endoscopic placement of bilateral self-expanding metal stents (arrow)
relieves the biliary obstruction. GB, gallbladder. (Image courtesy of Dr. Thomas Smyrk.)
A B C D
2396 PART 10 Disorders of the Gastrointestinal System
FIGURE 322-19 Bile leak (arrow) from a duct of Luschka after laparoscopic
cholecystectomy. Contrast leaks from a small right intrahepatic duct into the
gallbladder fossa, then flows into the pigtail of a percutaneous drainage catheter.
A B C
FIGURE 322-20 Local staging of gastrointestinal cancers with endoscopic ultrasound. In each example, the white arrowhead marks the primary tumor and the black arrow
indicates the muscularis propria (mp) of the intestinal wall. A. T1 gastric cancer. The tumor does not invade the mp. B. T2 esophageal cancer. The tumor invades the mp.
C. T3 esophageal cancer. The tumor extends through the mp into the surrounding tissue and focally abuts the aorta (AO).
endoscope or its accessories into or through the wall of the gastrointestinal tract to perform diagnostic or therapeutic interventions.
Some NOTES procedures, such as percutaneous endoscopic gastrostomy (PEG) or endoscopic necrosectomy of pancreatic necrosis,
are well-established clinical procedures (Video V5-2); others such as
peroral endoscopic myotomy (POEM) for achalasia (Fig. 322-22) and
gastroparesis, peroral endoscopic tumorectomy (POET) (Fig. 322-23),
and endoscopic full-thickness resection (EFTR) of gastrointestinal
mural lesions (Fig. 322-24, Video V5-3), are emerging as minimally
invasive therapeutic options. NOTES is an area of continuing innovation and endoscopic research.
■ ENDOSCOPIC RESECTION AND CLOSURE
TECHNIQUES
Endoscopic mucosal resection (EMR) (Fig. 322-25, Video V5-4) and
endoscopic submucosal dissection (ESD) (Fig. 322-26, Video V5-5)
are the two commonly used techniques for the resection of benign
and early-stage malignant gastrointestinal neoplasms. In addition to
providing larger specimens for more accurate histopathologic assessment and diagnosis, these techniques can be potentially curative for
some dysplastic lesions and focal intramucosal carcinomas involving
the esophagus, stomach, and colon. Several devices are available for
closure of EMR and ESD defects, as well as gastrointestinal fistulas and
perforations. Endoscopic clips deployed through the working channel of an endoscope have been used for many years to treat bleeding
lesions, and the development of larger over-the-scope clips has facilitated endoscopic closure of gastrointestinal fistulas and perforations
not previously amenable to endoscopic therapy (Video V5-6). Endoscopic suturing can be used to close some perforations and large
defects (Fig. 322-27), anastomotic leaks, and fistulas. Other potential
indications for endoscopic suturing include stent fixation to prevent
migration (Fig. 322-28, Video V5-7) and endoscopic bariatric procedures. These technologies are playing an expanding role in patient care.
RISKS OF ENDOSCOPY
Medications used during moderate sedation may cause respiratory
depression or allergic reactions. All endoscopic procedures carry some
risk of bleeding and gastrointestinal perforation. The risk is small with
diagnostic upper endoscopy, flexible sigmoidoscopy, and colonoscopy
(<1:1000 procedures), but it ranges from 0.5 to 5% when therapeutic
procedures such as polypectomy, EMR, ESD, control of hemorrhage,
or stricture dilation are performed. The risk of adverse events for diagnostic EUS (without needle aspiration) is similar to that for diagnostic
upper endoscopy.
Infectious complications are uncommon with most endoscopic procedures. Some procedures carry a higher incidence of postprocedure
bacteremia, and prophylactic antibiotics may be indicated (Table 322-1).
Management of antithrombotic agents prior to endoscopic procedures
should take into account the procedural risk of hemorrhage, the agent,
and the patient condition, as summarized in Table 322-2.
ERCP carries additional risks. Pancreatitis occurs in ~5% of patients
undergoing the procedure, and young, anicteric patients with normal
ducts are at increased risk (up to 25%). Post-ERCP pancreatitis is
usually mild and self-limited, but it may result in prolonged hospitalization, surgery, diabetes, or death when severe. Significant bleeding
occurs after endoscopic sphincterotomy in ~1% of cases. Ascending
cholangitis, pseudocyst infection, duodenal perforation, and abscess
formation may occur as a result of ERCP.
Percutaneous gastrostomy tube placement during EGD is associated
with a 10–15% incidence of adverse events, most often wound infections. Fasciitis, pneumonia, bleeding (Fig. 322-29), buried bumper
syndrome (Fig. 322-30), and colonic injury may result from gastrostomy tube placement.
URGENT ENDOSCOPY
■ ACUTE GASTROINTESTINAL HEMORRHAGE
Endoscopy is the primary diagnostic and therapeutic technique for
patients with acute gastrointestinal hemorrhage. Although gastrointestinal bleeding stops spontaneously in most cases, some patients will
2397 Gastrointestinal Endoscopy CHAPTER 322
A B
FIGURE 322-21 Endoscopic ultrasound (EUS)–guided fine-needle aspiration (FNA). A. Ultrasound image of a 22-gauge needle passed through the duodenal wall and
positioned in a hypoechoic pancreatic head mass. B. Micrograph of aspirated malignant cells. (Image courtesy of Dr. Michael R. Henry.)
FIGURE 322-22 Peroral endoscopic myotomy (POEM) for achalasia. A. Dilated aperistaltic esophagus with retained secretions. B. Hypertonic lower esophageal sphincter
(LES) region. C. Mucosal incision (mucosotomy) 10 cm proximal to the LES. D. Submucosal dissection using an electrosurgical knife following endoscope entry through the
mucosotomy site into the submucosal space. E. Completion of submucosal tunnel to the cardia. F. Initiation of myotomy of the muscularis propria distal to the mucosotomy
site. G. Completion of myotomy to the cardia. H. Closure of mucosotomy site with clips. I. Patulous gastroesophageal junction following myotomy.
A B C
D E F
G H I
2398 PART 10 Disorders of the Gastrointestinal System
C D
A B
E F
G H
FIGURE 322-23 Peroral endoscopic tumorectomy (POET). A. Mid-esophageal subepithelial lesion (arrow). B. Mucosal incision (mucosotomy) 5 cm proximal to the
lesion. C. Submucosal dissection and tunneling to the site of the lesion. D. Dissection of the lesion from its attachment to the muscularis propria. E. Postresection defect
through the muscularis propria. F. Mucosotomy site. G. Closure of mucosotomy site with clips. H. Resected specimen (leiomyoma).
2399 Gastrointestinal Endoscopy CHAPTER 322
A B
C D
FIGURE 322-24 Endoscopic full-thickness resection (EFTR) of a gastrointestinal stromal tumor. A. Subepithelial lesion in the proximal stomach. B. Hypoechoic lesion arising
from the fourth layer (muscularis propria) at endoscopic ultrasound. C. Full-thickness resection defect. D. Closure of defect using an over-the-scope clip.
FIGURE 322-25 Endoscopic mucosal resection (EMR). A. Large sessile polypoid fold in the transverse colon. B. Lifting of lesion following submucosal fluid injection.
C. Piecemeal hot snare resection. D. Initial resection site. E. Resection defect following completion of piecemeal EMR.
A B
have persistent or recurrent hemorrhage that may be life-threatening.
Clinical predictors of rebleeding help identify patients most likely
to benefit from urgent endoscopy and endoscopic, angiographic, or
surgical hemostasis.
Initial Evaluation The initial evaluation of the bleeding patient
focuses on the severity of hemorrhage as reflected by the presence of
supine hypotension or tachycardia, postural vital sign changes, and
the frequency of hematemesis or melena. Decreases in hematocrit and
hemoglobin lag behind the clinical course and are not reliable gauges
of the magnitude of acute bleeding. Nasogastric tube aspiration and
lavage can also be used to judge the severity of bleeding, but these are
no longer routinely performed for this purpose. The bedside initial
evaluation, completed well before the bleeding source is confidently
identified, guides immediate supportive care of the patient, triage to
the ward or intensive care unit, and timing of endoscopy. The severity
of the initial hemorrhage is the most important indication for urgent
endoscopy, since a large initial bleed increases the likelihood of ongoing or recurrent bleeding. Patients with resting hypotension or orthostatic change in vital signs, repeated hematemesis, or bloody nasogastric
2400 PART 10 Disorders of the Gastrointestinal System
E
C D
A B
FIGURE 322-26 Endoscopic submucosal dissection (ESD). A. Large, flat, distal rectal adenoma. B. Circumferential incision following submucosal fluid injection at the
periphery of the lesion. C. ESD using an electrosurgical knife. D. Rectal defect following ESD. E. Specimen resected en bloc.
FIGURE 322-25 (Continued)
2401 Gastrointestinal Endoscopy CHAPTER 322
C D
E
A B
FIGURE 322-27 Closure of large defect using an endoscopic suturing device. A. Ulcerated inflammatory fibroid polyp in the antrum. B. Large defect following endoscopic
submucosal dissection of the lesion. C. Closure of the defect using endoscopic sutures (arrows). D. Resected specimen.
FIGURE 322-26 (Continued)
2402 PART 10 Disorders of the Gastrointestinal System
C D
A B
C D
FIGURE 322-28 Prevention of stent migration using endoscopic sutures. A. Esophagogastric anastomotic stricture refractory to balloon dilation. B. Temporary placement of
a covered esophageal stent. C. Endoscopic suturing device to anchor the stent to the esophageal wall. D. Stent fixation with endoscopic sutures (arrows).
aspirate that does not clear with large-volume lavage or those requiring
blood transfusions should be considered for urgent endoscopy. In
addition, patients with cirrhosis, coagulopathy, or respiratory or renal
failure and those >70 years old are more likely to have significant
rebleeding and to benefit from prompt evaluation and treatment.
Bedside evaluation also suggests an upper or lower gastrointestinal
source of bleeding in most patients. Over 90% of patients with melena
are bleeding proximal to the ligament of Treitz, and ~85% of patients
with hematochezia are bleeding from the colon. Melena can result from
bleeding in the small bowel or right colon, especially in older patients
with slow colonic transit. Conversely, some patients with massive
hematochezia may be bleeding from an upper gastrointestinal source,
with rapid intestinal transit. Early upper endoscopy should be considered in such patients.
Endoscopy should be performed after the patient has been resuscitated with intravenous fluids and transfusions, as necessary. Marked
coagulopathy or thrombocytopenia is usually treated before endoscopy, since correction of these abnormalities may lead to resolution of
bleeding, and techniques for endoscopic hemostasis are limited in such
patients. Metabolic derangements should also be addressed. Tracheal
intubation for airway protection should be considered before upper
endoscopy in patients with repeated recent hematemesis, particularly in
those with suspected variceal hemorrhage. A single dose of erythromycin (3–4 mg/kg or 250 mg) administered intravenously 30–90 min prior
FIGURE 322-27 (Continued)
2403 Gastrointestinal Endoscopy CHAPTER 322
TABLE 322-1 Antibiotic Prophylaxis for Endoscopic Procedures
PATIENT CONDITION PROCEDURE CONTEMPLATED GOAL OF PROPHYLAXIS
PERIPROCEDURAL ANTIBIOTIC
PROPHYLAXIS
All cardiac conditions Any endoscopic procedure Prevention of infective endocarditis Not indicated
Bile duct obstruction in the absence of
cholangitis
ERCP with complete drainage Prevention of cholangitis Not recommended
Bile duct obstruction in the absence of
cholangitis
ERCP with anticipated incomplete
drainage (e.g., sclerosing cholangitis,
hilar strictures)
Prevention of cholangitis Recommended; continue antibiotics
after the procedure
Sterile pancreatic fluid collection
(e.g., pseudocyst, necrosis), which
communicates with pancreatic duct
ERCP Prevention of cyst infection Recommended; continue antibiotics
after the procedure
Sterile pancreatic fluid collection Transmural drainage Prevention of cyst infection Recommended
Solid lesion along upper GI tract EUS-FNA Prevention of local infection Not recommendeda
Solid lesion along lower GI tract EUS-FNA Prevention of local infection Not recommendeda
Cystic lesions along GI tract (including
mediastinum and pancreas)
EUS-FNA Prevention of cyst infection Recommended
All patients Percutaneous endoscopic feeding tube
placement
Prevention of peristomal infection Recommendedb
Cirrhosis with acute GI bleeding Required for all such patients,
regardless of endoscopic procedures
Prevention of infectious complications
and reduction of mortality
Recommended, upon admissionc
Continuous peritoneal dialysis Lower GI tract endoscopy Prevention of bacterial peritonitis Recommended
Synthetic vascular graft and other
nonvalvular cardiovascular devices
Any endoscopic procedure Prevention of graft and device infection Not recommendedd
Prosthetic joints Any endoscopic procedure Prevention of septic arthritis Not recommendedd
a
Low rates of bacteremia and local infection. b
Cefazolin or an antibiotic with equivalent coverage of oral and skin flora. c
Risk for bacterial infection associated with cirrhosis
and GI bleeding is well established; ceftriaxone or a quinolone antibiotic recommended. d
Very low risk of infection.
Abbreviations: ERCP, endoscopic retrograde cholangiopancreatography; EUS-FNA, endoscopic ultrasound–fine-needle aspiration; GI, gastrointestinal.
Source: Reproduced with permission from MA Kashab et al: Antibiotic prophylaxis for GI endoscopy. Gastrointest Endosc 81:81, 2015.
to upper endoscopy increases gastric emptying and may clear blood and
clots from the stomach to improve endoscopic visualization.
Most patients with hematochezia who are otherwise stable can
undergo semielective colonoscopy. Controlled trials have not shown a
benefit to urgent colonoscopy in patients hospitalized with hematochezia, although selected patients with massive or recurrent large-volume
episodes of hematochezia should probably undergo urgent colonoscopy
after a rapid colonic purge with an oral polyethylene glycol solution.
Colonoscopy has a higher diagnostic yield than radionuclide bleeding
scans or angiography in lower gastrointestinal bleeding, and endoscopic therapy can be applied in some cases. Urgent colonoscopy can
be hindered by poor visualization due to persistent vigorous bleeding
with recurrent hemodynamic instability, and other techniques (such as
angiography or even emergent subtotal colectomy) must be employed.
In such patients, massive bleeding originating from an upper gastrointestinal source should also be considered and excluded promptly by
upper endoscopy. The anal and rectal mucosa should also be visualized endoscopically early in the course of massive rectal bleeding, as
bleeding lesions in or close to the anal canal may be identified that are
amenable to endoscopic or surgical transanal hemostatic techniques.
Peptic Ulcer The endoscopic appearance of peptic ulcers provides
useful prognostic information and guides the need for endoscopic
therapy in patients with acute hemorrhage (Fig. 322-31). A cleanbased ulcer is associated with a low risk (3–5%) of rebleeding; patients
with melena and a clean-based ulcer may be discharged home from
the emergency room or endoscopy suite if they are young, reliable,
otherwise healthy, and able to return as needed. Flat pigmented spots
and adherent clots covering the ulcer base have a 10% and 20% risk
of rebleeding, respectively. Flat pigmented spots do not require treatment, but endoscopic therapy is generally applied to an ulcer with an
adherent clot. When a fibrin plug is seen protruding from a vessel wall
in the base of an ulcer (so-called sentinel clot or visible vessel), the risk
of rebleeding from the ulcer approximates 40%. This finding typically
leads to endoscopic therapy to decrease the rebleeding rate. When
active spurting from an ulcer is seen, there is a 90% risk of ongoing
bleeding without endoscopic or surgical therapy.
Endoscopic therapy of ulcers with high-risk stigmata typically lowers the rebleeding rate to 5–10%. Several hemostatic techniques are
available, including injection of epinephrine or a sclerosant into and
around the vessel (Fig. 322-32), “coaptive coagulation” of the vessel in
the base of the ulcer using a thermal probe that is pressed against the
site of bleeding (Fig. 322-33), placement of through-the-scope clips
(Fig. 322-34) or an over-the-scope clip (Fig. 322-35), or a combination
of these modalities (Video V5-8). Epinephrine injection can slow or
stop active bleeding, but it is not enough as a stand-alone technique
for definitive hemostasis. In conjunction with endoscopic therapy,
the administration of a proton pump inhibitor decreases the risk of
rebleeding and improves patient outcome.
Varices Two complementary strategies guide therapy of bleeding
varices: local treatment of the bleeding varices and treatment of the
underlying portal hypertension. Local therapies, including endoscopic
variceal band ligation, endoscopic variceal sclerotherapy, stent placement, and balloon tamponade with a Sengstaken-Blakemore tube,
effectively control acute hemorrhage in most patients, although therapies that decrease portal pressure (pharmacologic treatment, surgical
shunts, or radiologically placed intrahepatic portosystemic shunts) also
play an important role.
Endoscopic variceal ligation (EVL) is indicated for the prevention
of a first bleed (primary prophylaxis) from large esophageal varices
(Fig. 322-36), particularly in patients in whom nonselective beta
blockers are contraindicated or not tolerated. EVL is also the preferred
endoscopic therapy for control of active esophageal variceal bleeding
and for subsequent eradication of esophageal varices (secondary prophylaxis). During EVL, a varix is suctioned into a cap fitted on the end
of the endoscope, and a rubber band is released from the cap, ligating
the varix (Fig. 322-37, Video V5-9). EVL controls acute hemorrhage
2404 PART 10 Disorders of the Gastrointestinal System
TABLE 322-2 Management of Antithrombotic Drugs Prior to Endoscopic Procedures
DRUG
BLEEDING RISK
OF PROCEDURE MANAGEMENT
INTERVAL BETWEEN
LAST DOSE AND
PROCEDURE COMMENTS
Warfarin Lowa Continue N/A Ensure that INR is not supratherapeutic
Highb Discontinue 3–7 days (usually 5),
INR should be ≤1.5 for
procedure
Consider bridging therapy with heparinc
; usually safe to
resume warfarin on the same or next day
For life-threatening GI hemorrhage, consider reversal with
unactivated prothrombin complex concentrate
Dabigatran, rivaroxaban,
apixaban, edoxaban
Lowa Continue or hold
morning dose on day of
procedure
N/A
Dabigatran Highb Discontinue 2–3 days if GFR is
≥50 mL/min, 3–4 days if
GFR is 30–49 mL/min
Bridging therapy not recommended; resume drug when
bleeding risk is low
For life-threatening GI hemorrhage, consider use of a
reversal agent
Rivaroxaban, apixaban,
edoxaban
Higha Discontinue 2 days if GFR is
≥60 mL/min, 3 days if GFR
is 30–59 mL/min, 4 days if
GFR is <30 mL/min
Bridging therapy not recommended; resume drug when
bleeding risk is low
For life-threatening GI hemorrhage, consider use of a
reversal agent
Heparin Lowa Continue N/A
Highb Discontinue 4–6 h for unfractionated
heparin
Skip one dose if using low-molecular-weight heparin
Aspirin Any Continue N/A Low-dose aspirin does not substantially increase the risk of
endoscopic procedures
Aspirin with dipyridamole Lowa Continue N/A
Highb Discontinue 2–7 days Consider continuing aspirin monotherapy
P2Y12 receptor antagonists
(clopidogrel, prasugrel,
ticlopidine, ticagrelor,
cangrelor)
Lowa Continue N/A
Highb Coronary stent in place:
discuss with cardiologist
5 days (clopidogrel
or ticagrelor), 7 days
(prasugrel), 10–14 days
(ticlopidine)
Risk of stent thrombosis for at least 12 months after
insertion of drug-eluting coronary stent or 1 month after
insertion of bare metal coronary stent
No coronary stent:
discontinue, consider
substituting aspirin
a
Low-risk endoscopic procedures include esophagogastroduodenoscopy (EGD) or colonoscopy with or without biopsy, endoscopic ultrasound (EUS) without fine-needle
aspiration (FNA), and endoscopic retrograde cholangiopancreatography (ERCP) with stent exchange. b
High-risk endoscopic procedures include EGD or colonoscopy with
dilation, polypectomy, or thermal ablation; percutaneous endoscopic gastrostomy (PEG); EUS with FNA; and ERCP with sphincterotomy or pseudocyst drainage. c
Bridging
therapy with low-molecular-weight heparin should be considered for patients discontinuing warfarin who are at high risk for thromboembolism, including those with (1)
atrial fibrillation with a CHA2
DS2
-VASc score ≥3, mechanical valve(s), or history of stroke or transient ischemic attack; (2) mechanical mitral valve; (3) mechanical aortic
valve with other thromboembolic risk factors or older-generation mechanical aortic valve; or (4) venous thromboembolism within the past 3 months.
Abbreviations: GFR, glomerular filtration rate; INR, international normalized ratio; N/A, not applicable.
Source: Adapted from RD Acosta et al: Gastrointest Endosc 83:3, 2016; and AM Veitch et al: Gut 65:374, 2016.
A B
FIGURE 322-29 Bleeding from percutaneous endoscopic gastrostomy (PEG) tube placement. A. Patient with melena from a recently placed PEG tube. B. Loosening of the
internal disk bumper of the PEG tube revealed active bleeding from within the PEG tract.
2405 Gastrointestinal Endoscopy CHAPTER 322
A B
FIGURE 322-30 Buried bumper syndrome. A. Migration of the internal disk bumper of a percutaneous endoscopic gastrostomy (PEG) tube through the gastric wall.
B. Close-up view of the disk bumper (arrow) buried in the gastric wall.
A B
FIGURE 322-31 Stigmata of hemorrhage in peptic ulcers. A. Gastric antral ulcer with a clean base. B. Duodenal ulcer with flat pigmented spots (arrows). C. Duodenal ulcer
with a dense adherent clot. D. Duodenal ulcer with a pigmented protuberance/visible vessel. E. Duodenal ulcer with active spurting (arrow).
in up to 90% of patients. Complications of EVL, such as postligation
ulcer bleeding and esophageal stenosis, are uncommon. Endoscopic
variceal sclerotherapy (EVS) involves the injection of a sclerosing,
thrombogenic solution into or next to esophageal varices. EVS also
controls acute hemorrhage in most patients, but it is generally used as
salvage therapy when band ligation fails because of its higher complication rate. Bleeding from large gastric fundal varices (Fig. 322-38) is
best treated with endoscopic cyanoacrylate (“glue”) injection (Video
V5-10), since EVL or EVS of these varices is associated with a high
rebleeding rate. Complications of cyanoacrylate injection include
infection and glue embolization to other organs, such as the lungs,
brain, and spleen.
After treatment of the acute hemorrhage, an elective course of
endoscopic therapy can be undertaken with the goal of eradicating
esophageal varices and preventing rebleeding months to years later.
However, this chronic therapy is less successful, preventing long-term
rebleeding in ~50% of patients. Pharmacologic therapies that decrease
portal pressure have similar efficacy. The preferred strategy, however,
for secondary prophylaxis of variceal bleeding is the combination of
EVL with a nonselective beta blocker.
Dieulafoy’s Lesion This lesion, also called persistent caliber
artery, is a large-caliber arteriole that runs immediately beneath the
gastrointestinal mucosa and bleeds through a focal mucosal erosion
(Fig. 322-39). Dieulafoy’s lesion commonly involves the lesser curvature of the proximal stomach, causes impressive arterial hemorrhage,
and may be difficult to diagnose when not actively bleeding; it is often
recognized only after repeated endoscopy for recurrent bleeding.
Endoscopic therapy, such as thermal coagulation, band ligation, clip
placement, or endoscopic suturing, is typically effective for control
of bleeding and sealing of the underlying vessel once the lesion has
been identified (Video V5-11). Rescue therapies, such as angiographic
embolization or surgical oversewing, are considered in situations
where endoscopic therapy has failed.
2406 PART 10 Disorders of the Gastrointestinal System
E
C D
FIGURE 322-32 Injection therapy for ulcer hemostasis. Epinephrine injection into a
duodenal ulcer with visible vessel (arrow) and adherent clot.
Mallory-Weiss Tear A Mallory-Weiss tear is a linear mucosal rent
near or across the gastroesophageal junction that is often associated
with retching or vomiting (Fig. 322-40). When the tear disrupts a
submucosal arteriole, brisk hemorrhage may result. Endoscopy is the
best method for diagnosis, and an actively bleeding tear can be treated
endoscopically with coaptive coagulation, band ligation, or hemoclips,
with or without epinephrine injection (Video V5-12). Unlike peptic
ulcer, a Mallory-Weiss tear with a nonbleeding sentinel clot in its base
rarely rebleeds and thus does not necessitate endoscopic therapy.
Vascular Ectasias Vascular ectasias are flat mucosal vascular
anomalies that are best diagnosed by endoscopy. They usually cause
slow intestinal blood loss and occur either in a sporadic fashion or in a
well-defined pattern of distribution (e.g., gastric antral vascular ectasia
[GAVE] or “watermelon stomach”) (Fig. 322-41). Cecal vascular ectasias, GAVE, and radiation-induced rectal ectasias are often responsive
to local endoscopic ablative therapy, such as argon plasma coagulation
(Video V5-13). Patients with diffuse small-bowel vascular ectasias
(associated with chronic renal failure and with hereditary hemorrhagic
telangiectasia) may continue to bleed despite endoscopic treatment of
easily accessible lesions by conventional endoscopy. These patients may
benefit from device-assisted enteroscopy with endoscopic hemostasis
or pharmacologic therapy, such as octreotide or low-dose thalidomide,
in those who continue to bleed despite endoscopic therapy.
FIGURE 322-31 (Continued)
2407 Gastrointestinal Endoscopy CHAPTER 322
A B
C
FIGURE 322-33 Contact coagulation for ulcer hemostasis. A. Duodenal ulcer with a visible vessel (arrow). B. Coagulation of the vessel with a contact thermal probe.
C. Obliteration of the treated vessel (arrow).
A B
FIGURE 322-34 Through-the-scope clip placement for ulcer hemostasis. A. Superficial duodenal ulcer with visible vessel (arrow). B. Hemostasis secured following
placement of multiple through-the-scope clips.
2408 PART 10 Disorders of the Gastrointestinal System
A
B
FIGURE 322-35 Over-the-scope clip placement for ulcer hemostasis. A. Pyloric
channel ulcer with visible vessel (arrow). B. Hemostasis secured following
placement of an over-the-scope clip.
FIGURE 322-36 Esophageal varices.
A
B
FIGURE 322-37 Endoscopic variceal ligation. A. Esophageal varices with red wale
marks. B. Band ligation of varices.
Colonic Diverticula Diverticula form where nutrient arteries
penetrate the muscular wall of the colon en route to the colonic mucosa
(Fig. 322-42). The artery found in the base of a diverticulum may
bleed, causing painless and impressive hematochezia. Colonoscopy
is indicated in patients with hematochezia and suspected diverticular
hemorrhage, since other causes of bleeding (such as vascular ectasias,
colitis, and colon cancer) must be excluded. In addition, an actively
bleeding diverticulum may be seen and treated during colonoscopy
(Fig. 322-43, Video V5-14).
■ GASTROINTESTINAL OBSTRUCTION AND
PSEUDOOBSTRUCTION
Endoscopy is useful for evaluation and treatment of some forms of
gastrointestinal obstruction. An important exception is small-bowel
obstruction due to surgical adhesions, which is generally not diagnosed
or treated endoscopically. Esophageal, gastroduodenal, and colonic
obstruction or pseudoobstruction can all be diagnosed and often managed endoscopically.
Acute Esophageal Obstruction Esophageal obstruction by
impacted food (Fig. 322-44) or an ingested foreign body (Fig. 322-45)
is a potentially life-threatening event and represents an endoscopic
emergency. Left untreated, the patient may develop esophageal ulceration, ischemia, and perforation. Patients with persistent esophageal
obstruction often have hypersalivation and are usually unable to
swallow water. Sips of a carbonated beverage, sublingual nifedipine
or nitrates, or intravenous glucagon may resolve an esophageal food
impaction, but in many patients, an underlying web, ring, or stricture is
present, and endoscopic removal of the obstructing food bolus is necessary. Endoscopy is generally the best initial test in such patients since
endoscopic removal of the obstructing material is usually possible, and
the presence of an underlying esophageal pathology can often be determined. Radiographs of the chest and neck should be considered before
endoscopy in patients with fever, obstruction for ≥24 h, or ingestion of
a sharp object, such as a fishbone. Radiographic contrast studies interfere with subsequent endoscopy and are not advisable in most patients
with a clinical picture of esophageal obstruction.
2409 Gastrointestinal Endoscopy CHAPTER 322
A B
FIGURE 322-38 Gastric varices. A. Large gastric fundal varices. B. Stigmata of recent bleeding from the same gastric varices (arrow).
A B
C D
FIGURE 322-39 Dieulafoy’s lesion. A. Actively spurting gastric Dieulafoy’s lesion. B. Coagulation of the lesion using a contact thermal probe. C. Hemostasis secured
following contact coagulation (arrow). D. Histology of a gastric Dieulafoy’s lesion. A persistent caliber artery (arrows) is present in the gastric submucosa, immediately
beneath the mucosa.
2410 PART 10 Disorders of the Gastrointestinal System
FIGURE 322-40 Mallory-Weiss tear at the gastroesophageal junction.
Gastric Outlet Obstruction Obstruction of the gastric outlet is
commonly caused by gastric, duodenal, or pancreatic malignancy or
chronic peptic ulceration with stenosis of the pylorus (Fig. 322-46).
Patients vomit partially digested food many hours after eating. Gastric decompression with a nasogastric tube and subsequent lavage for
removal of retained material is the first step in treatment. Endoscopy is
useful for diagnosis and treatment. Patients with benign pyloric stenosis may be treated with endoscopic balloon dilation of the pylorus, and
a course of endoscopic dilation results in long-term relief of symptoms
in ~50% of patients. Removable, fully covered lumen-apposing metal
stents (LAMS) may also be used to treat benign pyloric stenosis (Video
V5-15). Malignant gastric outlet obstruction can be relieved with
endoscopically placed expandable stents in patients with inoperable
malignancy (Video V5-16).
Colonic Obstruction and Pseudoobstruction These conditions both present with abdominal distention and discomfort,
tympany, and a dilated colon on plain abdominal radiography. The
radiographic appearance may be characteristic of a particular condition, such as sigmoid volvulus (Fig. 322-47). Both obstruction and
pseudoobstruction may lead to colonic perforation if left untreated.
Acute colonic pseudoobstruction is a form of colonic ileus that is
usually attributable to electrolyte disorders, narcotic and anticholinergic medications, immobility (as after surgery), or retroperitoneal
hemorrhage or mass. Multiple causative factors are often present.
Colonoscopy, water-soluble contrast enema, or CT may be used to
assess for an obstructing lesion and differentiate obstruction from
pseudoobstruction. One of these diagnostic studies should be strongly
considered if the patient does not have clear risk factors for pseudoobstruction, if radiographs do not show air in the rectum, or if the
patient fails to improve when underlying causes of pseudoobstruction
have been addressed. The risk of cecal perforation in pseudoobstruction rises when the cecal diameter exceeds 12 cm, and decompression of the colon may be achieved using intravenous neostigmine or
via colonoscopic decompression (Fig. 322-48). Most patients should
receive a trial of conservative therapy (with correction of electrolyte
disorders, removal of offending medications, and increased mobilization) before undergoing an invasive decompressive procedure for
colonic pseudoobstruction.
Colonic obstruction is an indication for urgent intervention. In
the past, emergent diverting colostomy was usually performed with
a subsequent second operation after bowel preparation to treat the
underlying cause of obstruction. Colonoscopic placement of an
expandable stent is an alternative treatment option that can relieve
malignant colonic obstruction without emergency surgery and permit
bowel preparation for an elective one-stage operation (Fig. 322-49,
Video V5-17).
■ ACUTE BILIARY OBSTRUCTION
The steady, severe pain that occurs when a gallstone acutely obstructs the
common bile duct often brings patients to a hospital. The diagnosis of a
ductal stone is suspected when the patient is jaundiced or when serum
liver tests or pancreatic enzyme levels are elevated; it is confirmed by
EUS, magnetic resonance cholangiopancreatography (MRCP), or direct
cholangiography (performed endoscopically, percutaneously, or during
surgery). ERCP is the primary means of treating common bile duct
stones (Figs. 322-16 and 322-17), although they can also be removed by
bile duct exploration at the time of cholecystectomy. Radiologic percutaneous biliary drainage may be required in some cases.
Bile Duct Imaging While transabdominal ultrasound diagnoses
only a minority of bile duct stones, MRCP and EUS are >90% accurate
and have an important role in diagnosis. Examples of these modalities
are shown in Fig. 322-50.
If the suspicion for a bile duct stone is high and urgent treatment is
required (as in a patient with obstructive jaundice and biliary sepsis),
ERCP is the procedure of choice since it remains the gold standard
for diagnosis and allows for immediate treatment (Video V5-18). If a
persistent bile duct stone is relatively unlikely (as in a patient with gallstone pancreatitis), ERCP may be supplanted by less invasive imaging
techniques, such as EUS, MRCP, or intraoperative cholangiography
performed during cholecystectomy, sparing some patients the risk and
discomfort of ERCP.
Ascending Cholangitis Charcot’s triad of jaundice, abdominal
pain, and fever is present in ~70% of patients with ascending cholangitis and biliary sepsis. These patients are managed initially with fluid
resuscitation and intravenous antibiotics. Abdominal ultrasound is
often performed to assess for gallbladder stones and bile duct dilation. However, the bile duct may not be dilated early in the course of
acute biliary obstruction. Medical management usually improves the
patient’s clinical status, providing a window of ~24 h during which
biliary drainage should be established, typically by ERCP. Undue delay
can result in recrudescence of overt sepsis and increased morbidity and
mortality rates. In addition to Charcot’s triad, the additional presence
of shock and confusion (Reynolds’s pentad) is associated with a high
mortality rate and should prompt urgent intervention to restore biliary
drainage.
Gallstone Pancreatitis Gallstones may cause acute pancreatitis
as they pass through the ampulla of Vater. The occurrence of gallstone
pancreatitis usually implies passage of a stone into the duodenum, and
only ~20% of patients harbor a persistent stone in the ampulla or the
common bile duct. Retained stones are more common in patients with
jaundice, rising serum liver tests following hospitalization, severe pancreatitis, or superimposed ascending cholangitis.
Urgent ERCP decreases the morbidity rate of gallstone pancreatitis in a subset of patients with retained bile duct stones. It is unclear
whether the benefit of ERCP is mainly attributable to treatment and
prevention of ascending cholangitis or to relief of pancreatic ductal
obstruction. ERCP is warranted early in the course of gallstone pancreatitis if ascending cholangitis is suspected, especially in a jaundiced
patient. Urgent ERCP may also benefit patients predicted to have
severe pancreatitis using a clinical index of severity, such as the Glasgow or Ranson score. Since the benefit of ERCP is limited to patients
with a retained bile duct stone, a strategy of initial MRCP or EUS for
diagnosis decreases the utilization of ERCP in gallstone pancreatitis
and improves clinical outcomes by limiting the occurrence of ERCP-related adverse events.
ELECTIVE ENDOSCOPY
■ DYSPEPSIA
Dyspepsia is a chronic or recurrent burning discomfort or pain in
the upper abdomen that may be caused by diverse processes, such as
gastroesophageal reflux, peptic ulcer disease, and “nonulcer dyspepsia,”
2411 Gastrointestinal Endoscopy CHAPTER 322
A B
C
FIGURE 322-41 Gastrointestinal vascular ectasias. A. Gastric antral vascular ectasia (“watermelon stomach”) characterized by stripes of prominent flat or raised vascular
ectasias. B. Cecal vascular ectasia. C. Radiation-induced vascular ectasias of the rectum in a patient previously treated for prostate cancer.
a heterogeneous category that includes disorders of motility, sensation, and somatization. Gastric and esophageal malignancies are less
common causes of dyspepsia. Careful history-taking allows accurate
differential diagnosis of dyspepsia in only about half of patients. In
the remainder, endoscopy can be a useful diagnostic tool, especially
in patients whose symptoms are not resolved by Helicobacter pylori
treatment or an empirical trial of acid-reducing therapy. Endoscopy
should be performed at the outset in patients with dyspepsia and alarm
features, such as weight loss, obstructive symptoms, or iron-deficiency
anemia.
■ GASTROESOPHAGEAL REFLUX DISEASE
When classic symptoms of gastroesophageal reflux are present, such
as water brash and substernal heartburn, presumptive diagnosis and
empirical treatment are often sufficient. Endoscopy is a sensitive test
for diagnosis of esophagitis (Fig. 322-51), but it will miss nonerosive reflux disease (NERD) since some patients have symptomatic
reflux without esophagitis. The most sensitive test for diagnosis of
gastroesophageal reflux disease (GERD) is 24-h ambulatory pH monitoring. Endoscopy is indicated in patients with reflux symptoms refractory to antisecretory therapy; in those with alarm symptoms, such as
dysphagia, weight loss, or gastrointestinal bleeding; and in those with
recurrent dyspepsia after treatment that is not clearly due to reflux on
clinical grounds alone. Endoscopy should be considered in patients
with long-standing (≥10 years) GERD, as they have a sixfold increased
risk of harboring Barrett’s esophagus compared to patients with <1 year
of reflux symptoms.
Barrett’s Esophagus and Esophageal Squamous Dysplasia
Barrett’s esophagus is specialized columnar metaplasia that replaces
the normal squamous mucosa of the distal esophagus in some persons
with GERD. Barrett’s epithelium is a major risk factor for adenocarcinoma of the esophagus and is readily detected endoscopically, due to
proximal displacement of the squamocolumnar junction (Fig. 322-6).
2412 PART 10 Disorders of the Gastrointestinal System
A
B
C
FIGURE 322-42 Colonic diverticula.
FIGURE 322-43 Diverticular hemorrhage. A. Actively bleeding sigmoid diverticulum.
B. Treatment of the bleeding vessel at the dome of the diverticulum with a contact
thermal probe. C. Hemostasis secured following contact coagulation with tattoo
injection to aid future localization.
A screening EGD for Barrett’s esophagus should be considered in
patients with a chronic (≥10 year) history of GERD symptoms. Endoscopic biopsy is the gold standard for confirmation of Barrett’s esophagus and for dysplasia or cancer arising in Barrett’s mucosa.
Periodic EGD with biopsies is recommended for surveillance of
patients with Barrett’s esophagus. Endoscopic resection (EMR or ESD)
and/or ablation are performed when high-grade dysplasia or intramucosal cancer are found in the Barrett’s mucosa. Both endoscopic
therapy and periodic surveillance are acceptable options in patients
with Barrett’s esophagus and low-grade dysplasia. Radiofrequency
ablation (RFA) is the most common ablative modality used for endoscopic treatment of Barrett’s esophagus, and other modalities, such as
cryotherapy, are also available.
Esophageal squamous dysplasia is the precursor lesion of esophageal squamous cell cancer (ESCC), the most common type of esophageal malignancy worldwide. Endoscopic detection of esophageal
squamous dysplasia often requires specialized imaging methods,
such as chromoendoscopy with Lugol’s iodine. Once detected, it can
be treated endoscopically with EMR, ESD, or RFA (Fig. 322-52).
Population-based screening for esophageal squamous dysplasia has
been shown to decrease the occurrence of ESCC in high-incidence
regions.
■ PEPTIC ULCER
Peptic ulcer classically causes epigastric gnawing or burning, often
occurring nocturnally and promptly relieved by food or antacids.
Although endoscopy is the most sensitive diagnostic test for peptic
ulcer, it is not a cost-effective strategy in young patients with ulcer-like
dyspeptic symptoms unless endoscopy is available at low cost. Patients
with suspected peptic ulcer should be evaluated for H. pylori infection.
Serology (past or present infection), urea breath testing (current infection), and stool tests are noninvasive and less costly than endoscopy
with biopsy. Patients aged >50 and those with alarm symptoms or
persistent symptoms despite treatment should undergo endoscopy to
exclude malignancy.
■ NONULCER DYSPEPSIA
Nonulcer dyspepsia may be associated with bloating and, unlike peptic
ulcer, tends not to remit and recur. Most patients describe persistent
symptoms despite acid-reducing, prokinetic, or anti-Helicobacter therapy and are referred for endoscopy to exclude a refractory ulcer and
assess for other causes. Although endoscopy is useful for excluding
other diagnoses, its impact on the treatment of patients with nonulcer
dyspepsia is limited.
2413 Gastrointestinal Endoscopy CHAPTER 322
FIGURE 322-44 Esophageal food impaction. Meat bolus impacted in the distal
esophagus.
FIGURE 322-45 Esophageal foreign body. Intentionally ingested toothbrush
impacted in the esophageal lumen.
A
B
C
FIGURE 322-46 Gastric outlet obstruction due to pyloric stenosis. A. Nonsteroidal
anti-inflammatory agent–induced ulcer disease with severe stenosis of the pylorus
(arrow). B. Balloon dilation of the stenosis. C. Appearance of pyloric ring after
dilation.
■ DYSPHAGIA
About 50% of patients presenting with difficulty swallowing have a
mechanical obstruction; the remainder has a motility disorder, such
as achalasia or diffuse esophageal spasm. Careful history-taking often
points to a presumptive diagnosis and leads to the appropriate use of
diagnostic tests. Esophageal strictures (Fig. 322-53) typically cause
progressive dysphagia, first for solids, then for liquids; motility disorders often cause intermittent dysphagia for both solids and liquids.
Some underlying disorders have characteristic historic features: Schatzki’s
ring (Fig. 322-54) causes episodic dysphagia for solids, typically at the
beginning of a meal; oropharyngeal motor disorders typically present
with difficulty initiating deglutition (transfer dysphagia) and nasal
reflux or coughing with swallowing; and achalasia may cause nocturnal
regurgitation of undigested food.
When mechanical obstruction is suspected, endoscopy is a useful
initial diagnostic test, since it permits immediate biopsy and/or dilation of strictures, masses, or rings. The presence of linear furrows
and multiple corrugated rings throughout a narrowed esophagus should
raise suspicion for eosinophilic esophagitis, an increasingly recognized
cause of recurrent dysphagia and food impaction (Fig. 322-55). Blind
or forceful passage of an endoscope may lead to perforation in a patient
with stenosis of the cervical esophagus or a Zenker’s diverticulum
(Fig. 322-56), but gentle passage of an endoscope under direct visual
guidance is reasonably safe. Endoscopy can miss a subtle stricture or
ring in some patients.
When transfer dysphagia is evident or an esophageal motility disorder is suspected, esophageal radiography and/or a video-swallow study
are the best initial diagnostic tests. The oropharyngeal swallowing
mechanism, esophageal peristalsis, and the lower esophageal sphincter
can all be assessed. In some disorders, subsequent esophageal manometry is required for diagnosis.
Various causes of dysphagia are amenable to endoscopic therapy. Benign strictures, rings, and webs can be dilated using a
2414 PART 10 Disorders of the Gastrointestinal System
A
B
C
FIGURE 322-47 Sigmoid volvulus with the characteristic radiologic appearance of
a “bent inner tube.”
A
B
FIGURE 322-48 Acute colonic pseudoobstruction. A. Acute colonic dilation
occurring in a patient soon after knee surgery. B. Colonoscopic placement of
decompression tube with marked improvement in colonic dilation.
FIGURE 322-49 Obstructing colonic carcinoma. A. Colonic adenocarcinoma
causing marked luminal narrowing of the distal transverse colon. B. Endoscopic
placement of a self-expandable metal stent. C. Radiograph of expanded stent
across the obstructing tumor with a residual waist (arrow).
through-the-scope balloon (Fig. 322-57) or a polyvinyl dilator passed
over a guide wire. In some instances, fibrotic strictures may respond to
needle-knife electroincision (Fig. 322-58) when they prove refractory
to dilation. Self-expanding esophageal stents can be used to palliate
dysphagia from malignant obstruction (Fig. 322-59), and flexible
endoscopic myotomy is an option for Zenker’s diverticulum (Video
V5-19). Recent advances in submucosal endoscopy have enabled the
development of procedures, such as POEM (Video V5-20) and POET
(Video V5-21), for the management of achalasia and select subepithelial esophageal tumors, respectively.
■ ENDOSCOPIC TREATMENT OF OBESITY
A significant proportion of Americans are overweight or obese,
and obesity-associated diabetes has become a major public health
problem. Bariatric surgery is the most effective weight-loss intervention, decreasing long-term mortality in obese persons, but many
patients do not undergo surgery. Endoscopic treatments for obesity
have been developed and include insertion of an intragastric balloon
or duodenojejunal bypass liner, placement of a percutaneous gastric
tube for aspiration of gastric contents after meals, or endoscopic sleeve
gastroplasty, which utilizes endoscopic suturing to narrow the lumen
of the gastric body (Video V5-22). Prospective trials show that these
treatments induce total-body weight loss of 7–20% and provide varying degrees of glycemic control. Additional endoscopic modalities are
2415 Gastrointestinal Endoscopy CHAPTER 322
A B C
FIGURE 322-50 Methods of bile duct imaging. Arrows mark bile duct stones. A. Endoscopic ultrasound (EUS). B. Magnetic resonance cholangiopancreatography (MRCP).
C. Helical computed tomography (CT).
A B
C D
FIGURE 322-51 Causes of esophagitis. A. Severe reflux esophagitis with mucosal ulceration and friability. B. Cytomegalovirus esophagitis. C. Herpes simplex virus
esophagitis with target-type shallow ulcerations. D. Candida esophagitis with white plaques adherent to the esophageal mucosa.
2416 PART 10 Disorders of the Gastrointestinal System
A B
C D
FIGURE 322-52 Early squamous cell cancer. A. Nodularity in the distal esophagus due to T1 esophageal squamous cell cancer. B. Lesion is unstained under Lugol’s iodine
chromoendoscopy without additional unstained areas. C. Circumferential mucosal incision around the lesion. D. Resection defect following en bloc removal of the lesion
via endoscopic submucosal dissection.
undergoing clinical trials. The long-term efficacy of endoscopic bariatric treatment in comparison to surgery is still unclear.
■ TREATMENT OF MALIGNANCIES
Endoscopy plays an important role in the treatment of gastrointestinal
malignancies. Early-stage malignancies limited to the mucosal and
superficial submucosal layers may be resected using the techniques
of EMR (Video V5-4) or ESD (Video V5-5). RFA and cryotherapy are
effective modalities for ablative treatment of high-grade dysplasia and
intramucosal cancer in Barrett’s esophagus (Video V5-23). Gastrointestinal stromal tumors can be removed en bloc by EFTR (Video V5-3).
In general, endoscopic techniques offer the advantage of a minimally
invasive approach to treatment but rely on other imaging techniques
(such as CT, MRI, positron emission tomography [PET], and EUS) to
exclude distant metastases or locally advanced disease better treated by
surgery or other modalities. The decision to treat an early-stage gastrointestinal malignancy endoscopically is often made in collaboration
with a surgeon and/or oncologist.
Endoscopic palliation of gastrointestinal malignancies relieves
symptoms and, in many cases, prolongs survival. Malignant obstruction can be relieved by endoscopic stent placement (Figs. 322-18, 322-49,
322-59, and 322-60; Videos V5-16 and V5-17), and malignant gastrointestinal bleeding can often be palliated endoscopically as well. EUSguided celiac plexus neurolysis may relieve pancreatic cancer pain.
■ ANEMIA AND OCCULT BLOOD IN THE STOOL
Iron-deficiency anemia may be attributed to poor iron absorption
(as in celiac sprue) or, more commonly, chronic blood loss. Intestinal
bleeding should be strongly suspected in men and postmenopausal
women with iron-deficiency anemia, and colonoscopy is indicated in
such patients, even in the absence of detectable occult blood in the
stool. Approximately 30% will have large colonic polyps or colorectal
cancer, and a few patients will have colonic vascular lesions. When a
convincing source of blood loss is not found in the colon, upper gastrointestinal endoscopy should be considered; if no lesion is found,
duodenal biopsies should be obtained to exclude sprue (Fig. 322-61).
Small-bowel evaluation with capsule endoscopy (Fig. 322-62), CT or
magnetic resonance (MR) enterography, or device-assisted enteroscopy
may be appropriate if both EGD and colonoscopy are unrevealing.
Tests for occult blood in the stool detect hemoglobin or the heme
moiety and are most sensitive for colonic blood loss, although they will
also detect larger amounts of upper gastrointestinal bleeding. Patients
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