Diarrhea Developing in the Intensive Care Unit Patient

Chapter 38


Diarrhea Developing in the Intensive Care Unit Patient



Diarrhea is an important nosocomial disorder in hospitalized patients and occurs frequently in the intensive care unit (ICU). It has potentially debilitating consequences in these patients, including (1) decreased absorption of enterally administered medications and nutrition, (2) perineal and sacral skin ulcers with secondary superinfection, and (3) abdominal discomfort and the urge to defecate. Severe diarrhea can also cause intravascular volume depletion with its associated electrolyte abnormalities.


The incidence of diarrhea in the ICU is difficult to estimate, partly because of a lack of standard definitions of diarrhea. Health care workers use a variety of criteria to define diarrhea yet may not agree on the precise definition. Nevertheless, diarrhea has been estimated to occur in 14% to 30% of ICU patients. Diarrhea is defined as an increase in the fluidity, volume, and frequency of daily stool output. Typically, frequent stooling (greater than three to five bowel movements daily), stool volume output greater than 250 mL (or > 200 g in weight) per day, or soft/liquid stool is considered diarrhea for an adult.



Pathophysiology


Four major mechanisms can produce diarrhea: (1) secretory, (2) osmotic, (3) inflammatory, and (4) motility related (Table 38.1).




Secretory Diarrhea


Active chloride secretion is the basic mechanism leading to secretory diarrhea. There are many known stimuli, including toxins, peptides, amines, and derivatives of arachidonic acid. The majority of these substances exert their action through intracellular mediators that stimulate active chloride secretion. The secreted chloride drives the retention of water in the gastrointestinal lumen leading to more liquid stools. Secretory diarrhea occurs even when the patient fasts because the secretory process is independent of enteral intake or the absorptive process (see Table 38.1). Active secretion of chloride anion creates an osmotic gradient in favor of moving water passively from plasma and interstitial space into the intestinal lumen. The osmolality of secretory diarrhea should be nearly iso-osmolar to plasma. This is reflected in the calculation of a fecal osmotic gap, which should be < 50 mOsm/kg in patients who have secretory diarrhea (Figure 38.2).



Osmotic Diarrhea


An osmotic agent causing diarrhea is (1) soluble in water, (2) cannot be absorbed by the small intestine, or (3) may be metabolized by bacteria and converted to substances with smaller molecular weight in the distal intestine. On a per gram basis, a smaller molecular weight substance is a more effective osmotic agent than is a larger molecular weight substance. Osmotic diarrhea is the result of consuming nonabsorbable solutes by mouth or by nasogastric or nasoenteral tube. Thus, this type of diarrhea resolves once the osmotic load is eliminated—that is, after the patient is fasting (see Table 38.1). Because nonelectrolytes cause water retention in cases of osmotic diarrhea, the measured osmolality of the stool will differ (be higher than) from the osmolality of plasma. This will be reflected in the calculation of a fecal osmotic gap, which is typically > 125 mOsm/kg in osmotic diarrhea (Figure 38.2).




Motility-Related Diarrhea



Decreased Motility


Gastrointestinal motility disorders such as progressive systemic sclerosis (scleroderma), diabetes mellitus, and chronic idiopathic intestinal pseudo-obstruction result in less effective clearance of bacteria from the intestine. Under these conditions, chronic small bowel bacterial overgrowth can occur. Although both anaerobes and aerobes overgrow, anaerobes produce most of the clinical problems. Deconjugation of bile salts by bacterial enzymes results in free bile acids in the proximal small intestine. Bile acids not only are toxic to mucosal cells but also can promote secretion. Both effects can cause diarrhea. In addition, impaired micelle formation resulting from reduced conjugated bile salt concentrations may cause fat malabsorption and steatorrhea. Unconjugated bile salts, bacterial infection, or fatty acids may induce malabsorption because of mucosal damage. Protein malnutrition may be exacerbated because proteins are catabolized by bacteria, and transluminal transport of amino acids and peptides may be decreased because of mucosal defects.




Differential Diagnosis (Box 38.1)



Antibiotic-Associated Diarrhea


Antibiotic-associated diarrhea is frequently seen in patients in the ICU. Diarrhea may occur in up to 25% of patients receiving antibiotics. Antibiotic therapy predisposes the patient to the development of at least two separate types of diarrhea: (1) osmotic diarrhea caused by altered colonic salvage of carbohydrates and (2) secretory diarrhea caused by Clostridium (C.) difficile toxin. Administration of oral or systemic antibiotics reduces the normal competitive flora, impairs colonic fermentation of carbohydrates, and increases the risk for the development of C. difficile strains. In patients with antibiotic-associated diarrhea (without C. difficile toxin), ingested carbohydrate that is unabsorbed in the small intestine enters the colon. There, it is not metabolized as normally occurs and can induce an osmotic diarrhea. Stool studies are typically normal in these individuals, and diarrhea resolves once the offending antibiotics are discontinued.



However, when an individual patient acquires diarrhea after the antibiotics are discontinued, one should suspect the development of C. difficile–related diarrhea. One third of the cases of C. difficile–related diarrhea occur after the antibiotics have been discontinued. It may be several weeks or longer between discontinuing antibiotics and the onset of the diarrhea. C. difficile is the pathogen in one third of cases of antibiotic-induced diarrhea. However, it is also present in many hospitalized patients with diarrhea unrelated to C. difficile toxin. Those who harbor the organism without the demonstration of symptoms are not at increased risk for the development of subsequent clinical illness, for example, pseudomembranous colitis or colonic perforation. However, they are capable of transmitting the organism to other patients through person-to-person contact and environmental contamination. In addition to antibiotic use, there are other risk factors for the development of C. difficile–related diarrhea including treatment in the ICU setting, proton-pump inhibitor therapy, and enteral feeding.



Intestinal Ischemia


Intestinal ischemia is another cause of diarrhea in patients in the ICU. Risk factors include hypotension, hypoxemia, or sepsis. Ischemic colitis often presents with an abrupt onset of lower abdominal cramping, rectal bleeding, vomiting, and fever. The finding of fecal leukocytes indicates colonic involvement. Individuals with underlying atherosclerotic disease are especially vulnerable, as are those who have undergone an abdominal aortic aneurysm repair (during which the inferior mesenteric artery may be compromised) (see Chapter 92). Ischemic colitis may also result from vasculitis, a ruptured abdominal aneurysm, collagen vascular disease (e.g., systemic lupus erythematosus, rheumatoid arthritis, polyarteritis nodosa, scleroderma), or colorectal cancer. The clinical presentation may vary from mild to severe diarrhea, with or without substantial abdominal discomfort. Ischemia involving the small bowel—that is, mesenteric ischemia—is a more serious problem than is ischemic colitis because of its higher associated mortality.


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Jul 7, 2016 | Posted by in CRITICAL CARE | Comments Off on Diarrhea Developing in the Intensive Care Unit Patient

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