Marginal Ulcer Clinical Trial
Official title:
Laparoscopic Revision Gastric Bypass Surgery for Perforated Marginal Ulcer: A 10 Year Experience
A common late complication after gastric bypass surgery is marginal ulceration that is
defined as ulcers at the margins of the gastrojejunostomy, mostly on the jejunal side. Most
marginal ulcers respond to medical therapy and complicated or complex ulcer disease warrants
operative intervention; specifically, perforated, penetrated, obstructing, bleeding and
intractable marginal ulcers require surgical intervention.
Diverse operative strategies for addressing perforated marginal ulcers after gastric bypass
have been described including I) Omental (Graham) patch repair, II) Revision of
gastrojejunostomy, III) Irrigation and drainage, IV) any previous procedure with truncal
vagotomy, V) Esophagojejunostomy, and VI) Reversal. We formally analyze our experience with
the laparoscopic resection and repair of acutely perforated marginal ulcers after Roux-en-Y
gastric bypass (RYGB), with or without concomitant resolution of technical risk factors for
marginal ulceration.
The epidemic of overweight and obesity in the United States of America along with its
comorbidities continues to expand. Bariatric surgery has demonstrated to be the most
effective and sustained method to control severe obesity and its comorbidities. For
instance, type 2 diabetes mellitus was completely resolved in 76.8%, systemic arterial
hypertension was resolved in 61.7%, dyslipidemia improved in 70% and obstructive sleep
apnea-hypopnea syndrome was resolved in 85.7%. Furthermore, bariatric surgery significantly
increases life expectancy (89%) and decreases overall mortality (30-40%), particularly
deaths from diabetes, heart disease, and cancer. Lastly, preliminary evidence about
downstream savings associated with bariatric surgery offset the initial costs in 2 to 4
years.
Since 2000, there has been a substantially progressive increase in bariatric surgery. In
2007, the ASMBS reported that 205,000 people had bariatric surgery in the United States from
which approximately 80% of these were Gastric Bypass. Moreover, there is a mismatch between
eligibility and receipt of bariatric surgery with just less than 1% of the eligible
population being treated for morbid obesity through bariatric surgery. Along with the
increasing number of elective primary weight loss procedures, up to 20% of post RYGB
patients cannot sustain their weight loss beyond 2 to 3 years after the primary bariatric
procedure. Thus, revisional surgery for poor weight loss and re-operations for technical or
mechanical complications will rise in a parallel manner.
A common late complication after gastric bypass surgery is marginal ulceration that is
defined as ulcers at the margins of the gastrojejunostomy, mostly on the jejunal side. Its
incidence after RYGB ranges from as low as 0.6 to as high as 16%. After 1,040 laparoscopic
RYGB surgeries, the incidence rate, in our hands, is 1.4% and mainly related to NSAID´s use.
In observational cohort studies, the presence of specific technical factors - staple-line
dehiscence or gastro-gastric fistula, enlarged pouch, foreign material and local ischemia -
and environmental factors - tobacco, NSAID´s, alcohol consumption, and H pylori infection
among others - have been associated with marginal ulceration however the exact
etiopathogenesis has not been completely elucidated.
Similar to peptic ulcer disease, most marginal ulcers respond to medical therapy and
complicated or complex ulcer disease warrants operative intervention. Specifically,
perforated, penetrated, obstructing, bleeding and intractable marginal ulcers require
surgical intervention.
The intestinal mucosa is not typically exposed to gastric acid, which is neutralized by the
alkaline biliopancreatic secretions. The jejunal mucosa has no natural barriers; when
exposed to gastric acid, it ulcerates easily. Capella & Capella demonstrated that
transecting the gastric segments significantly reduce staple-line dehiscence; this is the
so-called divided gastric bypass. The incidence for gastro-gastric fistula (GGF) formation
after undivided gastric bypass (GBP) was 23%, after a partially divided GBP was 19%, after a
completely divided GBP was 2% and after complete transection with interposition of the
jejunal limb was 0% (p <0.001).
An unusually large gastric pouch (such as horizontal pouches, retained fundus, long lesser
curvature based pouches or enlarged after initially being sized adequately) contain more
acid-producing parietal cells. Increased acid production in the pouch carries the risk of
developing marginal ulcers. Acid secretion in the small pouch after RYGB is virtually
absent.
The anastomotic techniques influence the incidence of marginal ulcers. Capella & Capella
reported a consecutive series with significant decrement from 5.1% to 1.5% (p< 0.001) after
switching from a stapled to a hand-sewn anastomosis. Likewise, after changing from an inner
layer of absorbable suture and an outer layer of nonabsorbable material to a double-layer of
absorbable suture the incidence rate improved from 1.6% to 0%.
Local ischemia, in the immediate postoperative period, is probably secondary to technical
reasons. Fundamental aspects for decreasing tension and local ischemia at the
gastrojejunostomy are dissection of the tissues around the pouch without devascularizing the
lesser curvature and complete mobilization of a well-perfused Roux limb.
NSAID´s inhibit prostaglandin synthesis 1) decreasing blood flow to the mucosa (mainly by PG
subgroups E and I, which promotes vasodilatation), 2) increased adherence of neutrophils, 3)
topical irritant effect, 4) impair of the repair/healing process, and 5)
gastric-acid-related effects. In a retrospective cohort study, Wilson et al found NSAID´s
consumption to correlate with the marginal ulcer development after RYGB. Numerous studies
have identified NSAID´s use as a main risk factor for PUD; however, the precise relevance of
NSAID´s as a factor in marginal ulcer development after RYGB is largely unknown.
In epidemiological, clinical and experimental studies, Tobacco has been identified as a
major risk factor for peptic ulcer disease (PUD). Smoking carries an overall relative risk
of 2.2 for developing PUD. A synergistic relationship for developing PUD exists between H
pylori infection and smoking (2.3 vs. 6.1). Biological evidence suggests that smoking
compromises the gastric mucosa barrier, decreases gastric emptying and increases gastric
secretion. For marginal ulcer after RYGB, there are three cohort studies that showed
positive correlation between smoking with developing anastomotic ulcer.
Helicobacter pylori (H pylori) infection carries an overall relative risk of 3.3 (95%CI,
2.6-4.4) for developing PUD. A synergistic relationship exists between H pylori infection
and NSAID´s consumption for developing PUD with an overall risk of 3.5 (95%CI, 1.26-9.96)
compared to either H pylori or NSAID´s negative individuals. Furthermore, a 61.1 (95%CI,
9.98-373) overall risk exist when compared to H pylori negative individuals not taking
NSAID´s. For marginal ulcers after RYGB, three cohort studies have showed that H. pylori
infection is not associated with the development of marginal ulcers. In Papasavas et al
study, preoperative H. pylori testing with prophylactic eradication did not decrease the
incidence of MU or erosive pouch gastritis.
The pathophysiological mechanisms of damage to the gastric mucosa of Ethanol and alcoholic
beverages are poorly understood. There are scant retrospective epidemiological studies that
determine if a relationship between alcohol consumption and PUD exists. Although alcohol is
not associated with an increased risk of PUD, patients with PUD are advised to avoid
alcoholic drinks. Basic science studies have showed that instillation of pure ethanol at
lower concentrations (4-40% v/v) causes hemorrhagic gastritis in a dose-dependant fashion.
Also a synergistic relationship exists between ethanol and NSAID´s, since both cause mucosal
injury. On the other hand, there are no studies available about the effect of alcohol on
marginal ulcer development after RYGB.
Cocaine use is responsible for approximately 143,000 Emergency Department visits annually;
19% of American, between 18 to 25 years old, have used cocaine: more than 1% of the
Americans use cocaine at least once a week; and approximately 50% of all drug-related deaths
were secondary to Cocaine. The temporal association between smoking cocaine (crack) and GI
tract manifestations include ulceration, perforation, visceral infarction, and
retroperitoneal fibrosis. Most ulcer perforations are juxtapyloric or duodenal (D1) however
jejunal location has been reported. The physiopathologic hypothesis includes the following
mechanisms 1) cocaine blocks the re-uptake of norepinephrine leading to intense
vasoconstriction (alpha-adrenergic receptors), mesenteric ischemia, focal tissue ischemia,
coagulative necrosis and perforation; and 2) cocaine causes thrombus formation and platelet
aggregation mediated by endogenous Thromboxane B2. A few retrospective cohort studies
suggest that primary patch repair is the recommended therapeutic option for this type of
ulcers. However, Shuster et al reported a high recurrence rate (42%) after omental patch
repair compared to a definitive anti-ulcer procedure (0%). Little information exists about
the association between crack and gastroduodenal ulcer perforations other than the temporal
association reported in small retrospective cohort studies. In a communication, Dr Mason
recalls two patients with perforated "stomach ulcers" associated with cocaine use.
The following Critically-Ill patients have a significant increased risk of stress-related
mucosal disease (SRMD): 1) mechanical ventilation > 48hrs conveys a 16-fold risk (p <
0.001), 2) coagulopathy has a 4-fold risk (p < 0.001), 3) shock carries a 3.7-fold risk (p=
0.08), 4) drop of intramural pH (from 8 to 6, 5), 5) increase of the number of risk factors
(from 0 to 4), 6) recent major surgery, 7) major trauma, 8) severe burns, 9) head trauma,
10) hepatic or renal disease at admission, and 11) sepsis. SRMD encompasses stress-related
injury (SRI), which is primarily erosion in the GI tract, and stress ulcer, which is a focal
deep mucosal damage. The pathogenesis of SRMD has not being unraveled completely but there
is strong evidence that hypoperfusion and reperfusion of the upper GI tract is the major
cause. There is no literature available about marginal ulcer after RYGB associated to ICU or
critically ill patients.
Diverse operative strategies for addressing perforated marginal ulcers after gastric bypass
have been described including I) Omental (Graham) patch repair, II) Revision of
gastrojejunostomy, III) Irrigation and drainage, IV) any previous procedure with truncal
vagotomy, V) Esophagojejunostomy, and VI) Reversal.
Summarizing, there is scant information about late complications after gastric bypass
especially after the widespread adoption of the laparoscopic approach and the modern
anatomical construct of Roux-en-Y Gastric Bypass surgery.
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Observational Model: Cohort, Time Perspective: Retrospective
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