Hemolytic uremic syndrome is most often associated with a gastrointestinal illness; thus, patients presenting early in the course of the disease will complain of fever, abdominal pain, nausea, vomiting, and diarrhea. Diarrhea is often bloody and is within 3 days of diarrhea onset. Bloody diarrhea that ensues can be secondary to colitis from the invasion of the gastrointestinal cells or ischemia related to a vascular lesion. After a week of such gastrointestinal symptoms, patients may start to develop symptoms more closely related to the triad that defines HUS: specifically, symptoms related to anemia (syncope, shortness of breath, and jaundice) and kidney impairment (oliguria/anuria, hematuria). The skin exam may show small ecchymosis and mucosal bleeding. Late in the course of the infection, patients may develop seizures and encephalopathy related to ongoing uremia and other electrolyte derangements. In rare cases, the colitis can be severe enough to cause intestinal necrosis and perforation. 

In atypical HUS, a gastrointestinal illness is not usually the initial insult, and a thorough history and physical is required to find the offending agent. If S. pneumoniae is the source, the patient may site a recent respiratory illness. A review of any new medications or chronic autoimmune diseases is necessary. These patients typically have decreased urine output, pallor, and scattered ecchymosis.

The diagnosis of hemolytic uremic syndrome requires a high index of suspicion based on symptoms, travel history, and dietary history. A complete blood count (CBC), comprehensive metabolic panel (CMP), and a urinalysis may aid in the diagnosis. The CBC shows both anemia and thrombocytopenia. Hemoglobin is often less than 10 g/dl. A peripheral smear reveals characteristic schistocytes. The Coombs test is negative, consistent with mechanical hemolysis. The CMP reveals elevated creatinine consistent with acute kidney injury. It also shows signs of acute hemolysis with elevated indirect bilirubin and elevated lactate dehydrogenase. As the disease progresses, hyponatremia and hyperkalemia may develop as the patient enters into renal failure. Urinalysis reveals hematuria and proteinuria.

The management of hemolytic uremic syndrome begins with good supportive care. The patients are often fluid depleted and thus benefit from several fluid boluses. It is important to have a careful assessment of the patient’s overall kidney function so as to avoid giving too much fluid in the setting of kidney failure. A subset of patients will go on to develop oliguric renal failure (<0.5 ml/kg/hr x72 hr) and require dialysis. Most experts do not recommend antibiotics and antiperistaltic agents to treat diarrheal illness. They believe that this will increase the complications associated with the E. coli infection.

Patients should have their anemia corrected with packed RBCs when hemoglobin reaches 7 to 8 g/dl or hematocrit less than 18%. The treatment of thrombocytopenia is often unnecessary, given the continued consumption during the disease. Furthermore, there is concern that platelet transfusion leads to worsening thrombosis. Exceptions to this are those with active bleeding or before a medical procedure. 

Patients diagnosed with HUS should be admitted to the hospital for further monitoring. Those with encephalopathy or need for dialysis should be admitted to an intensive care unit.

Once identified, familial atypical HUS requires consultation with hematology for possible plasmapheresis.

Differential diagnoses of hemolytic uremic syndrome include several other conditions that may present with hemolytic anemia, thrombocytopenia, and acute kidney injury

• Thrombotic thrombocytopenic purpura (TTP): TTP is thrombotic microangiopathy characterized by a pentad of hemolytic anemia, thrombocytopenia, renal dysfunction, fever, and neurological dysfunction. It is due to deficiency or mutation in "a disintegrin and metalloproteinase with a thrombospondin type 1 motif member 13" (ADAMTS13) and usually has the adult-onset of symptoms. 
• Disseminated intravascular coagulation (DIC): DIC is the systemic activation of the coagulation cascade and is characterized by abnormal coagulation studies, including prolonged prothrombin time and activated partial thromboplastin time and elevated D dimer and fibrin degradation products which are usually normal in HUS. Patient with DIC usually has a very serious underlying illness like septic shock, trauma, malignancy, etc.
• HELLP syndrome: It is characterized by hemolysis of red blood cells, elevated liver enzymes, and low platelet count occurring in pregnancy and severe preeclampsia.
• Systemic vasculitis: These patients typically present with inflammatory signs like fever, rash, and arthralgia and lack prodromal diarrhea.

The prognosis of hemolytic uremic syndrome typically depends on the prompt initiation of treatment. Acute complications like acute renal injury, coma, and death, as well as progression to chronic renal failure, can be prevented with timely intervention. Overall mortality from HUS is less than 5%, while long term renal complications occur in 5% to 25% of the children with HUS.[17][18][19]

The long-term complication rate from typical HUS is low, and most patients make a full recovery. Yearly evaluation for proteinuria, raised blood pressure, and renal insufficiency should be done for at least 5 years.[20] Those patients who require dialysis have the highest risk of long-term chronic kidney disease. Patients who develop significant colitis, as evidenced by fever, leukocytosis, and severe abdominal pain, are at a higher risk of developing abdominal strictures. 

Those diagnosed with familial atypical HUS are at the highest risk of developing end-stage renal disease (ESRD) requiring routine dialysis. Familial atypical HUS patients also require several rounds of plasma exchange, placing the patient at risk for line infections.

Other rare complications include transient or permanent diabetes mellitus, seizures, coma, stroke, abnormal liver functions, and hepatomegaly.

Although hemolytic uremic syndrome has less than 5% mortality, it can lead to long term renal complications, especially in children. It is thus necessary to timely diagnose and manage appropriately those diagnosed with HUS. A high index of suspicion in children presenting with symptoms related to HUS and appropriate investigations can lead to better patient outcomes. Nurses need to be vigilant about a drop in hemoglobin and platelet and monitor for symptoms related to anemia and thrombocytopenia. It may also be essential to coordinate with nephrologist if the patient develops acute renal failure and needs dialysis. A good patient outcome thus requires proper communication among physicians, nurses, pharmacists, nephrologists, and their teamwork.