In an increasing number of morbidly obese patients, bariatric surgery is performed for effective weight loss and control of some comorbid conditions. Three bariatric surgical procedures are in common use today: Roux-en-Y gastric bypass surgery, duodenal switch with pancreaticobiliary diversion surgery, and laparoscopic adjustable gastric banding. Postoperative imaging is used to confirm that the postsurgical anatomy is intact and to evaluate possible complications. In order to provide an accurate interpretation of imaging findings, radiologists must understand the postsurgical anatomy and be familiar with the appearance of complications.
Dr. Mitchell
is a Radiologist, Department of Radiology, Advocate Christ
Medical Center, Oak Lawn, IL. At the time this article was
submitted for publication, she was an Associate Professor in the
Department of Radiology at the University of Chicago, Chicago,
IL.
Obesity has quite literally become a growing national health
problem of immense proportions. The body mass index (BMI) is a
parameter used to assess obesity and is calculated by dividing the
patient¡¯s weight by the square of the patient¡¯s height. The
National Institutes of Health (NIH) classifies patients as
overweight with a BMI of 25 to 30 kg/m
2
, as obese with a BMI of ¡Ã30 kg/m
2
, and as extremely (morbidly) obese with a BMI of ¡Ã40 kg/m
2
.
1
The NIH estimates that the prevalence of obesity in adults was only
10.4% in men and 15.1% in women for the period of 1960 to 1962.
1
The prevalence of overweight and obese people has been steadily
increasing during the last several decades. The age-adjusted
prevalence of overweight adults in 1999 to 2000 was 64.5% compared
with 55.9% in 1988 to 1994. The prevalence of obesity for the same
groups was 30.5% compared with 22.9%, while the prevalence of
extreme obesity has gone from 2.9% to 4.7%.
2
Nonsurgical methods of weight loss, such as behavior modification
and pharmacologic agents, are not effective in maintaining
clinically significant weight loss for >5 years in patients who
are morbidly obese.
3
In these patients, bariatric surgery is more effective for weight
loss and for the control of some comorbid conditions.
4,5
Bariatric surgical procedures typically consist of a restrictive
component with or without a malabsorptive component to achieve
weight loss. There are 3 bariatric surgical procedures in common
use today: Roux-en-Y gastric bypass (RYGB) surgery, duodenal switch
(DS) with pancreaticobiliary diversion surgery, and laparoscopic
adjustable gastric banding (LAGB). Radiologic assessment of these
procedures is often done in the immediate postoperative period to
confirm that the postsurgical anatomy is intact. In addition,
imaging is frequently requested by the surgeon when complications
are suspected. A good understanding of the postsurgical anatomy and
of the appearance of complications is essential for accurate
interpretation of these studies.
Technical considerations
Standard technical settings and protocols are usually inadequate
for imaging the morbidly obese patient. For fluoroscopic
examinations, we use only digital imaging, as analog systems do not
penetrate the patients¡¯ bodies sufficiently. Water-soluble
contrast medium is preferable for a few reasons. It is sufficiently
opaque to provide diagnostic information, but is sufficiently
lucent to avoid inadequate beam penetration in these large
patients. Most clinical questions concern the proximal anatomy, so
dilutional effects are not an issue. In addition, the more common
postoperative complications include anastomotic leak with
extravasation into the peritoneal cavity. If the main concern is
for significant obstruction without leak, low-density barium can be
used. Contrast is administered orally in small increments or in
patient-controlled swallows during fluoroscopic
observation. A total of 100 mL of oral contrast is usually
adequate. Ideally, the patient should be imaged supine and upright
and assessed in frontal, lateral, and oblique projections; however,
the reality is that many of these patients are too large for any
imaging other than in a standing anteroposterior projection.
Computed tomography (CT) examinations also require technical
modifications to penetrate these patients. The kVp should be
increased to 140, and mAs should be increased to 300 to 400 with
manual settings. The scan protocol should use oral and intravenous
(IV) contrast as indicated by the clinical question. Increasing the
dose of IV contrast by 10% to 20% may improve contrast
enhancement.
Roux-en-Y gastric bypass surgery
Laparoscopic RYGB was first reported in 1994 by Wittgrove et al.
6
The procedure involved the creation of a small gastric pouch with a
volume of 20 mL, which is isolated from the remainder of the
stomach. This is the restrictive component of the procedure and is
the main factor in weight loss. The jejunum is divided 10 to 15 cm
distal to the ligament of Treitz, and a 100-cm Roux-en-Y is created
that is brought up through the transverse mesocolon and anastomosed
to the gastric pouch. This alimentary limb is the malabsorptive
component of the procedure and is a secondary contributor to weight
loss (Figure 1).
Normal anatomy
During fluoroscopy, contrast should pass easily from
the esophagus into a small gastric pouch approximately 3 to 4 cm in
diameter and should then flow easily into the Roux limb.
The Roux limb will have a jejunal mucosal fold pattern and will
descend in the left abdomen (Figure 2). If the anastomosis between
the gastric pouch is end-to-side, a small blind stump of bowel will
be seen that should not be confused with an anastomotic leak. The
length of the remaining small bowel is only slightly less than in
normal patients.
Complications
Complications that are diagnosed radiographically have been
estimated to occur in 10% of patients. The most common
complications encountered with RYGB are anastomotic leaks and
anastomotic stenoses, both of which more commonly involve the
proximal anastomosis.
7
A leak is diagnosed by the identification of contrast extravasation
at the anastomosis. The leak will be intraperitoneal if the pouch
was separated from the remainder of the stomach (Figure 3). If the
stomach was not transected at the suture line, a leak may occur
along the staple line and will opacify the excluded stomach (Figure
4). A stenosis appears as a narrowing of the anastomosis. In the
immediate postoperative period, these stenoses are usually caused
by edema and are self-limiting. A stenosis in the later
postoperative period is more likely to be caused by fibrotic
strictures (Figures 4 and 5).
Atypical complications of RYGB are much less frequent.
8
Anastomotic leaks may resolve with conservative management;
however, they may occasionally progress to abscess formation or to
the more rare complication of enterocutaneous fistula (Figure 6).
Hernias are another uncommon complication of RYGB and present with
obstructive symptoms. These can be internal hernias, particularly
through the mesocolic defect created during the surgery (Figure 7),
and ventral hernias, often through the incision sites.
Misconstructions are rare complications that are typically seen
after surgical revisions, rather than after the primary surgery. An
antiperistaltic Roux limb inversion occurs when the Roux limb is
cut at both ends and is inadvertently re-anastomosed in an inverted
fashion. This results in retrograde peristalsis, and patients will
present with nausea, vomiting, and/or intolerance of food. The
anatomy will look normal on static images, but the Roux limb will
show reversed peristaltic activity during fluoroscopic
observation when challenged with an adequate volume of contrast.
Another rare misconstruction is the ¡°Roux-en-O
,¡±
in which the biliary limb is inadvertently anastomosed to the
gastric pouch, again resulting in an antiperistaltic Roux limb
configuration. This diagnosis should be considered in patients who
present with bilious vomiting and chronic malnutrition. Ulcers are
another rare complication that are usually not identifiable
radiographically (Figure 8).
Duodenal switch with pancreaticobiliary diversion
surgery
Duodenal switch with pancreaticobiliary diversion surgery was
developed by Hess
9
and Marceau et al
10,11
in the 1990s. The restrictive component of DS surgery is less
severe than in RYGB and consists of a pylorus-sparing vertical or
sleeve gastrectomy that excludes 70% to 80% of the stomach at the
greater curvature. The duodenum, jejunum, and proximal ileum are
excluded from the stomach and form the biliary limb. The ileum is
transected, and a 250-cm Roux-en-Y is brought up from the ileum
rather than the jejunum and is anastomosed to the pylorus. The
anastomosis between the alimentary limb and the biliary limb is 75
cm proximal to the ileocecal valve. Thus, the malabsorptive
component is the dominant factor in weight loss, as the patient has
only 325 cm of small bowel available for food absorption (Figure
9). The DS procedure provides superior weight loss in super-obese
patients (BMI >50 kg/m
2
) compared with RYGB, but its greater technical complexity and
perceived perioperative and nutritional risks have limited the
widespread use of DS among bariatric surgeons.
11
Normal findings
The gastric pouch following DS is larger than that in RYGB
(Figure 10). It is tubular and runs the length of the lesser
curvature. The pylorus is identifiable in the epigastrium or the
right upper quadrant and results in intermittent emptying of the
stomach. The alimentary limb will have an ileal fold pattern and
descends into the right abdomen. A Baker¡¯s pouch may be present.
The length of the remaining small bowel that will be opacified is
much shorter than with RYGB.
Complications
Complications that can be diagnosed radiographically occur in
approximately 20% to 25% of patients. This is a higher incidence
than with RYGB. The most common complication following DS is bowel
obstruction, the majority of such cases are caused by anastomotic
stenosis at the gastroenteric anastomosis or in the gastric body.
As with RYGB, these are commonly due to edema in the immediate
postoperative period. They can be due to fibrosis or adhesions when
they occur later and may involve the gastric body as well as the
anastomosis (Figure 11). Anastomotic and suture line leaks are less
common than with RYGB, but they still occur and can develop into
abscesses (Figure 12). Hernias are also relatively common
complications and tend to be ventral more often than internal.
Symptomatic hiatal hernias are rare but can occur due to the
acidity of the gastroesophageal (GE) reflux in patients
with DS surgery (Figure 13). Hiatal hernias with RYGB are usually
of little consequence, because the gastric pouch lacks parietal
cells. Other rare complications include ulcers and enterocutaneous
fistulae.
Laparoscopic adjustable gastric banding
Laparoscopic adjustable gastric banding was first introduced in
1993 as a less invasive bariatric surgical procedure.
12
This is a purely restrictive procedure that creates a small gastric
pouch by placing a band around the gastric cardia. Tubing connects
the band to a subcutaneous access port that can be used to
inflate or deflate the band as needed to
control the patient¡¯s food intake. This is a less effective
procedure for weight loss. It is used for moderately obese patients
(BMI <50 kg/m
2
) who do not have any major comorbid conditions (such as diabetes)
and who are able to adhere to a diet regimen. Patients with a
history of eating disorders are not candidates for this procedure.
13
Normal findings
The gastric band is radiopaque and lies approximately 2 to 3 cm
caudal to the GE junction; its proximity to the GE junction varies
with the surgeon¡¯s preference (Figure 14). It should form a 45¢ªto
55¢ªangle with the spine. Connecting tubing will extend from the
pouch to a subcutaneous port placed in either the left anterior or
the left lateral abdominal wall. Upon upper gastrointestinal
examination, the gastric ¡°stoma¡± at the level of the pouch is
typically between 5 and 10 mm (Figure 15). This diameter can be
varied by inflating or deflating the band with
saline. The optimal diameter is determined by the patient¡¯s
tolerance and rate of weight loss.
Complications
Several complications of LAGB have been described.
13
Band misplacement or displacement can be too high and on the
esophagus, in which case the reservoir function of a gastric pouch
is lost and the patient never has a feeling of satiety; or it can
be too low on the stomach, which results in pouch dilatation
(Figure 16). The stoma can be too tight, resulting in pouch
dilatation (Figure 17); or too loose, resulting in failure to lose
weight. A less common cause of pouch dilatation is gastric
stricture at the level of the band. Tubing disconnection can occur
and usually requires surgical correction (Figure 18). The access
port can rotate and invert within the abdominal wall, which also
may require surgical correction. Paragastric herniation of the
gastric cardia alongside the stomal segment is a rare complication
(Figure 19) that may be caused by a band position anomaly. This has
not yet been reported in the literature.
Conclusion
Bariatric surgery is becoming increasingly popular for weight
loss in morbidly obese patients. A variety of procedures may be
used. For proper interpretation of imaging findings, it is
essential that radiologists know postsurgical anatomy prior to
examination of these patients. Functional abnormalities of motility
may be occult on static imaging and can be diagnosed only with
careful fluoroscopic assessment.