Postoperative paralytic ileus and small bowel obstruction are by far the most common causes of type 1 IF. The incidence of type 1 IF greatly depends on how ileus is defined, since the duration of postoperative gastrointestinal dysmotility varies greatly. For example, patients typically cannot eat for about 3 days after elective open colorectal surgery performed with traditional perioperative care, whereas patients undergoing laparoscopic surgery within an enhanced-recovery protocol usually tolerate solid food after 1 day [5]. Many definitions of ileus have been put forward, but regardless of which is used, it is clear that a substantial proportion of patients require parenteral fluids, and often parenteral nutrition, for periods lasting from days to weeks in both acute and elective surgical care. The incidence of type 1 IF is therefore substantial.

The incidence of type 2 IF is probably far less common than type 1 IF, although there are relatively few good epidemiological data. In the United Kingdom, the prevalence of type 2 IF, estimated from the number of patients receiving in-hospital parenteral nutrition lasting 28 days or more, indicates a point prevalence of 9 in 1 million population [6]. This is an indirect estimate based on actual total parenteral nutrition prescriptions and may underestimate the number of cases. Thus the true prevalence of type 2 IF remains unknown, but it is probably somewhat higher than usually reported.

The prevalence of type 3 IF can similarly be estimated from the number of patients who receive HPN. This is known to vary greatly between and within countries, indicating important regional variations in both the availability of and indications for HPN. In the United Kingdom, where HPN is not frequently prescribed as part of palliative care, the number of patients receiving HPN in 2011 was 624, yielding an estimated prevalence of type 3 IF of ten per million population [7].

A majority of patients with type 2 IF have active intra-abdominal infection at presentation. Sepsis, as conventionally defined (i.e., by the presence of signs such as fever, tachycardia, tachypnea, and leukocytosis), is frequently absent in patients with type 2 IF, possibly because infection is long-standing and walled off. More than half of patients with active abdominal infection in type 2 IF have no overt clinical signs of sepsis. Infection in this group more often presents with subtle signs such as persistent hypoalbuminemia, hyponatremia, high levels of inflammatory markers, deranged liver function (notably unexplained jaundice), and failure to gain weight (or even cachexia) despite appropriate nutritional support.

Whether overt or subtle, diagnosis and treatment of infection are nevertheless the first priority, for two main reasons. First, sepsis locks intermediary metabolism in a state of catabolism. Thus, until sepsis has resolved, there is resistance to the normally anabolic effects of insulin on carbohydrate and protein metabolism, and little progress is possible, even though nutritional needs can be met or even exceeded [17].

Second, severe sepsis can develop quickly in this population, often following surgical intervention. Sepsis remains the most common direct cause of death in IF; some 70 % of deaths in an intestinal failure unit are a direct result of sepsis [9]. Therefore, as soon as possible after presentation, blood and line cultures, wound swabs, urine cultures, chest films, and computed tomography (CT) of the abdomen and pelvis with oral and intravenous contrast should be obtained. These tests may need to be repeated in patients who fail to thrive and complemented as required by echocardiography, magnetic resonance cholangiopancreatography, labelled leucocyte scintigraphy, and occasionally positron emission tomography/CT to identify occult septic foci.

Radiologically guided percutaneous drainage of abdominal and pelvic abscesses is the treatment of choice, unless the anatomic position of collection renders this impossible or anastomotic continuity is completely lost (in which case drainage without a defunctioning stoma is unlikely to provide adequate source control). Drainage should be supported (but not replaced) by antibiotic therapy, guided by expert microbiological advice, and adjusted following microbiological analysis of samples sent at the time of drainage.

Emergency laparotomy in type 2 IF should be undertaken only in systemically unwell patients in whom abdominal infection cannot be treated adequately by other means. At laparotomy, collections should be thoroughly washed out and cavities controlled with large-bore drains. Importantly, any suspicion of a visceral leak “feeding” the septic cavity warrants diversion of intestinal contents by resection and exteriorization of the bowel ends or the formation of a proximal diverting loop stoma. Severe, poorly controlled abdominal or pelvic sepsis, especially when there are multiple small-bowel loops fixed within the inflammatory process, may necessitate leaving the abdomen open. This improves control of abdominal sepsis, but at the cost of more complex wound management, more demanding abdominal wall reconstruction during later definitive surgery, and an increased risk of enteroatmospheric fistulation [12].