Acute Abdomen in ICU Patients



Acute Abdomen in ICU Patients


Matthew R. Rosengart



I. Introduction

Intra-abdominal pathology necessitating surgical intervention occurs in approximately 4% of patients admitted to the intensive care unit (ICU). The number of patients requiring surgical evaluation is several fold higher. The most common etiologies necessitating surgical intervention in ICU patients are bowel perforation, bowel ischemia, cholecystitis, bowel obstruction, and cecal/sigmoid volvulus. An emerging indication for operation in ICU patients is fulminant antibiotic associated colitis from Clostridium difficile infection. Distinguishing those in need of surgical intervention from the total population evaluated is difficult; many of the characteristics accompanying critical illness, such as mechanical ventilation, narcotics and sedatives, and distracting pathology (e.g., stroke), confound the ability to obtain an accurate historical and physical examination. Thus, diagnosis relies heavily upon ancillary laboratory and radiologic studies. At times, even these can be difficult to obtain in the critically ill patient with tenuous physiology that limits the diagnostic armamentarium that can be brought to the bedside. Nevertheless, timely diagnosis is essential, as any delay, in either diagnosis or treatment, is associated with a poor outcome.

The goals of this chapter are to provide a systematic approach for the evaluation of the acute abdomen in critically ill patients. Particular difficulties in both diagnosis and treatment are emphasized, as are alternative strategies to facilitate achieving both endpoints. The reader is referred to specific citations for a more comprehensive review.


II. Evaluation



  • History. Many aspects of either critical illness or the ICU environment make obtaining accurate data from the historical examination difficult. Comorbidities, such as dementia or delirium consequent to the admission diagnosis (e.g., traumatic brain injury or sepsis), are common. In fact, 70% or more of ICU patients experience delirium during their ICU course. Many interventions (e.g., mechanical ventilation, surgery) and pathology (e.g., orthopedic trauma, traumatic brain injury) necessitate sedation, narcotic analgesics, or paralysis in the course of treatment.

    Acknowledging these limitations during an exhaustive attempt to acquire all historical data is essential. If feasible, temporarily discontinuing any sedating agent may enable an objective examination. For the alert patient, a pen and pad or electronic tablet may facilitate communication. Although tedious and conveying small volumes of data, any information may prove decisive for either continued observation or surgical exploration. The ICU nurse, present continuously at the patient bedside, is an invaluable source of information. All available family members, prior caregivers, or other close associates should be interviewed for any salient information that might facilitate a diagnosis (Table 45-1).

    Questions to be posed are similar for all patients undergoing surgical evaluation of the acute abdomen. The aspects prompting a surgical evaluation are critically important: Right upper quadrant pain versus cardiovascular collapse. Is this the primary impetus for admission, or did it develop during the treatment of other pathology? A thorough understanding of past medical and surgical issues establishes the context in which to interpret the current signs and symptoms and generate a priority list of the risks of particular surgical diseases. It is here that the time invested in interviewing family members is rewarded. Determination of the duration of the

    signs or symptoms that prompted the evaluation indicates the acuity of the process, as it relates to rapidity with which a diagnosis needs to be made and definitive treatment instituted. The details of the abdominal pain are important: Time of onset and aspects of duration, intensity, location, radiation, nature, exacerbating and mitigating circumstances if available. The gastrointestinal review of systems may generate useful data: Intolerance of tube feeds, nausea, emesis, hematemesis, melena, or hematochezia. Compromise of other subsystems, including the development of renal failure, acute lung injury, or hemodynamic instability, should raise concern of a catastrophic intra-abdominal process.








    Table 45-1 Leading Causes for Abdominal Operative Exploration in Intensive Care Unit Patients and Characteristic Findings




















































    Diagnosis History/physical examination Laboratory Radiology DPL/laparoscopy
    Ulcer perforation (gastric/duodenal) Acute onset upper abdominal pain followed by diffuse pain/diffuse peritonitis Leukocytosis X-ray: Free air;
    CT: Duodenal edema, ascites, free air
    DPL: WBC > 200/mm3, >50% PMN
    DL: Suppurative ascites
    Visualization of perforation
    Colon perforation Lower quadrant abdominal pain/focal peritonitis Leukocytosis X-ray: Free air;
    CT: Free air, ascites, colonic edema, mesenteric stranding, diverticula
    DPL: WBC > 200/mm3, >50% PMN
    DL: Suppurative ascites
    Visualization of perforation
    Bowel ischemia (small bowel) History of atrial fibrillation, vascular disease/severe, diffuse abdominal pain; tenderness may not be pronounced, hemoccult positive Leukocytosis common. Lactate elevation and acidosis may also be present X-ray: Free air, thumbprinting;
    CT: Thumbprinting, pneumatosis, ascites, mesenteric atherosclerosis
    DPL: WBC > 200/mm3, >50% PMN
    DL: Suppurative ascites
    Visualization of necrotic bowel
    Cholecystitis Right upper quadrant pain/right upper quadrant tenderness (Murphy’s sign) Leukocytosis; may have elevated liver function tests U/S: Thickened gallbladder wall (>3 mm), cholelithiasis, right upper quadrant pain DPL: Normal in absence of inflammation
    DL: Inflamed gallbladder
    Bowel obstruction Prior abdominal surgery, vomiting, obstipation/abdominal distention, tympany, tenderness typically mild without ischemia Leukocytosis may be present X-ray: Air fluid levels, distended bowel, air may be in rectum if obstruction is partial
    CT: Same, may identify a transition point
    DPL: Normal in absence of ischemia
    DL: Dilated loops of bowel
    Sigmoid volvulus History of constipation/abdominal distention, tenderness Leukocytosis, acidosis if intestinal ischemia present X-ray: “Omega loop”
    CT: Volvulus identified
    DPL: Normal in absence of intestinal ischemia
    DL: Volvulus visualized
    C. difficile colitis History of prior antibiotic use; pain typically diffuse and accompanied with diarrhea Leukocytosis positive stool assay for toxin A and/or B X-ray: Non-specific
    CT: Thickened, inflamed colon, ascites
    DPL: Unknown
    DL: Diffusely inflamed and edematous colon
    DL, diagnostic laparoscopy; DPL, diagnostic peritoneal lavage; PMN, polymorphonuclear.

    Finally, if time permits, identifying the medical decision-maker for this patient and advanced directives can simplify the decision process and ensure that the process of care achieves the patient’s wishes. These discussions should include aspects of quality and function of life in addition to those of life and death. However, emergency intervention should never be delayed awaiting informed consent.


  • Physical examination. Many of the conditions hindering a historical examination render the abdominal examination unreliable: Altered level of consciousness, either iatrogenic (e.g., narcotics) or because of concomitant pathology (e.g., stroke, trauma). Hence, there is a lack of sensitivity for subtle findings, and even signs of abdominal catastrophe may be obfuscated. Medications such as steroids and immunosuppressants may mask the signs of peritoneal irritation. In this context, alternate endpoints and surrogate markers of tenderness (facial grimacing and localization) are utilized, though this compromises specificity. Physiologic changes such as tachycardia or hypertension during the examination may also serve as surrogate markers of tenderness.

    The physical evaluation commences with a review of vital signs: Heart rate, blood pressure, and urine output (Table 45-1). The frequency with which physiologic and biochemical data are recorded enables trends in these parameters to be tracked, which can elucidate the temporal sequence of events. For example, the detailed records can be reviewed to assess when oliguria ensured, when the ventilatory requirements increased, or when vasopressors were instituted. The combination of these data, lends insight into whether this process is acute, subacute, or has taken place over a period of hours or days.

    A thorough abdominal examination should follow. The presence and location of abdominal scars should be noted and correlated with the details of the past surgical history. The presence, character, and location of tenderness should be elicited. Temporally related events (e.g., cardiac catheterization, ruptured abdominal aneurysms) and precipitating or alleviating factors (e.g., movement, meals, emesis) may narrow the differential (e.g., mesenteric ischemia, biliary colic). Peritonitis, in particular involuntary guarding, is suggestive of surgical pathology. Distension and tympany, although non-specific, suggest obstruction or ileus. A rectal examination should be performed to check for masses, distal passage of stool and presence of blood. Melena or hematochezia suggest mucosal injury (e.g., ischemia). The nature and volume of nasogastric aspirate (e.g., bloody vs. bilious) may provide insight. Hernias should be identified and characterized as reducible, incarcerated, or strangulated.

    Extra-abdominal findings may provide additional corroboration of a particular diagnosis. Signs of peripheral vascular disease support a diagnosis of mesenteric ischemia/infarction. The lacelike livedo reticularis is an uncommon sign seen in cholesterol embolism, as might occur after cardiac catheterization. Similarly, atrial fibrillation may underlie distal embolization to the mesenteric circulation and bowel infarction. Alternatively, the absence of particular signs (e.g., scaphoid abdomen, absence of distension, and emesis) may reasonably exclude specific pathology.


  • Laboratory. Attempt to tailor labs specific to the differential diagnosis, although the paucity of historical and physical data usually translate into the acquisition of a broad amount of biochemical data: A complete blood count (CBC) with cell differential, electrolytes, liver function tests, amylase, lipase, urinalysis, arterial blood gas with lactate (Table 45-1).

    Complete blood count


    Leukocytosis, a sign of inflammation, may be suggestive of an abdominal problem. However, its absence does not exclude surgical abdominal disease. Indeed, in a cohort of elderly patients (>80 years), fever and leukocytosis were absent in 33% of cases of acute surgical disease. In the absence of leukocytosis or leukopenia, a significant “left shift” (a large proportion of neutrophils or immature band forms) may be indicative of acute intra-abdominal pathology.

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Oct 17, 2016 | Posted by in CRITICAL CARE | Comments Off on Acute Abdomen in ICU Patients

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