ACUTE GASTROINTESTINAL BLEEDING IN THE INTENSIVE CARE UNIT

ACUTE GASTROINTESTINAL BLEEDING IN THE INTENSIVE CARE UNIT

HIGH RISK BLEEDING, PART I1 0889-8553/00 $15.00 + .OO ACUTE GASTROINTESTINAL BLEEDING IN THE INTENSIVE CARE UNIT The Gastroenterologist’s Perspecti...
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ACUTE GASTROINTESTINAL BLEEDING IN THE INTENSIVE CARE UNIT The Gastroenterologist’s Perspective Umar Beejay, MD, and M. Michael Wolfe, MD

Significant advances have been made in understanding the pathophysiology and management of gastrointestinal bleeding occurring in the intensive care unit (ICU) setting, including improvements in endoscopic and radiographic techniques, advances in resuscitative measures, and development of more potent pharmacologic agents. Despite these advances, the mortality rate associated with gastrointestinal bleeding has remained unchanged at 8% to 10% over the last half-century, and hemorrhage still constitutes a major cause of morbidity and mortality in the ICU. The apparent failure of better clinical management to improve mortality rates associated with gastrointestinal bleeding may be partly due to selection bias. Patients who die of gastrointestinal hemorrhage generally have multiple chronic comorbidities and are elderly,lo1and these factors probabiy largely account for the unchanged mortality rate.141, 169, 174 Gastrointestinal bleeding may be divided into upper and lower sources, with the ligament of Treitz constituting the anatomic dividing line. Gastrointestinal bleeding in the ICU is usually detected as coffee grounds in the nasogastric aspirate; fecal occult blood; or as hematemesis, melena, or hematochezia in more acute circumstances. It may be accompanied by a decrease in hemoglobin and hematocrit or might present purely with symptoms from blood loss and hypovolemia. The clinical

From the Section of Gastroenterology, Boston University School of Medicine and Boston Medical Center, Boston, Massachusetts

GASTROENTEROLOGY CLINICS OF NORTH AMERICA VOLUME 29 * NUMBER 2 * JUNE 2000

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approach to individuals with gastrointestinal hemorrhage depends not only on the severity, nature, and location of the bleed, but also on patient characteristics and comorbidities and the available medical skills and resources.1o1 This article focuses on stress-related erosive syndrome (SRES), the commonest cause of upper gastrointestinal bleeding in the ICU and lower gastrointestinal bleeding from intestinal vasculopathy. Many other causes of gastrointestinal bleeding that may be encountered in the ICU, most notably acid-peptic disorders and the sequelae of portal hypertension (esophageal varices), are discussed elsewhere in this issue. STRESS-RELATED EROSIVE SYNDROME Nomenclature

Lucas et a1114first described the condition now called SRES in 1971, and many terms are used to describe this condition, including stress

ulcer, hemorrhagic gastritis, stress gastritis, stress erosion, d i f l s e mucosal injury, erosive gastritis, and stress-related mucosal The main features of SRES are its relationship to physiologic stress, the diffuse nature of the mucosal injury, and the marked variability in its clinical course.20° SRESrelated overt hemorrhage manifests as hematemesis, bloody gastric aspirate, melena, or hematochezia. Clinically sigruficant SRES hemorrhage is defined as overt hemorrhage in combination with orthostatic changes in pulse and blood pressure, a 2 g/dl decline in hemoglobin and 2-unit packed erythrocyte transfusions within a 24-hour period, or 192 as gastric bleeding requiring surgery.42, Epidemiology

The incidence of overt SRES hemorrhage appears to be decreasing42 probably as a result of significant advances in the ICU monitoring and support of the critically ill patient, including optimization of hemodynamic status, tissue oxygenation, and treatment of sepsis.80The widespread use of prophylactic therapy is probably a less significant factor in producing this decrease.40The inadence of SRES depends, in part, on the diagnostic criteria. The definition may incorporate clinical or endoscopic criteria, or both. When microscopic blood loss is adopted as the sole clinical criterion, SRES occurs in virtually all ICU patients.=, 116, 149, 174 Use of a more clinically reasonable definition, as described in the previous nomenclature section, results in an inadence of clinically sigruficantSRES hemorrhage in 1%to 30% of ICU patients.'" 40, 46, 118, 174, 189 When esophagogastroduodenoscopy (EGD) is used for diagnosis, 75% to 100% of patients with endoscopically visible lesions have hemorrhage from SRES.so*'I4, 118*Il9, lm Even though the presence of endoscopically proven mucosal damage does not necessarily predict that 80, 95, lZ1, lZ8, 169* 202

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clinically sigruficant SRES hemorrhage will ensue, EGD remains the critical diagnostic test and diffuse shallow mucosal injury the diagnostic finding of SRES. Gastrointestinal bleeding from any cause in the ICU is associated with a fivefold increase in mortality.M,116,133*l69 Overt gastrointestinal bleeding from SRES is believed to contribute or cause death in 30% to 80% of critically ill 169 whereas ICU patients without gastrointestinal hemorrhage have a 10% to 25% mortality.M,lZ1,153 Risk Factors

Although the most important risk factor of SRES gastrointestinal bleeding is the type and severity of the underlying disease process,M,41, lo6, 83, 204 several other parameters are risk factors, as follows:9* 51, Respiratory failure requiring mechanical ventilation Coagulopathy Hypotension or shockao,98 Sepsisso, Multiple or severe trauma Extensive burns (>35%)% Severe central nervous system injury Hepatic failurezs,lO2, 190 Renal failure" Acute coronary syndromes14 Multiple system organ failurelZ, Aspiration pneumoniaa Post-organ transplant Major surgery and postsurgical states69,119 Long ICU stay169 A meta-analysis of 2252 patients by Cook et alMidentified mechanical ventilation (odds ratio, 15.6) and coagulopathy (odds ratio, 4.3)as the two most important risk factors. Without either of these, the risk of clinically sigruficant bleeding from SRES was about O.l%.M The probability of SRES hemorrhage increases proportionally with the number of risk factors present.8o, 147 Suggested risk factors for massive SRES hemorrhage include sepsis, hypotensive shock, acidosis, peritonitis, and multiple system organ failure.8o Natural History

The lesions of SRES differ from those of peptic ulcers in that they 114 The tend to be more shallow, more diffuse, and more initial lesions almost invariably occur in oxyntic gastric mucosa, the fundus, and the b o d p and occur within hours of the systemic insult.

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The lesions consist of multiple, shallow, punctate, subepithelial defects, usually associated with negligible surrounding inflammatory reaction,so and tend to ooze rather than bleed massively. If risk factors persist or worsen, the erosions and subepithelial petechial hemorrhages may become deeper and more extensive; diffuse ulceration may result in extensive areas of the upper gastrointestinal tract (distal esophagus, gastric antrum and duodenum) approximately 4 to 5 days after the initial injury.8oSome cases penetrate the muscularis mucosa, and perforation has occasionally been described. Profound hypoperfusion and sepsis result in deeper SRES lesions, and these are the lesions that tend to bleed profusely.81Although approximately 50% of early mucosal lesions have endoscopic evidence of recent or ongoing hemorrhage,8O the bleeding in these circumstances is -typically self-limited, and most of these patients do well with reversal of the underlying risk factors for SRES.&

Pathophysiology

The pathophysiology of bleeding from SRES is multifactorial,2l. lz8 with different factors assuming varying importance during the development of the lesions.106SRES lesions develop as a consequence of an imbalance between aggressive and defensive factors,8o the most important of which are respectively acid-pepsin production and mucosal p e r f u s i ~ n .lZ9, ~ ~179 , Luminal Acid- Pepsin

The old adage, "no acid-no still seems to hold true for SRES.11s,17s The importance of acid is confirmed by the observation that SRES lesions occur predominantly in oxyntic gastric mucosa and by many studies showing that maintenance of luminal pH above 3.5 to 4 prevents clinically significant bleeding from SRES.'" Further corroborative evidence includes experimental animal models that show a luminal acid concentration greater than 25 to 50 mmol/L is associated with ulcer formationg6and that systemically administered bicarbonate prevents ulcers induced by continuous acid instillation into dog stomachs.33 Increased stress16oand head injury1g,89 increase gastrin-mediated acid production. Despite the importance of acid in SRES, only a small amount of luminal acid may induce damage by upsetting the balance between aggressive and defensive factors, and SRES can occur even when gastric acid secretion is diminished. Although most studies regard acid as a prerequisite, some studies have suggested that acid alone is insufficient to cause SRES; in animal models, the combinations of acid and sepsis" 152 or acid and hemorrhage96were insufficient to incite gastric ulceration unless bile reflux was present. Because of the often varying levels of acid in SRES, some authors have differentiated Cushing's ulcers from SRES: They suggest that acid may be more important in Cushing's

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ulcerssoas manifested by the more frequent gastric acid hyper~ecretion'~~ and hyperga~trinemia'~ present in this condition. Mucosal Perfusion

Decreased mucosal perfusion is another major factor in the development of SRES?*, 82, 156 and gastric mucosal perfusion decreases early during any acute critical illness.18,44, 69, 77, lZ8Further evidence to support this hypothesis was presented by Moody et who showed an increase in gastric mucosal perfusion prevented ulceration. Decreased gastric mucosal perfusion promotes SRES through several mechanisms, including a decrease in the washout ejfiict,80 leading to local intramural acidosis, increased free radical formation,lso decreased acid-buffering capacity,s9,118 a decrease in the mucus and bicarbonate secretion,18oand possibly a defect in epithelial cell restituti0n.5~, 183 The end result of these effects is an increase in H + ion back-diffusion and disruption of the epithelial barrier.so,118, lZ7*177, 187 Fiddian-Green et aF3 emphasized the clinical importance of H + ion back-diffusion by showing a strong correlation between the degree of intramural pH and the development of massive bleeding from SRES (Fig. 1). Acid-Base Balance

Luminal acid comprises only part of a broad spectrum of acid-base balance that exists within the gastric epithelium. The importance of acidbase balance in SRES176was shown by Fiddian-Green,62who showed that the H + ion concentration in the mucosal interstitium was directly related not only to the local pH, but also to the degree of systemic acidosis. Bicarbonate plays a critical role in buffering and balancing this ions are produced at the basolateral local a ~ i d e m i a .97~ ~Bicarbonate , membrane of the gastric parietal ce11,1s6 are transferred by capillaries to the subepithelial area,71, and produce an alkaline tide that buffers the H+ ions that have diffused from the lumen.97Actively secreting gastric mucosa is more resistant to the effects of luminal acid than normal resting mucosa, indicating that a greater alkaline tide affords more protection to the gastric mucosa.186The contribution of bicarbonate is so powerful that it can neutralize the pH within the mucus gel on the epithelial cell surface despite a luminal pH of 1.5 to 2.0.67Regulation of gastric mucosal bicarbonate secretion is multifactorial, with paracrine, endocrine, and neural mechanisms being implicated.2 Gastric Epithelial Restitution

Gastric epithelial cell restitution (cell migration) is a defensive mech139 energy-de~endent~~? ls3 migration of epitheanism whereby a lial cells occurs toward areas of epithelial disruption, culminating in histologic and physiologic epithelial re~tituti0n.l~~ Epithelial restitution is believed to be an important component in maintaining the structural

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Intramural pH

Figure 1. Nomogram illustrating the relationship between intramural pH in the stomach and the probability (P) of massive bleeding from stress-related erosive syndrome (SRES). RF = risk factor. (From Fiddian-Green RG, McGough E, Pittenger G, et al: Predictive value of intramural pH and other risk factors for massive bleeding from stress ulceration. Gastroenterology 85613-620,1983; with permission.)

and functional integrity of the gastric mucosal barrier.144176 Oxygen free radical formation6*and physiologic stress162 have been implicated in reducing the rate of cellular proliferation and possibly gastric epithelial restitution. Mucus-Bicarbonate Barrier

The gastric epithelium is covered by a 200-p deep unstirred layer of mucus gel, consisting of a glycoprotein matrix that acts as a physical barrier that prevents H+ ion back-diffusion and as a locus that traps the bicarbonate ions that have diffused from the gastric epithelium. The control of mucus secretion is multifactorial, with gastric mucosal perfusion'*O and paracrine, endocrine, and neural factors being implicated? Disruption of the mucus barrier by the bile reflux, uremic toxins, alcohol, aspirin, and other nonsteroidal anti-inflammatory drugs (NSAIDs) can result in increased mucosal permeability and H+ ion back-diffusion.126 Mucosal Prostaglandins Prostaglandins are 20-carbon chain end products of arachidonic metabolism and are produced endogenously by the gastric mucosa. They

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were first implicated as cytoprotective agents by Robert et allb1in 1979, who showed that mild luminal irritants induced prostaglandin formation that protected the gastric mucosa against further injurious topical agents. This process was termed adaptive cytoprotection.161More recently, the effects of exogenously administered prostaglandins on the gastric mucosa have been shown to be dose dependent."' At all doses, prostaglandins stimulate all mucosal defensive mechanisms to protect the gastric mucosa from injurious agents (e.g, NSAIDs and alcohol).70,Ib3 At higher doses, prostaglandins inhibit acid secretion by reducing parietal cell production of cyclic adenosine monophosphate (AMP),60,111, lZ6and this property is believed to be fundamental to their clinical effects. Free Oxygen Radicals

Toxic free oxygen radicals are involved in tissue injury in many systems. SRES-related gastric ulceration can be caused by oxidative damage of gastric mucosa,3 from hydroxyl (OH-) radical formation47 and disruption of the microvascular network by platelet-activating factor.=,170 The importance of oxygen free radicals is corroborated by evidence that free radical scavengers, such as allopurinol and dimethyl sulfoxide, decrease gastric mucosal injury in models of and aspirin-induced and ethanol-induced mucosal injury.lb7 Bile

Bile is a topical gastric mucosal irritant, and increased bile reflux has been shown to occur in critical illness.3oBile may produce gastric mucosal injury through a prostaglandin-mediated effect on gastric mucosal perfu~ion,'~~ reduction of gastric bicarbonate secretion,15sand an increase in gastric mucosal permeability. Although the exact role of bile salts in human SRES remains uncertain, bile salts lead to mucosal injury in animal shock m0de1s.l~~ Nutrition

Experimentally, enteral nutrition reduces stress ulceration,10o* 131 preserves gastric mucosal integrity by neutralizing reduces gastric motility, and stimulates gastric mucosal perf~sion.5~ These findings have led to small clinical trials that suggest a clinically meaningful benefit from the administration of enteral nutrition. Clinical Assessment History

SRES is usually asymptomatic and generally noted only when clinically significant bleeding occurs in the ICU. Bleeding usually manifests

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as coflee grounds in a nasogastric tube aspirate; as fecal occult blood; or as hematemesis, melena, or hematochezia when hemorrhage is brisk. Patients may also present with nausea, vomiting, and abdominal pain or with symptoms from volume depletion, shock, or anemia.IWDuring the initial assessment and resuscitation, a brief history and physical examination should be performed. Although clinical assessment has a 40% accuracy in predicting the source of gastrointestinal hemorrhage,’W a history of variceal bleed, prior acid-peptic disorders, gastroesophageal reflux disease, recent surgery, or NSAID use may decrease the pretest probability of SRES. The history should attempt to identify any risk factors that would increase the probability of SRES (see earlier). Physical Examination

No specific signs signify that SRES is more likely than other causes of upper gastrointestinal hemorrhage.lgl Some physical findings may suggest certain causes (e.g., signs of chronic liver disease suggest esophageal varices, and wasting, lymphadenopathy, and abdominal masses suggest malignancy). The physical examination is helpful in the assessment of the severity of hemorrhage, and the vital signs, skin turgor, jugular venous pressure, and orthostatic changes should be determined.IWThe abdomen should be examined to assess for tenderness, masses, hepatosplenomegaly, ascites, and bowel sounds; a rectal examination is critical to obtain valuable information on the color of the stool (melena or bright red blood).101 Diagnosis

SRES is definitively diagnosed by EGD in the appropriate clinical context.lo1Although the presence of multiple risk factors strongly suggests SRES, none are entirely specific.a*lg2 EGD can determine the precise bleeding source, provide prognostic information regarding the potential for rebleeding, and offer potential therapeutic intervention.lo9 Therapy

General Measures The treatment of established or presumed SRES involves the institution of general medical principles a plicable to the care of the critically ill patient at risk for gastrointestinal emorrhage. These measures include adequate and aggressive volume resuscitation,a, 173 control of sepsis (especially intra-abdominal),80and optimal tissue oxygenation.R Spe+c therapy is divided into noninvasive and interventional therapies. Norunvasive medical therapy emphasizes pharmacologic prophylaxis rather than treatment of active bleeding.= Interventional therapy encompasses

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endoscopic, angiographic, and surgical approaches to overt and clinically significant SRES-related hemorrhage. Prophylaxis

Although prophylaxis has dramatically reduced the incidence of bleeding in SRES:6 a reduction in mortality from this bleeding has not been shown.lsl Successful prophylaxis has been achieved by the application of specific pathophysiologic principles, as follows:16s Maintenance of gastric pH greater than 4 Optimization of gastric mucosal perfusion and oxygenation Maintenance and enhancement of mucosal defense systems Several modalities have been shown to be helpful, including the use of nonpharmacologic techniques such as enteral nutrition, as well as pharmacologic therapies that include acid-suppressive medications, mucosal protective agents, and prostaglandin analogues."', ,01 Medications that increase intragastric pH include antacids, H,-receptor antagonists, and proton-pump inhibitors (PPIS).'~~ Antacids. Antacids significantly reduce the frequency of overt and Ig2 They were clinically significant gastrointestinal bleeding from SRES.107, first evaluated in the prophylaxis of SRES in 1976,lZ4and since then several placebo-controlled trials have shown their efficacy against clinically significant SRES hemorrhage (Fig. 2).Ig2 The incidence of overt SRES bleeding was reduced from approximately 15% to 20% to 5% in the antacid arm of these trials. Antacids decrease intragastric acidity primarily by direct neutralization and by binding pepsin,192although other studies have postulated additional gastroprotective mechanisms.", 145 Aluminum-based antacids appear to increase mucus and bicarbonate production, increase gastric mucosal perfusion,52bind potentially injurious agents (e.g., bile acidsM), and stimulate epithelial cell r e n e ~ a 1 . The l ~ ~ goal of acid neutralization therapy is to raise the intragastric pH to 4 or greater to inhibit the conversion of pepsinogen to active pepsin and reduce proteolytic activity. Platelet aggregability increases at a pH greater than 5.9. Antacids are typically administered as 30- to 60-mL aliquots orally or via a nasogastric tube every 1 to 2 ,04 The regimen requires close monitoring of intragastric pH and individual titration to maintain the pH greater than 4. The side effects of magnesium-containing antacids include hypermagnesemia, and alkalemia, whereas aluminum-based antacids cause hypophosphatemia, constipation, and metabolic alkalosis as well as potentially toxic plasma aluminum levels in patients with renal in~ufficiency.'~~ All antacids may impair the systemic absorption of drugs, including antibiotics61,lo5 and H,-receptor antagonists. Histamine-2-Receptor Antagonists. H,-receptor antagonists have been shown unequivocally to reduce the incidence of overt and clinically significant SRES hemorrhage when compared with untreated controls

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Figure 2. Common odds ratios and 95% confidence intervals for the relative effectiveness of prophylactic drugs in the prevention of SRES-related hemorrhage and mortality. (Adapted from Cook DJ, Reeve BK, Guyatt GH, et al: Stress ulcer prophylaxis in critically ill patients: Resolving discordant meta-analyses. JAMA 275308314, 1996; with permission.)

Suaalfate vs Ant&idx 5 trials

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(see Fig. 2).'81,192 A meta-analysis of 16 studies by Shuman et which involved 2133 patients, showed no significant difference in efficacy between antacids and H,-receptor antagonists in the prevention of clinically significant SRES hemorrhage. Both regimens were superior to placebo and were tolerated equally well. A more recent meta-analysis by Tryba and has suggested that H,-receptor antagonists may be more effective than antacids in SRES prophylaxis. H,-receptor antagonists inhibit acid secretion by binding to the histamine-2 receptor located on the basolateral membrane of the parietal cell."' Cimetidine is typically administered intravenously by continuous infusion at doses of 37.5 to 100 mg/h, whereas ranitidine is dosed at 6.25 to 12.5 mg/h and famotidine at 1.7 to 2.1 mg/h; all can be administered with or without a loading dose."' Continuous H,-receptor antagonist infusion appears to provide more stable acid suppression than bolus therapy.6,8, 73, 135 Although H,-receptor antagonists are considered to be safe, they have class-specific and individual side-effect profiles."' The most prominent class-specific effect is central nervous system toxicity?6 which appears to be idiosyncratic rather than dose related and occurs more frequently in elderly patients, usually within the first 2 weeks of therapy.26Cimetidine and ranitidine, in contrast to famotidine and nizatidine, inhibit the clearance of drugs by the cytochrome P450 system and interfere with the clearance of a wide variety of drugs." Although hematologic toxicity, liver dysfunction, and minor increases in creatinine occur with cimetidine, ranitidine, and famotidine, antiandrogenic effects seem to be specific to cimetidine.'" Proton-Pump Inhibitors. PPIs are not generally recommended for SRES prophylaxis because of a lack of evidence of significant benefit.'92 136 have shown promise, but no large randomized Several small studieslo8, clinical trials have been performed. Two studies in mechanically ventilated ICU patients suggested that a simplified omeprazole suspension may prevent clinically significant SRES hemorrhage and is safe and costeffective. The study design was limited in scope, however, with few study '4~ PPIs are substituted benzimidazoles that irreversibly block the H +/ K+-ATPase,the enzyme mediating the final common step in acid secretion. PPIs are prodrugs, which are metabolized to an active sulfenamide moiety in the highly acidic milieu of the secretory canaliculus of acti155 The sulfenamide moivated parietal cells after systemic absorption.122, ety forms a disulfide bond with the H+/K+-ATPase and irreversibly inactivates the enzyme. PPIs are significantly less active when administered to fasting individuals because prodrug activation occurs only in activated parietal cells.'" Four PPIs are currently available: omeprazole, lansoprazole, pantoprazole,66and rabepraz~le.'~~ All PPIs are available as oral agents, and pantoprazole is available as an intravenous preparation as well.'03 The typical oral dose for omeprazole is 20 mg orally daily, lansoprazole is 30 mg orally daily, rabeprazole is 20 mg orally daily, and pantoprazole is 40 mg orally daily. Difficulties in the oral

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administration of omeprazole to mechanically ventilated ICU patients have not been resolved despite the development of an omeprazole suspension that is somewhat effective in keeping gastric pH greater than 4.'" PPI side effects are minimal but include headache, diarrhea, and nausea.'" Significant drug interactions seem to occur only with rabeprazole, which interacts with digoxin and ketoconazo1e.lm,155 Mucosal Protective Agents Sucrazfate. The role of sucralfate in the prophylaxis of clinically sigruficant SRES hemorrhage is controversiaLZmA review by Tryba"O suggests that sucralfate is an effective prophylactic agent. It has been touted as the ideal agent because of its low side-effect profile, which possibly includes a lower incidence of nosocomial pneumonia (Fig. 3).17, *,19z In many studies, however, sucralfate was not statistically superior Nevertheless, to the reference group in preventing SRES hem~rrhage.'~ it has been suggested that sucralfate is of comparable efficacy to H,receptor antagonists and antacids in SRES prophylaxis.18,zz, Sucralfate is a basic nonabsorbable aluminum salt of sucrose octasulfate.201 It is relatively insoluble in aqueous solution and is poorly absorbed from the gastrointestinal tract. Despite its weak antacid properties,192its protective effect is not mediated by acid suppression or neutralization but by a cytoprotedive effect on the.gastric mucosa. The mucosal protection afforded by sucralfate is. mediated by numerous different mechanisms,2°1including formation of a protective barriers" lE; stimulation of gastric mucosal perfusion,201mucus, and bicarbonatezo1 and stimulasecretion by an effect on endogenous prostaglandin^^^, lE5; tion of various growth factors that have been implicated in ulcer healing.%1% 193 Sucralfate is available as tablets or as a liquid slurry that is administered 1 g orally or by nasogastric tube every 4 to 6 hours. Despite the apparent advantages of sucralfate, including its ease of administration, lack of need for monitoring, lack of need for supplemental antacid therapy and its cost-effectiveness,lZ it cannot be recommended as the Although drug of choice in SRES because of discordant study res~1ts.l~ sucralfate is well tolerated, constipation occurs in 2% to 4% of patients,zo1 and aluminum toxicity has occurred in patients with chronic renal fai1~re.l~~~ Prostaglandin Analogues. Synthetic prostaglandin derivatives (e.g., misoprostol) have not been shown to be effective in the prophylaxis of SRES, despite the promise shown in early trials.', 196, 203 Synthetic prostaglandin analogues exert a protective effect at low doses and have been demonstrated to protect the gastric mucosa from a variety of agents.*O1Given the relatively high cost and major side effects associated with prostaglandin analogues, it is unlikely that any large-scale randomized clinical trial will be performed to investigate the role of prostaglandin analogues in SRES hemorrhage. Their use is not recommended. Entmal Nutrition. Early implementation of enteral nutrition has been demonstrated to protect against the bacterial translocation that occurs across atrophic intestinal mucosa,144and animal studies115and

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Figure 3. Common odds ratio and 95% confidence intervals for the risk of pneumonia in randomized trials of SRES prophylaxis. (Adapted from Cook DJ, Reeve BK, Guyatt GH, et al: Stress ulcer prophylaxis in critically ill patients: Resolving discordant rneta-analyses. JAMA 275308314, 1996; with permission.)

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Antacids vs Placebo/control: 3 trials

4 Receptor Antagonists vs Antacids: 3 trials

Sucralfate vs Placebolconhol: 2 trials

Sudfate vs Ankids: 6 trials

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small human trials have suggested efficacy.150, Nevertheless, no largescale, controlled clinical trials have compared enteral nutrition with pharmacologic therapy in SRES prophylaxis. Enteral nutrition cannot be recommended as an effective prophylactic method in the treatment of SRES. Medical Therapy of Actively Bleeding Stress-Related Erosive Syndrome

Although cessation of active hemorrhage resulting from SRES with administration of antacids,&,,05 H,-receptor antagonists,3E, 49, ,05 PPIS,'~, ~ 3 37 , and su~xalfate'~~ has been reported, this finding has not been tested in large randomized, controlled trials. Case reports suggest the efficacy of prostaglandin^,^^, lg7 ~omatostatin,~~~ pirenzepine?O and intravenous vasopres~in,~~~ but all these agents are currently regarded as investigational. lnterventional Therapy

More aggressive therapies are indicated when prophylactic therapy fails, and clinically sigruficant SRES hemorrhage persists. Isolated bleeding sites may be treated by endoscopic or angiographic techniques, although little has been published regarding the efficacy of these modalities in the treatment of SRES.29Surgery is reserved for cases of severe hemorrhage uncontrolled by other modalities.123 Endoscopy. EGD is the principal diagnostic procedure for SRESassociated hem~rrhage.~~ Not only does EGD accurately identify the site of bleeding in more than 95% cases of upper gastrointestinal hemorrhage, but also it provides prognostic information about the risk of rebleeding and offers a therapeutic potential.101,109 The precise role of endoscopic therapy in the management of clinically significant SRES hemorrhage is difficult to defineF9 primarily because of the diffuse nature of lesions in SRES, which do not lend themselves readily to endoscopic hemostasis.m If single lesions with active bleeding or stigmata of recent hemorrhage are identified, however, control of hemorrhage is successful in more than 90% of cases.=*lo9Diagnostic EGD is a safe and simple procedure with a morbidity of 1%and mortality of less than 0.1%.lloEGD should be performed within 24 hours in stable patients or as soon as volume status is optimized and any coagulopathy that might be present is corrected. Angiography. hgiography offers a useful diagnostic and therapeutic tool in managing SRESrelated hemorrhage, with vasopressin infusion and intra-arterial embolization being equally successful at controlling hemorrhage. SRES hemorrhage tends to occur from small vessels and multiple sites, and a sigzuficant portion of the stomach may be involved in the bleeding?O Of SRES hemorrhage, 95% emanates from the proximal stomach, with at least 85% of lesions supplied by the left gastric artery.94 Vasopressin, an intra-arterial vasoconstrictor, acts at the level of the

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small arterial branches and capillaries and was the modality of choice in the 1980~.~, 35, 56, 91 More recently, intra-arterial embolization has become more popular because of comparable success and lower complication 75, 132 Embolization is accomplished with small fragments of Gelfoam sponge or Gelfoam powder and may be effective in treating SRES hemorrhage in 67% of patients.ll*, Surgery. SRES hemorrhage ceases spontaneously in 95% of patients treated conservatively, and only approximately 5% experience massive SRES hemorrhage. Even among patients with major hemorrhage, 90% are controlled by a combination of pharmacotherapy, therapeutic EGD, and interventional angiography.lZ9,175 This efficacy, coupled with the lower incidence of SRES in the 1990s, renders surgical intervention rare in SRES management. Nevertheless, surgery continues to constitute an important component of the diagnostic and therapeutic armamentarium in treating refractory SRES bleeding. Indications for surgery in SRES hemorrhage include transfusion needs greater than 6 to 8 units of packed erythrocytes during 24 hours or persistent bleeding despite optimal endoscopic or angiographic therapy116The decision to opt for surgery must be individualized because the results of surgery are uniformly and mortality rates in most series approach 100%.128 Once surgery is elected, the approach of choice is a vagotomy with drainage, in combination with oversewing of individual bleeding sites." lZ9,lg9 Vagotomy is thought to reduce gastric mucosal perfusion and acid ~ecreti0n.l'~ Recurrent hemorrhage after this surgery occurs in 20% to 50% of patients,8s and a second operation is often contemplated. More extensive surgery of subtotal gastric resection with or without a vagotomy was not superior to the combination of vagotomy, drainage, and oversewing in a small case series.l16 Other approaches to this difficult problem include total gastrectomyS8and gastric devascularization, the latter involving ligation of the left and right gastric and gastroepiploic arteries, which can be attempted in cases in which SRES hemorrhage is diffuse.l16Gastric devascularization achieved complete initial control of bleeding in a small series (21 patients), with a mortality rate as low as 38%.'" After devascularization, a second-look procedure should be considered after 24 to 48 hours because of the great risk of gastric necrosis.116 Complications of Stress-Related Erosive Syndrome Nosocomial Pneumonia

The possibility of an increased risk of nosocomial pneumonia has hindered the use of acid-suppressive therapy in SRES. This notion stemmed from the gastric bacterial overgrowth that can occur within a few days in an alkaline intragastric milieu (pH >4). Higher gastric pH directly correlates with logarithmic increases in the concentration of gram-negative organisms in the gastric aspirate.= In contrast to antacids

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and H,-receptor antagonists, sucralfate does not significantly elevate gastric pH and is accordingly associated with less gastric bacterial overgrowth than the former drugs. Moreover, Tryba and othersB,lg3,lg8 have suggested sucralfate has antibacterial effects. A meta-analysis of trials by concluded that sucralfate causes significantly less nosocomial pneumonia than the other classes of drugs. Driks et alS showed a pneumonia rate of 12% with sucralfate, compared with a 23% incidence in patients receiving both H,-receptor antagonists and antacids. On stratification, however, antacids were associated with a 23% incidence of pneumonia, whereas the H,-receptor antagonists group had an incidence of only 5.9% (less than those receiving sucralfate). Further outcome studies are necessary before making definite conclusions regarding comparisons of sucralfate with antisecretory therapies.

MESENTERIC VASCULOPATHY

Acute mesenteric vasculopathy, formerly referred to as acute mesenteric ischemia, is associated with a high mortality despite sigruficant advances in understanding its pathophysiologic mechanisms, natural history, and therapy.l6tZ7 The common delay in diagnosis has devastating consequences on its morbidity and mortality rates.16 Nonocclusive mesenteric vasculopathy (NOMV) is a subset of mesenteric vasculopathy (Fig. 4) and accounts for a small proportion of gastrointestinal hemorrhage in the ICU. NOMV refers to mesenteric vasospasm occurring in the absence of arterial or venous occlusion that overcomes the normal autoregulatory mechanisms of intestinal perfusi0n.2~

NONOCCLUSIVE MESENTERIC VASCULOPATHY

Gastrointestinal hemorrhage is not the predominant symptom in NOMV and generally occurs as a small volume bleed. N O W should be considered whenever unexplained abdominal pain or gastrointestinal hemorrhage occurs in the presence of congestive heart failure, myocardial infarction, pulmonary edema, or hypovolemic shock ~tates.2~

Epidemiology Mesenteric vasculopathy accounts for 0.1% of hospital admissions,lS2 and NOMV accounts for 20% to 30% of episodes of acute mesenteric vasculopathy.92The incidence of NOMV seems to be declining, probably because of better hemodynamic monitoring, the greater use of vasodilator agents, and the diminished use of digitalis preparations.

c:

W

Retroperitoneal fibrosis

Neurofibromatosis

Median arcuate ligament syndrome

Embolus Thrombus Nonocclusive

/eriTbstructir

Acute

~

I

Acute

~

Fulminant

Partly reversible

Multivessel

chronic

Chmruc mesenmic ischemia

, Ischemic colitis

Colonic

Transiendreversible

Chronic

Venous obstruction

Superior mesenteric

/

(Inmnsic Cardiovascular Disease: thrombus. embolus. atherosclerosis, and vasosuasm)

PRIMARY ( INTESTINALVASCULOP.4THY)

Figure 4. Classification of mesenteric ischemia. (From Cappell MS: Intestinal (mesenteric) vasculopathy: I: Acute superior mesenteric arteriopathy and venopathy. Gastroenterol Clin North Am 27:783825, 1998; with permission.)

Volvulus

Surgical injury

Intestinal hernia

Cancer infiltrating mesentery

Carcinoid

Blunt injury

Adhesions

Vascular Trauma

Amy loidosis

I \

Bowel Strangulation

Extraintestinal vascular compression

/

(Extrinsic Vascular Compression)

SECONDARY

MESENTERIC ISCHEMIA

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Pathophysiology

NOMV is due primarily to mesenteric vasospasm, which in the absence of a thromboembolic cause, disrupts and overwhelms the homeostatic mechanisms involved in the autoregulation of intestinal perfusi0n.2~The vasospasm occurs predominantly as a reaction to mesenteric vasculature low-flow states resulting from systemic hypotension of any cause. Clinical Presentation History

Symptoms depend on the site, severity, and cause of N O W as well as the extent and degree of the collateral circulation. Comorbidities also play a role, with symptoms being masked in elderly confused, and critically ill individuals. The initial clinical presentation is usually subtle and nonspecific.&4Pain o c m s in only 75% to 85% of cases and is typically out of proportion to the physical findings.57,93 A history of postprandial pain is he1 ful, particularly when an acute event occurs in the setting of probable k o n i c mesenteric ischemia. Lower gastrointestinal bleeding can occur but is not the commonest presentation. Other symptoms include nausea, vomiting, abdominal distention, and diarrhea.27Hematochezia may occur when bowel infarction is imminent.137 Physical Findings

Physical findings are usually absent initially but become more prominent with increasing i~chemia.2~ They include fever, tachycardia, hypotension, hyperventilation, confusion, abdominal distention, tenderness, rigidity, rebound, and high-pitched or absent bowel s0unds.2~ Of individuals, 75% may have occult blood in the stool, but overt gastrointestinal 93 hemorrhage is less Diagnosis

A thorough history should be obtained, which must include careful questioning regarding vascular disease (coronary, cerebral, renal, or peripheral), use of vasoconstrictive drugs, previous thromboembolic disease, and vasculitis. The physical examination should include a careful abdominal inspection and a search for evidence of vascular disease in other organ systems. Although most initial diagnostic tests are nonspecific, the abdominal radiograph is helpful in excluding other abdominal disorders (obstruction, volvulus, perforation), and specific findings are ~ , ~most ~ useful tests are computed found in only about 25% of c a ~ e s .The tomography (CT) of the abdomen and mesenteric angiography. Abdomi-

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Table 1. COMPARISON OF THE ANGIOGRAPHIC FINDINGS ASSOCIATED WITH NONOCCLUSIVE INTESTINAL VASCULOPATHY AND THROMBOEMBOLIC DISEASE Type of Obstruction

Embolus

Thrombus

Nonocclusive

Location

Appearance

Other Findings

50% middle colic artery, 25% ileocolic artery, 15% SMA origin, 10% distal to ileocolic artery or distal SMA branches Characteristically at SMA orifice

Sharp, rounded filling defects (meniscus sign)

Poor contrast flow beyond obstruction, collaterals uncommon, minimal atherosclerosis, multiple lesions Collaterals common, extramesenteric atherosclerosis

Diffuse involvement at multiple sites of SMA and SMA branches

Extensive, irregular mesenteric obstruction, planar vascular defect from thrombus Alternating spasm and dilation (string-ofsausages sign), pruned arterial tree, spasm of mesenteric arcades, no embolus or thrombus

Slowed mesenteric flow, aortic reflux of contrast during injection, impaired intramural filling

SMA = Superior mesenteric artety. From Cappell M S Intestinal (mesenteric) vasculopathy: I. Acute superior mesenteric artheriopathy and venopathy. Gastroenterol Clin North Am 2778?4325,1998; with permission.)

nal CT is more helpful in diagnosing mesenteric venopathy and excluding other abdominal conditions. The CT findings in mesenteric arteriopathy are usually less specific, but CT can sometimes show mucosal thumbprinting or contrast enhancement of a thickened bowel wall segment.140 Mesenteric angiography represents the gold standard for diagnosing mesenteric arteriopathy and should be performed early if the diagnosis is suspected. Angiography can define the site of occlusion and help distinguish between NOMV and arterial or venous thromboembolic phenomena (Table 1). Arterial vasospasm is associated with specific arteriographic findings, including pruning of the arterial tree and impaired intramural vascular filling.36,92 Less useful tests in the diagnosis of NOMV include EGD and colonoscopy, which may be useful in localizing a bleeding site once hemorrhage occurs. Therapy General Measures

Once NOMV is diagnosed as the cause of gastrointestinal hemorrhage, therapy is predominantly supportive. Intravascular volume replacement should be aggressive, and potentially exacerbating factors, such as congestive heart failure and arrhythmia, should be treated.

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Vasoconstrictive medications should be discontinued and broad-spectrum antibiotics started if bacterial sepsis or translocation is suspected. Fluid balance should be monitored carefully, oxygen supplementation instituted, and anemia c0rrected.2~ Specific Measures

Treatment of the underlying cause is the most effective therapy in NOMV. Systemic vasodilator therapy via the angiographic catheter is effective in reversing mesenteric vasodpasm and helping to minimize or prevent further bowel ischemia and infarction. Success may also be judged clinically with diminution of abdominal pain or other symptoms, reduced abdominal signs, and improvement in laboratory parameter^.^^ If no improvement is seen clinically or angiographically or if the clinical findings become worse, urgent exploratory laparotomy is indicated with resection of compromised or infarcted bowel. Vasodilator therapy may be used postoperatively to prevent further vasospasm and improve bowel perfusion. SUMMARY

Although SRES-associatedhemorrhage previously constituted a significant cause of bleeding in the ICU, improvements in ICU management and the institution of prophylactic measures in high-risk patients have sigdicantly reduced SRESassociated hemorrhage since the 1980s. Antacids, Hz-receptor antagonists, and sucralfate have been shown to be effective in preventing clinically sigruficant bleeding resulting from SRES, particularly when the intragastric pH is maintained at greater than 4. A selective approach should be adopted in SRES prophylaxis: Patients on mechanical ventilation, with coagulopathy, or with two of the other known risk factors should receive pro phyla xi^.'^ Although the drug of choice depends to some extent on local preferences, an Hzreceptor antagonist by continuous intravenous infusion may represent the best option. No pharmacologic therapy is of proven value3 once hemorrhage begins, but the current interventional techniques are eff ective in controlling hemorrhage. Gastrointestinal bleeding from NOMV has become less common with improvements in the hemodynamic monitorin of critically ill patients, but this disease must always be considered w en lower gastrointestinal bleeding occurs in the context of relative hypoperfusion. For SRES and NOMV, treatment of the underlying disease or diseases is the optimal route to prevention.

a

References 1. Alijani MR, Benjamin SB, Collen MJ, et ak Msoprostol: A prostaglandin E l analogue versus antacid in the prevention of stress ulcers in kidney transplant patients. Transplant Proc 21:21452146, 1989

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2. Allen A, Flemstrom G, Gamer A, et ak Gastroduodenal mucosal protection. Physiol Rev 73S23-857,1993 3. Arvidsson S,Falt K, Marklund S, et ak Role of free oxygen radicals in the development of gastrointestinalmucosal damage in Escherichia coli sepsis. Circulatory Shock 16:383393,1985 4. Arvidsson S, Haglund U Acute gastric ulceration in septic shock: An experimental model. Scand J Gastroenterol 105(suppl):46-49, 1984 5. Athanasoulis CA: Therapeutic applications of angiography (first of two parts). N Engl J Med 302:1117-1125,1980 6. Baghaie AA,Mojtahedzadeh M, Levine RL, et ak Comparison of the effect of intermittent administration and continuous infusion of famotidine on gastric pH in critically ill patienk Results of a prospective, randomized, crossover study. Crit Care Med B687-691, 1995 7. Baker S R The abdominal plain film: What will be its role in the future? Radio1 Clin North Am 31:1335-1344,1993 8. Ballesteros MA,Hogan DL, Koss MA, et al: Bolus or intravenous infusion of ranitidine: Effects on gastric pH and acid secretion: A comparison of relative efficacy and cost. Ann Intern Med 112334-339,1990 9. Bank S Stress ulcers-prevention of gastrointestinal bleeding in Critical care units. Med J Aust 142S17-20, 1985 10. Barie PS, Hariri RJ: Therapeutic use of omeprazole for refractory stress-induced gastric mucosal hemorrhage [see comments]. Crit Care Med 20899-901,1992 11. Basso N, Bagarani M, Materia A, et ak Cimetidine and antacid prophylaxis of acute upper gastrointestinal bleeding in high risk patients: Controlled, randomized trial. Am J Surg 141:339-341,1981 12. Baue AE, Durham R, Faist E: Systemic inflammatory response syndrome (SIRS), multiple organ dysfunction syndrome (MODS), multiple organ failure (MOF): Are we winnin the baffle? Shock 107949,1998 13. Ben-MenaAem T, Fogel R, Pate1 RV, et ak Prophylaxis for stress-related gastric hemorrhage in the medical intensive care unit: A randomized, controlled, singleblind study [see comments]. Ann Intern Med 121:568-575,1994 14. Bhatti N, Amoateng-Adjepong Y, Qamar A, et ak Myocardial infarction in critically ill patients present@ with gastrointestinalhemorrhage: retrospective analysis of risks and outcomes. Chest 114:1137-1142, 1998 15. Bobek MB,Arroliga AC Stress ulcer prophylaxis: The case for a selective approach. Cleve Clin J Med 64:533-542,1997 16. Boley SJ, Brandt LJ, Sammartano RJ: History of mesenteric ischemia: The evolution of a diagnosis and management. Surg Clin North Am 77275288,1997 17. Borrero E, Ciervo J, Chang JB: Antacid vs sucralfate in preventing acute gastrointestinal tract bleeding in abdominal aortic surgery: A randomized trial in 50 patients. Arch Surg 121:810-812,1986 18. Borrero E, Margolis IB, Bank S, et al: Antacid versus sucralfate in preventing acute gastrointestinalbleeding: A randomized trial in 100 critically ill patients. Am J Surg 148:809-812,1984 19. Bowen JC, Fleming WH, Thompson JC Increased gastrin release following penetrating central nervous system injury. Surgery 75720-724,1974 20. Bracy W,Peterson W Medical therapy of nonvariceal upper gastrointestinal hemorrhage. In Taylor M (ed): Gastrointestinal Emergencies, ed 2. Baltimore, Williams & Wilkins, 1997, pp 151-162 21. Bresalier Rs: The clinical sigruficance and pathophysiology of stress-related gastric mucosal hemorrhage. J Clin Gastroenterol 13:%5-43,1991 22. Bresalier RS, Grendell JH, Cello JP,et ak Sucralfate suspension versus titrated antacid for the prevention of acute stress-related gastrointestinal hemorrhage in critically ill patients. Am J Med 83:110-116,1987 23. Brunner GH, Thiesemann C The potential clinical role of intravenous omeprazole. Digestion 51:17-20, 1992 24. Byrne JJ,Guardione V A Surgical treatment of stress ulcers. Am J Surg 1-464467, 1973

330

BEEJAY & WOLFE

25. Caldwell MT, Stuart RC, Byrne PJ, et ak Microvascular changes in experimental gastric stress ulceration: The influence of allopurinol, cimetidine, and misoprostol. J Surg Res 55135-139, 1993 26. Cantu TG, Korek JSCentral nervous system reactions to histamine-2 receptor blockers [see comments]. Ann Intern Med 1141027-1034, 1991 27. Cappell MS Intestinal (mesenteric) vasculopathy: I. Acute superior mesenteric arteriopathy and venopathy. Gastroenterol Clin North Am 27783425,1998 28. Castera L, Pauwels A, Levy VG: [Prognostic indicators in patients with liver cirrhosis admitted to an intensive care unit]. Gastroenterol Clin Biol20263-268, 1996 29. Chamberlain CE: Acute hemorrhagic gastritis. Gastroenterol Clin North Am 2 8 4 3 873, 1993 30. Cheung LY: Treatment of established stress ulcer disease. World J Surg 5235-240,1981 31. Cheung LY: Gastric mucosal blood flow: Its measurement and importance in mucosal defense mechanisms. J Surg Res 36282-288,1984 32. Cheung LY, Ashley SW Gastric blood flow and mucosal defense mechanisms. Clin Invest Med 10201-208,1987 33. Cheung LY, Porterfield G Protection of gastric mucosa against acute ulceration by intravenous infusion of sodium bicarbonate. Am J Surg 137106-110, 1979 34. Clain JE, Malagelada JR, Chadwick VS, et al: Binding properties in vitro of antacids for conjugated bile acids. Gastroenterology 73:556-559, 1977 35. Clark RA, Colley DP, Eggers FM:Acute arterial gastrointestinalhemorrhage: Efficacy of transcatheter control. AJR Am J Roentgenol 136:1185-1189, 1981 36. Clark RA, Gallant TE: Acute mesenteric ischemia: Angiographic spectrum. AJR Am J Roentgenol 142:555-562, 1984 37. Collier DS, Crampton J, Everett WG: Acute haemorrhagic gastritis controlled by omeprazole [letter]. Lancet 1:776, 1989 38. Collins R, Langman M Treatment with histamine H2 antagonists in acute upper gastrointestinalhemorrhage: Implications of randomized trials. N Engl J Med 313660666, 1985 39. Cook DJ: Stress ulcer prophylaxis: Gastrointestinalbleeding and nosocomial pneumonia: Best evidence synthesis. %and J Gastroenterol21O(suppl):48-52, 1995 40. Cook DJ, Fuller HD, Guyatt GH, et ak Risk factors for gastrointestinal bleeding in critically ill patients. Canadian Critical Care Trials Group [see comments]. N Engl J Med 330377-381,1994 41. Cook DJ, Kollef MH: Risk factors for ICU-acquired pneumonia. JAMA 27916051606, 1998 42. Cook DJ, Reeve BK, Guyatt GH, et ak Stress ulcer prophylaxis in critically ill patients: Resolving discordant meta-analyses [see comments]. JAMA 275308-314,1996 43. Cook DJ, Walter SD, Cook RJ, et ak Inadence of and risk factors for ventilatorassociated pneumonia in critically ill patients. Ann Intern Med 129433440,1998 44. Crowson M, Fielding JW,Black J, et al: Acute gastrointestinal complications of infrarenal aortic aneurysm repair. Br J Surg 71:825-828,1984 45. Curtis LE, Simonian S, Buerk CA, et ak Evaluation of the effectiveness of controlled pH in management of massive upper gastrointestinal bleeding. Am J Surg 1253474476, 1973 46. Czaja AJ, McAlhany JC, Pruitt BA Jr: Acute gastroduodenal disease after thermal injury: An endoscopic evaluation of incidence and natural history. N Engl J Med 291:9&929, 1974 47. Das D, Bandyopadhyay D, Bhattacharjee M, et ak Hydroxyl radical is the major causative factor in stress-inducedgastric ulceration. Free Radic Biol Med 23:8-18,1997 48. Daschner F, Kappstein I, Engels I, et ak Stress ulcer prophylaxis and ventilation pneumonia: Prevention by antibacterial cytoprotective agents? Infect Control Hosp Epidemiol959-65, 1988 49. Dawson J, Cockel R Ranitidine in acute upper gastrointestinalhaemorrhage. Br Med J 2a476-477, 1982 50. DePriest JL: Stress ulcer prophylaxis: Do critically ill patients need it? [published erratum appears in Postgrad Med 1997 Jan;101(1):36]. Postgrad Med 98155161, 165-166, 168,1995 51. Demda S, Nury B, Slama R, et ak Occult gastrointestinal bleeding in high-risk

ACUTE GASTROINTESTINAL BLEEDING IN THE INTENSIVE CARE UNIT

331

intensive care unit patients receiving antacid prophylaxis: Frequency and significance. Crit Care Med 17122-125, 1989 52. Domschke W, Hagel J, Ruppin H, et al: Antacid protection of gastric mucosa. Klin Wochenschrift 6428-31, 1986 53. Driks MR, Craven DE, Celli BR, et al: Nosocomial pneumonia in intubated patients given sucralfate as compared with antacids or histamine type 2 blockers: The role of gastric colonization. N Engl J Med 3171376-1382,1987 54. du Moulin GC, Paterson DG, Hedley-Whyte J, et al: Aspiration of gastric bacteria in antacid-treated patients: A frequent cause of postoperative colonisation of the airway. Lancet 1242-245, 1982 55. Dzienis H, Gronbech JE, Varhaug JE, et al: Regional blood flow and acid secretion associated with damage and restitution of the gastric surface epithelium in cats. Eur Surg Res 19:98-112, 1987 56. Eckstein MR, Kelemouridis V, Athanasoulis CA, et al: Gastric bleeding: Therapy with intraarterial vasopressin and transcatheter embolization. Radiology 152643-646, 1984 57. Eldrup-Jorgensen J, Hawkins RE, Bredenberg CE: Abdominal vascular catastrophes. Surg Clin North Am 771305-1320,1997 58. Ephgrave K, Horton JW, Bums D K Hyperosmolar glucose prevents stress ulceration in the rat restraint model despite inhibition of endogenous prostaglandins. Surg Gynecol Obstet 164:9-16, 1987 59. Ephgrave KS, Brasel KJ, Cullen JJ, et al: Gastric mucosal protection from enteral nutrients: Role of motility. J Am Coll Surg 18643p440, 1998 60. Ephgrave KS, Horton J, Bums D: Dimethyl-prostaglandin E2 prevents stress ulceration with minimal complications. Crit Care Med 1753-57,1989 61. Feron B, Adair CG, Gorman SP, et al: Interaction of sucralfate with antibiotics used for selective decontamination of the gastrointestinal tract. Am J Hosp Pharm 50:2550-2553, 1993 62. Fiddian-Green RG: Gastric intramucosal pH, tissue oxygenation and acid-base balance [see comments]. Br J Anaesth 74591-606, 1995 63. Fiddian-Green RG, McGough E, Pittenger G, et al: Predictive value of intramural pH and other risk factors for massive bleeding from stress ulceration. Gastroenterology 85613-620, 1983 64. Fischer RP, Stremple JF: Stress ulcers in post-traumatic renal insufficiency in patients from Vietnam. Surg Gynecol Obstet 134790-794, 1972 65. Fisher RL, Pipkin GA, Wood J R Stress-related mucosal disease: Pathophysiology, prevention, and treatment. Crit Care Clin 11:323-345, 1995 66. Fitton A, Wiseman L: Pantoprazole: A review of its pharmacological properties and therapeutic use in acid-related disorders [published errata appear in Drugs 1996 Jun;51(6):1074 and 1996 Ju1;52(1):92]. Drugs 51:460-482, 1996 67. Flemstrom G, Tumberg LA: Gastroduodenal defence mechanisms. Clin Gastroenterol 13:327-354, 1984 68. Flynn R, Stuart RC, Gorey TF, et a1 Stress ulceration and gastric mucosal cell kinetics: The influence of prophylaxis against acute stress ulceration. J Surg Res 55:188-192, 1993 69. Fogelman MJ, Garvey J M Acute gastroduodenal ulceration incident to surgery and disease: Analysis and review of eighty-eight cases. Am J Surg lL2651-656, 1966 70. Fromm D: Drug-induced gastric mucosal injury. World J Surg 5:199-208, 1981 71. Gannon B, Browning J, OBrien P: The microvascular architecture of the glandular mucosa of rat stomach. J Anat 135:667-683, 1982 72. Geus WP, Lamers CB: Prevention of stress ulcer bleeding: A review. Scand J Gastroenterol 178(suppl):3241, 1990 73. Geus WP, Vinks AA, Smith SJ, et al: Comparison of two intravenous ranitidine regimens in a homogeneous population of intensive care unit patients. Aliment Pharmacol Ther 7451457, 1993 74. Goldin GF, Peura DA: Stress-related mucosal damage: What to do or not to do. Gastrointest Endosc Clin N Am 6:505-526, 1996 75. Gomes AS, Lois JF, McCoy RD: Angiographic treatment of gastrointestinal hemorrhage: Comparison of vasopressin infusion and embolization. AJR Am J Roentgen01 1461031-1037, 1986

332

BEEJAY & WOLFE

76. Gonzalez ER, Morkunas AR: Prophylaxis of stress ulcers: Antacid titration vs. histamine2-receptor blockade. Drug Intell Clin Pharm 19807-811,1985 77. Goodman AA, Frey CF: Massive upper gastrointestinal hemorrhage following surgical operations. Ann Surg 167180-184,1968 78. Groeger JS, Dazza SJ, Carlon GC, et al: Prostaglandin therapy in a case of refractory stress ulcer bleeding. Crit Care Med 10486-487, 1982 79. Guttu K, Sorbye H, Gislason H, et al: Role of bicarbonate in blood flow-mediated protection and repair of damaged gastric mucosa in the cat. Gastroenterology 10714% 159, 1994 80. Haglund U. Stress ulcers. S a n d J Gastroenterol175(suppl):27-33,1990 81. Haglund LJ, Abe T, Ahren C, et al: The intestinal mucosal lesions in shock: I. Studies on the pathogenesis. Eur Surg Res 8435447,1976 82. Harjola W, Sivula A Gastric ulceration following experimentally induced hypoxia and hemorrhagic shock. In vivo study of pathogenesis in rabbits. Ann Surg 163:2128, 1966 83. Hastings PR, Skillman JJ, Bushnell LS, et ak Antacid titration in the prevention of acute gastrointestinal bleeding: A controlled, randomized trial in 100 critically ill patients. N Engl J Med 2981041-1045,1978 84. Heys SD, Brittenden J, Crofts TJ: Acute mesenteric ischaemia: The continuing difficulty in early diagnosis. Postgrad Med J 6948-51, 1993 85. Hillman K Acute stress ulceration. Anaesth Intensive Care 13230-240,1985 86. Hollander D, Tamawski A: The protective and therapeutic mechanisms of sucralfate. Scand J Gastroenterol 173(suppl):1-5, 1990 87. Hollander D, Tamawski A, Gergely H, et ak Sucralfate protection of the gastric mucosa against ethanol-induced injury: A prostaglandin-mediated process? Scand J Gastrcenterol 101(suppl):97-102, 1984 88. Hubert JPJr, Kieman PD, Welch JS, et ak The surgical management of bleeding stress ulcers. Ann Surg 191:672479, 1980 89. Idjadi F, Robbins R, Stahl WM, et al: Prospective study of gastric secretion in stressed patients with intracranial injury. J Trauma 11:681-688,1971 90. Johnsrude IS, Jackson DC The role of the radiologist in acute gastrointestinal bleeding. Gastrointest Radio1 3:357-368, 1978 91. Kadir S, Emst CB:Current concepts in angiographic management of gastrointestinal bleeding. Cum Probl Surg 20281-343, 1983 92. Kaleya RN, Boley SJ: Acute mesenteric ischemia. Crit Care Clin 11:479-512, 1995 93. Kaleya RN, Sammartano RJ, Boley SJ: Aggressive approach to acute mesenteric ischemia. Surg Clin North Am 72157-182, 1992 94. Kelemouridis V, Athanasoulis CA, Waltman AC Gastric bleeding sites: An angiographic study. Radiology 149:643448,1983 95. Kitamura N, Hirasawa H [Stress ulceration related bleeding (SURB) in intensive care unit]. Nippon Rinsho 56:2396-2400, 1998 96. Kivilaakso E, F r o m D, Silen W. Relationship between ulceration and intramural pH of gastric mucosa during hemorrhagic shock. Surgery M70-78, 1978 97. Kivilaakso E, Kiviluoto T, Mustonen H, et al: Gastric mucosal acid-base balance. J Intern Med 732(suppl):63-68, 1990 98. Knight A, Bihari D, Tinker J: Stress ulceration in the critically ill patient. Br J Hosp Med 33216-219, 1985 99. Korman MG, Bolin TD, Szabo S, et ak Sucralfate: The Bangkok review. J Gastroenterol Hepatol9412-415, 1994 100. Laggner AN, Lenz K. [Prevention of stress ulcer in intensive care patients]. Wien Med Wochenschr 136596-599, 1986 101. Laine L Acute and chronic gastrointestinalbleeding. In Feldman M, Scharschmidt B, Sleisenger M (eds): Sleisenger and Fordtran’s Gastrointestinal and Liver Disease: Pathophysiology/ Diagnosis/ Management, ed 6. Philadelphia, WB Saunders, 1998, pp 198-219 102. Lam SK Hypergastrinaemiain cirrhosis of liver. Gut 17700-708, 1976 103. Langhy HD,Wilde MI: Lansoprazole: An update of its pharmacological properties and clinical efficacyin the management of aad-related disorders. Drugs W473-500, 1997

ACUTE GASTROINTESTINAL BLEEDING IN THE INTENSIVE CARE UNIT

333

104. Lasky MR, Metzler MH, Phillips J O A prospective study of omeprazole suspension to prevent clinically significant gastrointestinal bleeding from stress ulcers in mechanically ventilated trauma patients. J Trauma 44:527-533, 1998 105. Lehto P, Kivisto KT: Effect of sucralfate on absorption of norfloxacin and ofloxacin. Antimicrob Agents Chemother 38:24%251, 1994 106. Levine B A Pathophysiology and mechanisms of stress ulcer injury. Pharmacotherapy 790S-94S, 1987 107. Levine RS, Steinberg W M Antacids. In Wolfe MM (eds): Gastrointestinal Pharmacotherapy. Philadelphia, WB Saunders, 1993, pp 2 5 4 5 108. Levy MJ, Seelig CB, Robinson NJ, et al: Comparison of omeprazole and ranitidine for stress ulcer prophylaxis. Dig Dis Sci 421255-1259, 1997 109. Lichtenstein D: Approach to the patient with acute upper gastrointestinal hemorrhage. In Taylor M (ed): Gastrointestinal Emergencies, ed 2. Baltimore, Williams & Wilkins, 1997, pp 99-130 110. Lichtenstein D: Management of nonvariceal upper gastrointestinal hemorrhage. In Wolfe M (ed): Therapy of Digestive Disorders: A Companion to Sleisenger and Fordtran’s Gastrointestinal and Liver Disease. Philadelphia, WB Saunders, 1999 111. Lichtenstein DR, Wolfe MM: Histamine H2-receptor antagonists. In Wolfe MM (ed): Gastrointestinal Pharmacotherapy. Philadelphia, WB Saunders, 1993, pp 47-84 112. Lieberman DA, Keller FS, Katon RM, et al: Arterial embolization for massive upper gastrointestinal tract bleeding in poor surgical candidates. Gastroenterology 86:876885, 1984 113. Lucas CE: Stress ulceration: The clinical problem. World J Surg 5139-151, 1981 114. Lucas CE, Sugawa C, Riddle J, et a1 Natural history and surgical dilemma of ”stress” gastric bleeding. Arch Surg 102266-273, 1971 115. Mabogunje OA, Andrassy RJ, Isaacs H Jr, et al: The role of a defined formula diet in the prevention of stress-induced gastric mucosal injury in the rat. J Pediatr Surg 161036-1039, 1981 116. Maier RV, Mitchell D, Gentile110 L Optimal therapy for stress gastritis. Ann Surg 220:35>363, 1994 117. Mancinelli S, de la Fuente G, Manriquez V, et al: [The etiopathogenesis of the acute stress ulcer: The role of oxygen free radicals]. Rev Med Chi1 118:965-970, 1990 118. Marrone GC, Silen W Pathogenesis, diagnosis and treatment of acute gastric mucosal lesions. Clin Gastroenterol 13:635650, 1984 119. Martin LF: Stress ulcers are common after aortic surgery: Endoscopic evaluation of prophylactic therapy. Am Surg 60169-174, 1994 120. Martin LF, Booth FV, Reines HD, et al: Stress ulcers and organ failure in intubated patients in surgical intensive care units. Ann Surg 215:332-337, 1992 121. Martin LF, Larson GM, Fry DE: Bleeding from stress gastritis: Has prophylactic pH control made a difference? Am Surg 51389-193, 1985 122. Maton PN, Jensen RT: H +/K+-ATPase inhibitors, anticholinergic agents, antidepressants, and gastrin receptor antagonists as gastric acid antisecretory agents. In Wolfe MM (ed): Gastrointestinal Pharmacotherapy. Philadelphia, WB Saunders, 1993, pp 85112 123. Matthews J, Silen W Surgical therapy of upper gastrointestinal hemorrhage. In Taylor M (ed): Gastrointestinal Emergencies, ed 2. Baltimore, Williams & Wilkins, 1997, pp 199-208 124. McAlhany JC Jr, Colmic L, Czaja AJ, et al: Antacid control of complications from acute gastroduodenal disease after bums. J Trauma 16:645-648, 1976 125. McCarthy DM: Sucralfate. N Engl J Med 325:1017-1025, 1991 126. Miller TA Protective effects of prostaglandins against gastric mucosal damage: Current knowledge and proposed mechanisms. Am J Physiol245:G601-623, 1983 127. Miller TA Mechanisms of stress-related mucosal damage. Am J Med 83%-14, 1987 128. Miller TA, Tomwall MS, Moody FG: Stress erosive gastritis. Curr Frob1 Surg 28453509, 1991 129. Moody FG, Cheung LY Stress ulcers: Their pathogenesis, diagnosis, and treatment. Surg Clin North Am 561469-1478, 1976 130. Moody FG, Zalewsky CA, Larsen KR: Cytoprotection of the gastric epithelium. World J Surg 5:153-163, 1981

334

BEEJAY & WOLFE

131. Moore FA, Moore E E The benefits of enteric feeding. Adv Surg 30141-154, 1996 132. Morris DC, Nichols DM, Connell DG, et al: Embolization of the left gastric artery in the absence of angiographic extravasation. Cardiovasc Intervent Radiol 9195-198, 1986 133. Navab F, Steingrub J: Stress ulcer: Is routine prophylaxis necessary? Am J Gastroenterol90:708-712, 1995 134. Norton L, Greer J, Eiseman B: Gastric secretory response to head injury. Arch Surg 101:20&204, 1970 135. Ostro MJ, Russell JA, Soldin SJ, et al: Control of gastric pH with cimetidine: Boluses versus primed infusions. Gastroenterology 89532-537, 1985 t hY, Kitajima M, Sugiyama M, et ak Inhibitory effects of intravenous lansoprazole 136. 0 on gastric acid hypersecretion in patients with postoperative stress. J Clin Gastroenterol 20:S22-26, 1995 137. Ottinger LW The surgical management of acute occlusion of the superior mesenteric artery. Ann Surg 188:721-731, 1978 138. Pai S, Melethil S, Cuddy P, et al: Elevation of serum aluminum in humans on a twoday sucralfate regimen. J Clin Pharmacol27:213-215, 1987 139. Park PO, Haglund U Regeneration of small bowel mucosa after intestinal ischemia [see comments]. Crit Care Med 20135-139, 1992 140. Perez C, Llauger J, Puig J, et al: Computed tomographic findings in bowel ischemia. Gastrointest Radiol 14241-245,1989 141. Peura DA, Johnson L F Cimetidine for prevention and treatment of gastroduodenal mucosal lesions in patients in an intensive care unit. Ann Intern Med 103:17%177, 1985 142. Phillips JO, Metzler MH, Palmieri MT, et ak A prospective study of simplified omeprazole suspension for the prophylaxis of stress-related mucosal damage. Crit Care Med 24179%1800,1996 143. Pignatelli M Modulation of cell adhesion during epithelial restitution in the gastrointestinal tract. Yale J Biol Med 69131-135, 1996 144. Pingleton SK Enteral nutrition and infection in the intensive care unit. Semin Respir Infect 5:185-190, 1990 145. Pinilla JC, Oleniuk FH, Reed D, et ak Does antacid prophylaxis prevent upper gastrointestinalbleeding in critically ill patients? Crit Care Med 13:646-650, 1985 146. Prakash A, Faulds D Rabeprazole. Drugs 55:261-268, 1998 147. Priebe I-lJ, Skillman JJ,Bushnell LS, et al: Antacid versus cimetidine in preventing acute gastrointestinalbleeding: A randomized trial in 75 critically ill patients. N Engl J Med 302426430, 1980 148. Pruitt BA Jr, Foley FD, Moncrief JA: Curling's ulcer: A clinical-pathology study of 323 cases. Ann Surg 172523-539, 1970 149. Pruitt BA Jr, Good& CW Jr: Stress ulcer disease in the burned patient. World J Surg 5209-222, 1981 150. Raff T, Germann G, Hartmann B: The value of early enteral nutrition in the prophylaxis of stress ulceration in the severely burned patient. Bums 23:313-318,1997 151. Rauch H, Fleischer F, Bohrer H, et a1 Serum aluminum levels of intensive care patients treated with two different antacids for prevention of stress ulceration. Intensive Care Med 1584-86,1989 152. Rees M, Bowen J C Stress ulcers during live Escherichia coli sepsis: The role of acid and bile. Ann Surg 195646452, 1982 153. Reines HD: Do we need stress ulcer prophylaxis? [editorial]. Crit Care Med 18344, 1990 154. Richardson JD,Aust JB: Gastric devascularization: A useful salvage procedure for massive hemorrhagic gastritis. Ann Surg 185649455,197 155. Richardson P, Hawkey CJ, Stack WA Proton pump inhibitors: Pharmacology and rationale for use in gastrointestinal disorders. Drugs 56307-335, 1998 156. Ritchie WP Jr: Acute gastric mucosal damage induced by bile salts, acid, and ischemia. Gastroenterology 68699-707, 1975 157. Ritchie WP Jr: Role of bile acid reflux in acute hemorrhagic gastritis. World J Surg 5389-198, 1981

ACUTE GASTROINTESTINAL BLEEDING IN THE INTENSIVE CARE UNIT

335

158. Ritchie WP Jr: Other causes of GI mucosal injury: Upper intestinal content. Clin Invest Med 10:264-269, 1987 159. Ritchie WP Jr, Mercer D: Mediators of bile acid-induced alterations in gastric mucosal blood flow. Am J Surg 161:126130, 1991 160. Robbins R, Idjadi F, Stahl WM, et al: Studies of gastric secretion in stressed patients. Ann Surg 175:555-562, 1972 161. Robert A Cytoprotection by prostaglandins. Gastroenterology 77761-767, 1979 162. Robert A Cytoprotection of the gastrointestinal mucosa. Adv Intern Med 28:325337, 1983 163. Robert A, Nezamis JE, Lancaster C, et al: Cytoprotection by prostaglandins in rats:

Prevention of gastric necrosis produced by alcohol, HC1, NaOH, hypertonic NaCl, and thermal injury. Gastroenterology 77:43%%43, 1979 164. Robertson JA, Salusky IB, Goodman WG, et al: Sucralfate, intestinal aluminum absorption, and aluminum toxicity in a patient on dialysis. Ann Intern Med 111:179181, 1989 165. Rosch J, Keller FS, Kozak B, et al: Gelfoam powder embolization of the left gastric artery in treatment of massive small-vessel gastric bleeding. Radiology 151:365-370, 1984 166. Ruiz-Santana S, Ortiz E, Gonzalez B, et al: Stress-induced gastroduodenal lesions and total parenteral nutrition in critically ill patients: Frequency, complications, and the

value of prophylactic treatment: A prospective, randomized study. Crit Care Med 19S87-891, 1991 167. Salim A S Use of scavenging oxygen-derived free radicals to protect the rat against aspirin- and ethanol-induced erosive gastritis. J Pharm Sci 81:943-946, 1992 168. Schiessel R, Feil W, Wenzl E: Mechanisms of stress ulceration and implications for treatment. Gastroenterol Clin North Am 19301-120, 1990 169. Schuster DP, Rowley H, Feinstein S, et al: Prospective evaluation of the risk of upper

gastrointestinal bleeding after admission to a medical intensive care unit. Am J Med 76:623-630, 1984 170. Schwappach JR, Wood JG, Cheung LY Superoxide dismutase attenuates effects of platelet-activating factor on gastric microcirculation. J Surg Res 59:733-738, 1995 171. Schwarz K Ueber penetrierendo magen- und jejunalgeschwure. Beitr Klin Chir 6 7 9 6 128, 1910 172. Semb BK, Schjonsby H, Solhaug JH: Intravenous infusion of vasopressin in the treatment of bleeding from severe hemorrhagic gastritis. Acta Chir Scand 149:579583, 1983 173. Shoemaker WC, Bland RD, Appel PL: Therapy of critically ill postoperative patients based on outcome prediction and prospective clinical trials. Surg Clin North Am 652311433, 1985 174. Shuman RB, Schuster DP, Zuckerman G R Prophylactic therapy for stress ulcer bleeding: A reappraisal. Ann Intern Med 106:562-567, 1987 175. Silen W The prevention and management of stress ulcers. Hosp Pract 15:93-100,1980 176. Silen W Pathogenetic factors in erosive gastritis. Am J Med 79:4M8, 1985 177. Silen W, Merhav A, Simson JN: The pathophysiology of stress ulcer disease. World J Surg 5365-174, 1981 178. Skillman JJ, Gould SA, Chung RS, et al: The gastric mucosal barrier: Clinical and

experimental studies in critically ill and normal man, and in the rabbit. Ann Surg 172566584, 1970 179. Skillman JJ, Silen W Stress ulceration in the acutely ill. Ann Rev Med 279-22, 1976 180. Smith P, OBrien P, Fromm D, et al: Secretory state of gastric mucosa and resistance to injury by exogenous acid. Am J Surg 133:81-85, 1977 181. Smythe MA, Zarowitz BJ: Changing perspectives of stress gastritis prophylaxis. Ann Pharmacother 28:1073-1085, 1994 182. Stoney RJ, Cunningham CG: Acute mesenteric ischemia. Surgery 114:489490, 1993 183. Szabo S: Mechanisms of gastric mucosal injury and protection. J Clin Gastroenterol 13:S21-34, 1991 184. Szabo S, Vincze A, Sandor Z, et al: Vascular approach to gastroduodenal ulceration: New studies with endothelins and VEGF. Dig Dis Sci 43:40%5S, 1998

336

BEEJAY & WOLFE

185. Tarnawski A, Hollander D, Gergely H The mechanism of protective, therapeutic and prophylactic actions of sucralfate. Scand J Gastroenterol 140(suppl):7-13, 1987 186. Teorell T: Electrolyte diffusion in relation to the acidity regulation of the gastric juice. Gastroenterology 54(suppl):706-708, 1968 187. Thompson JC, Walker JP:Indications for the use of parented H2-receptor antagonists. Am J Med 77:111-115,1984 188. Tryba M Risk of acute stress bleeding and nosocomial pneumonia in ventilated intensive care unit patients: Sucralfate versus antacids. Am J Med 83:117-124,1987 189. Tryba M Prophylaxis of stress ulcer bleeding: A meta-analysis. J Clin Gastroenterol 13:S44-55,1991 190. Tryba M [Stress bleeding: 1. Pathogenesis, clinical picture and therapy]. haesthesist 43:821-834,1994 191. Tryba M [Prevention of stress ulcer in intensive care patients-pro]. Anasthesiol Intensivmed Notfallmed Schmerzther 30509-510, 1995 192. Tryba M, Cook D: Current guidelines on stress ulcer prophylaxis. Drugs X581-596, 1997 193. Tryba M, Mantey-Stiers F Antibacterial activity of sucralfate in human gastric juice. Am J Med 83125127,1987 194. Tryba M, May B: Conservative treatment of stress ulcer bleeding: A new approach. %and J Gastroenterol 191(suppl):16-24, 1992 195. Tdassay Z,Bodnar A, Farkas I, et ak Somatostatin versus semtin in the treatment of actively bleeding gastric erosions. Digestion 51:211-216, 1992 196. van Essen HA, van Blankenstein M, Wilson JJ3,et ak Intragastric prostaglandin E2 and the prevention of gastrointestinal hemorrhage in ICU patients. Crit Care Med 13957-960, 1985 197. Weiss JB,Peskin GW, Isenberg JI: Treatment of hemorrhagic gastritis with 15(R)-15 methyl prostaglandin E2 Report of a case. Gastroenterology 82558-560, 1982 198. West AP, Abdul S, Sherratt MJ, et ak Antibacterial activity of sucralfate against Escherichia coli, Staphylococcus aureus and Pseudornonas aeruginosa in batch and continuous culture. Eur J Clin Microbiol Me& Dis 12869471,1993 199. Wilson WS, Gadacz T, Olcott CD, et ak Superficial gastric erosions: Response to surgical treatment. Am J Surg 126133-140,1973 200. Wolfe M Stress-related erosive syndrome. In Bayless T (eds): Current Therapy in Gastroenterology and Liver Disease, ed 4.St. Louis, Mosby-Year Book, 1994 201. Yoshida YM, Peura D: Gastroduodenal mucosal protection. In Wolfe M (eds): Gastrointestinal Pharmacotherapy. Philadelphia, WB Saunders, 1993, pp 113-137 202. Zandstra DF, Stoutenbeek CP: The virtual absence of stress-ulceration related bleeding in ICU patients receiving prolonged mechanical ventilation without any prophylaxis: A prospective cohort study. Intensive Care Med 20:335-340,1994 203. Zinner MJ,Rypins EB, Martin LR, et al: Misoprostol versus antacid titration for preventing stress ulcers in postoperative surgical ICU patients. Ann Surg 21059G 595,1989 204. Zinner MJ,Zuidema GD, Smith P,et ak The prevention of upper gastrointestinaltract bleeding in patients in an intensive care unit. Surg Gynecol Obstet 153214-220,1981 205. Zuckerman G, Welch R, Douglas A, et ak Controlled trial of medical therapy for active upper gastrointestinal bleeding and prevention of rebleeding. Am J Med 76361-366, 1984 Address reprint requests to M. Michael Wolfe, MD Boston Medical Center Section of Gastroenterology 650 Albany Street, Room 504 Boston, MA 02118-2393 e-mail: [email protected]