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Enterocolitis

Enterocolitis is a medical condition characterized by inflammation of both the (enteritis) and the or colon (colitis), often resulting from infections or other underlying factors that lead to severe gastrointestinal distress. This inflammation can damage the intestinal lining, impair nutrient absorption, and, in severe cases, lead to complications such as tissue death or . While it can affect individuals of any age, it is particularly concerning in vulnerable populations like premature infants, immunocompromised patients, and those with chronic bowel disorders. The condition encompasses several distinct types, each with specific etiologies. primarily affects premature newborns and involves bacterial invasion leading to intestinal tissue , often linked to immature gut barriers and formula feeding. , a form of -associated , arises from difficile overgrowth following antibiotic therapy, causing pseudomembranes of inflammatory debris in the colon. Other variants include hemorrhagic enterocolitis from toxins, which produces bloody diarrhea, and in cancer patients undergoing , characterized by bowel wall edema due to low counts. Common causes across types involve bacterial, viral, or parasitic infections; like excessive or ; and chronic conditions such as or celiac disease that weaken the intestinal mucosa. Symptoms typically include abdominal pain, nausea, vomiting, diarrhea (which may be bloody or mucoid), fever, and abdominal distension, varying in severity based on the type and extent of inflammation. Diagnosis involves a combination of , , blood tests for infection markers, stool analysis, and imaging like scans or ultrasounds to assess intestinal damage. Treatment is tailored to the underlying cause and may include s for bacterial infections, intravenous fluids for , bowel rest with nutritional support, and in cases of or to remove damaged tissue. Prevention strategies focus on to avoid infections, judicious use, and supportive care like for at-risk infants to bolster gut health.

Definition and Classification

Definition

Enterocolitis is defined as the simultaneous inflammation of the (enteritis) and the colon (), distinguishing it from isolated inflammatory conditions affecting only one segment of the . This combined pathology often arises from infectious agents, ischemic events, or underlying inflammatory disorders, leading to widespread disruption across the intestinal mucosa. The term encompasses a range of etiologies but specifically highlights the dual-site involvement that can impair nutrient absorption, , and more extensively than single-site inflammations. The etymology of "enterocolitis" derives from the Greek prefix "entero-," meaning intestine (from enteron, referring to the gut), combined with "colitis," denoting of the colon. This nomenclature, first documented in in the early , underscores the condition's focus on both the small bowel and , reflecting its historical recognition as a unified inflammatory process. In contrast to , which is confined to the , or , which targets the colon exclusively, enterocolitis involves both regions concurrently, potentially resulting in more profound systemic effects due to the extensive anatomical overlap. A well-known example is , a severe form primarily affecting premature infants.

Types

Enterocolitis encompasses a range of inflammatory conditions affecting the and colon, broadly classified by into infectious and non-infectious forms, as well as by demographics such as neonatal versus adult predominance. Infectious types are often triggered by bacterial, , or parasitic pathogens, while non-infectious variants stem from allergic, ischemic, or iatrogenic factors. This aids in distinguishing clinical presentations and affected populations, with neonatal forms more common in preterm infants and adult types frequently linked to underlying comorbidities like . Necrotizing enterocolitis (NEC) is a severe, primarily neonatal condition characterized by intestinal tissue , predominantly affecting preterm infants in intensive care settings. It typically manifests in the first weeks of life, involving the terminal and colon, and is recognized as a leading gastrointestinal emergency in this demographic. NEC gained prominence in the with the expansion of neonatal care units, marking a rise in reported cases among vulnerable preterm neonates. Pseudomembranous enterocolitis, closely associated with overgrowth, features the formation of adherent inflammatory plaques or pseudomembranes on the mucosal surface, primarily affecting the colon, with rare involvement of the . This type predominantly affects adults, particularly those with recent exposure or hospitalization, and is a common nosocomial complication in older populations. Hemorrhagic enterocolitis involves bloody mucosal inflammation, typically due to invasive bacterial pathogens like enterohemorrhagic Escherichia coli or Shigella, leading to vascular damage and hemorrhage in the intestinal wall. It affects both children and adults but is more frequently reported in pediatric cases following foodborne outbreaks, with a self-limited course in otherwise healthy individuals. Food protein-induced enterocolitis syndrome (FPIES) is a non-IgE-mediated allergic in infants, triggered by specific food proteins such as cow's milk or soy, resulting in acute or chronic intestinal without systemic allergic signs. It primarily impacts young children under 6 months, resolving with age and avoidance of triggers, and represents a distinct non-infectious neonatal subtype. Eosinophilic enterocolitis arises from eosinophil-predominant infiltration of the intestinal mucosa, often as part of broader eosinophilic gastrointestinal disorders, affecting both children and adults with a history of . This non-infectious form targets the small bowel and colon diffusely, presenting as a chronic or relapsing condition in atopic individuals. Neutropenic enterocolitis, also known as typhlitis, is an acute inflammatory process centered in the and , occurring in immunocompromised adults, especially those undergoing for hematologic malignancies. It features bowel wall and potential due to , with high morbidity in patients. Hirschsprung-associated enterocolitis (HAEC) develops as a complication in patients with Hirschsprung disease, a congenital absence of enteric ganglia, leading to recurrent or acute in the aganglionic bowel , which can occur before or after . This non-infectious type primarily affects infants and children with the underlying motility disorder, posing a significant risk for recurrent episodes throughout life.

Epidemiology

Incidence and Prevalence

Enterocolitis encompasses various inflammatory conditions of the small and large intestines, with representing the most prevalent and studied form in neonates. Globally, the incidence of NEC is estimated at 0.3 to 2.4 cases per 1,000 live births, with higher rates observed in premature infants. Among very (VLBW) infants weighing less than 1,500 grams, the pooled incidence reaches 6-10%, affecting up to 7% of VLBW neonates overall based on meta-analyses of over 500,000 infants. In preterm infants born before 32 weeks gestation, rates vary from 2% to 7%, while those under 1,000 grams experience 5% to 22%. The reported prevalence of NEC varies between low- and middle-income countries (LMICs) and high-income countries (HICs), with pooled estimates showing 3% in LMICs versus 7% in HICs among VLBW infants. This difference may not be statistically significant due to variations in and reporting, and infection-related triggers may contribute to a higher actual burden in LMICs. In HICs, affects 5-10% of VLBW infants in neonatal intensive care units (NICUs), comprising about 8% of all NICU admissions for gastrointestinal emergencies. Adult forms of enterocolitis, such as antibiotic-associated pseudomembranous primarily caused by , are rarer, occurring in 1-5% of hospitalized patients receiving antibiotics, with C. difficile responsible for 15-25% of all antibiotic-associated cases that progress to . Trends indicate a gradual decline in NEC incidence in HICs over recent decades, attributed to advancements in neonatal care such as human milk feeding and use, with rates in VLBW infants dropping from historical highs of around 10-12% in the to 5-7% by the in network studies. Conversely, analyses reveal an overall temporal increase in reported NEC cases globally, driven by improved survival of at-risk preterm infants and enhanced diagnostic capabilities. For antibiotic-associated enterocolitis, post-2020 surges in antimicrobial use during the have correlated with rising global C. difficile burden, particularly in high sociodemographic index regions, though U.S. incidence stabilized at around 100-110 cases per 100,000 by 2021.

Risk Factors

Enterocolitis encompasses various inflammatory conditions affecting the small and large intestines, with risk factors varying by age group and subtype, such as () in neonates. In neonates, particularly those with , prematurity at less than 32 weeks gestation significantly increases susceptibility due to the immature intestinal barrier and . , often below 1500 grams, further elevates this risk by compounding vulnerabilities in gut motility and perfusion. Formula feeding, as opposed to , is a modifiable , as human milk provides protective immunoglobulins and oligosaccharides that support a balanced . Prolonged contributes by inducing and stress on the intestinal mucosa, while umbilical catheterization poses risks through potential vascular compromise or bacterial translocation if malpositioned. In adults and older children, non-modifiable factors like congenital anomalies, including , predispose individuals to enterocolitis through chronic intestinal obstruction and impaired motility, leading to bacterial overgrowth. A history of heightens vulnerability by causing ongoing mucosal inflammation that can precipitate acute episodes. Immunosuppression from conditions such as or treatments like disrupts immune surveillance, allowing opportunistic pathogens to invade the gut lining. Recent use is a key modifiable risk, as it alters the gut microbiome, promoting overgrowth of toxin-producing bacteria like . Emerging research highlights gut as a contributing factor, particularly from cesarean delivery, which bypasses vaginal transfer and increases risk in preterm infants through delayed microbial . Disruptions from inadequate maternal prophylaxis for group B may also foster early by allowing pathogenic without fully mitigating risks.

Pathophysiology

General Mechanisms

Enterocolitis generally involves of the and colon triggered by infections, toxins, or other factors that damage the intestinal mucosa. This damage allows pathogens or antigens to invade the intestinal wall, prompting an that includes the release of pro-inflammatory mediators, leading to swelling, impaired function, and potential . In some cases, reduced blood flow or oxygen delivery to the intestines can contribute to tissue injury, particularly in vulnerable populations. Bacterial translocation across the compromised mucosa can occur, entering the bloodstream and amplifying systemic inflammation. The condition often follows a multifactorial pathogenesis involving interactions between microbial factors, host immunity, and environmental influences such as antibiotics or diet, which can disrupt gut microbiota balance and promote overgrowth of harmful organisms.

Type-Specific Mechanisms

In (NEC), the immature intestinal barrier in preterm infants permits bacterial overgrowth, particularly by , which translocates across the mucosa and triggers an exaggerated inflammatory response. This process involves (TLR4) activation on intestinal epithelial cells and mesenteric vessels, leading to dysregulated production and that culminates in mucosal necrosis. Additionally, excessive production from inducible contributes to , ischemia, and further tissue injury in the affected bowel segments. Pseudomembranous enterocolitis, primarily caused by , arises from the actions of toxins A and B, which glucosylate Rho in intestinal epithelial cells, disrupting the and integrity. This disruption increases paracellular permeability, allowing fluid and protein exudation that forms characteristic pseudomembranes composed of , , and inflammatory debris on the colonic mucosa. Toxin-induced release further promotes influx and mucosal inflammation, exacerbating secretory and tissue damage. Hemorrhagic enterocolitis, often due to enterohemorrhagic (EHEC), involves Shiga-like toxins that damage endothelial cells in the intestinal microvasculature, leading to of enterocytes and severe . This toxin-mediated injury causes bloody through microvascular , , and hemorrhage in the bowel wall, with attaching and effacing lesions formed by bacterial further contributing to mucosal disruption. Eosinophilic enterocolitis involves aberrant accumulation in the gastrointestinal mucosa, driven by IgE-mediated or non-IgE allergic responses to antigens that activate Th2 immune pathways. degranulation releases major basic protein and , which damage epithelial cells and induce local , while activation contributes to increased and smooth muscle hyperreactivity. Neutropenic enterocolitis develops in immunocompromised patients with profound , where opportunistic bacterial or fungal invasion of the bowel wall occurs due to impaired mucosal defense and translocation of gut flora. The absence of neutrophils prevents effective containment of the infection, resulting in rapid progression to , ulceration, and transmural of the intestinal wall, often without overt inflammatory signs. This necrotic process predominantly affects the and , driven by cytotoxic effects of invading pathogens in the setting of chemotherapy-induced mucosal injury.

Clinical Manifestations

Signs and Symptoms

Enterocolitis manifests through a variety of gastrointestinal and systemic symptoms that can vary in intensity depending on the underlying type and severity. Common presenting features include and cramping, (which is often bloody), , , fever, and . In neonates, particularly with , serves as a hallmark , frequently accompanied by bilious , bloody or stools, lethargy, and episodes of apnea. These infants may also exhibit poor feeding tolerance and abdominal discoloration, such as bluish or reddish hues. Type-agnostic physical examination findings typically include abdominal tenderness and guarding upon , along with evidence of from ongoing fluid losses via and . Symptoms often begin with mild abdominal discomfort but can rapidly progress to severe systemic effects, including shock, in critical cases such as , where temperature instability—defined as rectal temperature exceeding 38°C or falling below 36°C—is a notable indicator. In advanced stages, this deterioration may culminate in complications like intestinal perforation.

Complications

Enterocolitis can lead to severe acute complications if not promptly managed, including intestinal characterized by , which occurs when the inflamed bowel wall ruptures, allowing air to escape into the . This is particularly common in (NEC), where it affects up to 20-40% of severe cases and significantly increases mortality risk. frequently develops as a systemic response to bacterial translocation from the damaged intestinal mucosa, leading to widespread infection and hemodynamic instability. (DIC) may arise secondary to the intense inflammatory and septic state, causing widespread clotting abnormalities and bleeding tendencies. In advanced stages, these processes can culminate in multi-organ failure, involving renal, hepatic, and respiratory systems due to hypoperfusion and . Chronic complications often emerge in survivors, particularly following extensive bowel resection in cases like . results from significant loss of functional intestine, leading to , prolonged dependence, and growth impairment. Intestinal strictures form as fibrotic narrowing of the bowel post-inflammation, occurring in 10-35% of NEC survivors and potentially requiring surgical intervention. Neurodevelopmental delays are prevalent among NEC survivors, with studies indicating a 20-30% risk of and higher rates of cognitive, motor, and language impairments compared to preterm infants without NEC. Type-specific complications vary by etiology. In surgical cases of enterocolitis, such as those involving or Hirschsprung-associated enterocolitis, adhesions develop as fibrous bands between bowel loops, increasing the risk of obstruction or recurrent issues in up to 25% of patients. Allergic forms, including (FPIES), are prone to recurrent episodes triggered by allergen exposure, potentially leading to repeated and nutritional deficits if triggers are not identified.

Causes

Infectious Etiologies

Infectious enterocolitis arises from microbial invasion or production that inflames the small and large intestines, often leading to symptoms such as , , and fever. Pathogens are primarily transmitted via the fecal-oral route, including of contaminated or , and outbreaks commonly occur in settings like daycares, hospitals, or communities with poor . Bacterial pathogens are major contributors to infectious enterocolitis. Salmonella species invade the intestinal mucosa, causing inflammation and enterocolitis characterized by fever, watery or bloody , and abdominal cramps; transmission occurs through undercooked poultry, eggs, or contaminated produce. induces severe dysentery via and epithelial invasion, resulting in bloody, mucoid stools and tenesmus, with as few as 10-100 organisms sufficient for via fecal-oral spread. Campylobacter jejuni attaches to and invades enterocytes, producing cytotoxic effects that lead to enterocolitis with watery or bloody in about 15% of cases; it spreads primarily from raw or undercooked poultry and unpasteurized milk. Enterohemorrhagic Escherichia coli (EHEC), such as O157:H7, produces Shiga-like toxins that damage vascular endothelium in the gut, causing hemorrhagic that can progress to enterocolitis; contaminated , leafy greens, or water are common sources. Clostridium difficile causes toxin-mediated pseudomembranous enterocolitis, particularly following use, where toxins A and B disrupt the colonic , leading to pseudomembrane formation and severe ; spores spread via fecal-oral route in healthcare settings. Viral agents predominantly affect young children and immunocompromised individuals, damaging intestinal villi and impairing absorption. , a double-stranded RNA virus, infects enterocytes in the , leading to villous , , and secretory that can manifest as enterocolitis; it spreads via fecal-oral transmission, with high infectivity in daycare outbreaks. , a single-stranded RNA calicivirus, causes rapid-onset enterocolitis by shortening jejunal villi and reducing brush border enzymes, resulting in explosive watery ; it is highly contagious through contaminated food, water, or surfaces in closed settings like hospitals. In immunocompromised hosts, such as those with or post-transplant, invades gastrointestinal mucosa, causing ulcerative enterocolitis with bleeding and perforation; transmission occurs congenitally or via bodily fluids, with reactivation common in immunosuppression. Parasitic infections often stem from poor hygiene and contaminated water sources, leading to chronic or invasive enterocolitis. invades the colonic , forming flask-shaped ulcers and causing amebic with bloody stools; cysts are transmitted fecal-orally through water or food in endemic areas. adheres to the duodenal mucosa, disrupting the and causing malabsorptive with foul-smelling diarrhea and bloating; it spreads via cysts in untreated water or person-to-person contact in daycares. Rare fungal causes include species in neonates, where overgrowth in the gut can lead to invasive enterocolitis or , particularly in preterm infants with indwelling catheters; transmission occurs nosocomially via colonized hands or equipment.

Non-Infectious Etiologies

Non-infectious etiologies of enterocolitis encompass a range of immune-mediated, vascular, and iatrogenic factors that trigger inflammation in the small intestine and colon without microbial involvement. Allergic and immune responses represent prominent triggers, particularly in pediatric populations. Food protein-induced enterocolitis syndrome (FPIES) is a non-IgE-mediated gastrointestinal food allergy primarily affecting infants, characterized by delayed vomiting, lethargy, and pallor occurring 1-4 hours after ingestion of trigger foods such as cow's milk or soy. This condition arises from cell-mediated immune activation leading to gastrointestinal symptoms without systemic anaphylaxis, and avoidance of the offending protein is the mainstay of management. Similarly, eosinophilic enterocolitis often stems from hypersensitivity to cow's milk proteins in infants, manifesting as bloody stools, diarrhea, and abdominal distension due to eosinophilic infiltration of the intestinal mucosa. In older children and adults, autoimmune processes overlapping with inflammatory bowel disease (IBD), such as Crohn's disease (which can involve both small and large intestines, presenting as enterocolitis) or ulcerative colitis (primarily affecting the colon as colitis), can present through chronic immune dysregulation targeting the gut mucosa, though these are considered idiopathic in origin. Celiac disease, an autoimmune disorder triggered by gluten ingestion in genetically susceptible individuals, causes immune-mediated damage to the small intestinal villi, leading to enteritis, malabsorption, and potential contribution to broader enterocolitis-like inflammation. Ischemic enterocolitis results from reduced blood flow to the intestines, leading to hypoxic injury and inflammation, particularly in vulnerable populations like the elderly or those with cardiovascular comorbidities. Hypoperfusion during states of , , or disrupts mucosal integrity, causing , ulceration, and potential , often affecting watershed areas like the splenic flexure or . Substance abuse, particularly , can induce ischemia through , leading to enterocolitis. Excessive alcohol consumption may contribute via direct mucosal and barrier disruption. contributes as a rarer cause by inflaming mesenteric vessels, exacerbating ischemia through endothelial damage and . The condition typically presents acutely with and bloody , and while most cases resolve with supportive care, severe hypoperfusion can progress to full-thickness bowel injury. Iatrogenic factors play a significant role in non-infectious enterocolitis, often complicating medical interventions. , also known as typhlitis, occurs predominantly in patients undergoing for malignancies, where cytotoxic agents like arabinoside induce mucosal damage and impairs barrier function, leading to bowel wall edema and ulceration primarily in the and . Radiation enterocolitis arises from pelvic radiotherapy for cancers, causing chronic vascular sclerosis and fibrosis in the irradiated bowel segments, with acute phases involving and later phases featuring strictures or telangiectasias. In , Hirschsprung-associated enterocolitis (HAEC) emerges as a non-infectious complication of , either pre- or post-operatively, due to dysmotility, altered , and impaired mucosal immunity in aganglionic bowel segments, presenting with , fever, and explosive in 20-60% of cases. Other non-infectious cases include idiopathic forms, where no clear trigger is identified, often overlapping with chronic immune-mediated conditions like or very early-onset IBD, characterized by persistent lymphocytic or collagenous infiltration without evident allergies or vascular issues. These idiopathic presentations underscore the heterogeneous nature of enterocolitis, sometimes requiring exclusion of infectious parallels in mixed etiologies before attributing to non-microbial causes.

Diagnosis

Clinical Assessment

The clinical assessment of suspected enterocolitis begins with a thorough patient history to identify risk factors and characterize symptoms, guiding the and urgency of evaluation. In cases of potential infectious enterocolitis, clinicians inquire about recent travel to regions with poor sanitation or exposure to contaminated food and water, as these increase the risk of acquiring pathogens like or . A history of recent use is critical, particularly for antibiotic-associated enterocolitis such as that caused by , where broad-spectrum antibiotics disrupt the gut and predispose to overgrowth. For neonates at risk of (NEC), the history emphasizes prematurity details, including and , as preterm infants below 32 weeks gestation face substantially higher incidence due to intestinal immaturity. Feeding history is also probed, distinguishing formula-fed from breastfed infants, since formula feeding elevates NEC risk by promoting bacterial overgrowth compared to the protective effects of human milk. The onset, duration, and progression of symptoms—such as , , , or feeding intolerance—further inform acuity, with rapid worsening suggesting severe disease. Physical examination prioritizes vital signs and abdominal evaluation to detect signs of instability and localize pathology. Vital signs often reveal or in systemically ill patients, signaling , , or from inflammatory mediators. Abdominal and typically disclose distension, a common early finding due to or gas accumulation, accompanied by tenderness that may indicate mucosal or deeper involvement. In more advanced presentations, especially , examiners may note palpable masses representing edematous bowel loops or fixed tenderness suggestive of risk, while yields hyperactive, diminished, or absent bowel sounds reflecting varying degrees of impairment. To standardize severity assessment in neonatal NEC, the Bell staging system integrates clinical findings to classify disease progression and inform management. Stage I (suspected NEC) encompasses mild systemic manifestations like temperature instability or apnea alongside gastrointestinal signs such as gastric retention, , or guaiac-positive stools. Stage II (definite, mildly to moderately ill) includes persistent systemic signs with more evident abdominal changes, including absent bowel sounds, right upper quadrant mass, or worsening . Stage III (advanced, severely ill) features profound instability, such as , apnea, and , often with evidence of or on exam. This framework, originally proposed for therapeutic decision-making, remains foundational despite later modifications incorporating imaging.

Laboratory Tests

Laboratory tests play a crucial role in confirming , assessing severity, and identifying underlying causes in suspected cases of enterocolitis, guided by clinical suspicion from history and examination findings. Blood tests are essential for evaluating systemic involvement. Elevated (CRP) levels, often exceeding 10 mg/L, serve as a marker of acute inflammation in enterocolitis. or may occur, reflecting the host's to or stress. , defined as a platelet count below 150 × 10⁹/L, is frequently observed and correlates with disease severity. Blood cultures are routinely performed to detect bacteremia or , particularly in severe or neonatal cases. Stool analyses help identify mucosal damage and specific pathogens. Tests for occult blood detect indicative of erosive . The presence of fecal leukocytes signals invasive bacterial . Fecal calprotectin levels, a marker of activity in the gut, are elevated in inflammatory enterocolitis (typically >50 μg/g) and aid in distinguishing inflammatory from non-inflammatory causes. For suspected difficile-associated enterocolitis, toxin assays (A and B) via are standard, often combined with nucleic acid amplification for confirmation. Multiplex panels enable rapid detection of multiple enteric pathogens, including bacteria, viruses, and parasites. Additional specialized tests provide insights into specific subtypes. In necrotizing enterocolitis (), thrombocytopenia is a hallmark finding, present in 50-95% of cases and often worsening with progression. Peripheral eosinophilia may be noted in allergic forms of enterocolitis, such as , supporting an immune-mediated etiology.

Imaging and Other Studies

Imaging studies play a crucial role in diagnosing enterocolitis by visualizing the extent of bowel involvement, wall integrity, and potential complications such as perforation or ischemia. Plain abdominal remains the initial and most accessible modality, particularly in neonatal (), where it can reveal nonspecific early findings like bowel distension and fixed dilated loops, progressing to more specific signs. , characterized by gas within the bowel wall appearing as linear or cystic lucencies, is a radiographic feature of , often accompanied by portal venous gas, which manifests as branching radiolucencies extending to the liver periphery. Free intraperitoneal air, indicating , presents as the football sign or continuous diaphragm sign on supine views, necessitating urgent surgical evaluation. Abdominal ultrasound serves as a valuable adjunct, offering real-time assessment without radiation exposure, especially in neonates and pediatric cases. Key findings include bowel wall thickening exceeding 3 mm, increased echogenicity due to submucosal edema, and hyperemia on Doppler imaging, which correlate with inflammation severity. Free peritoneal fluid or echogenic debris suggests complicated disease, while absent peristalsis or fixed loops indicate ischemia. In Hirschsprung-associated enterocolitis, contrast enema—though used cautiously to avoid perforation—delineates the transition zone between aganglionic and ganglionated bowel, aiding in confirming the underlying anatomy. For adult and immunocompromised patients, such as those with typhlitis (), computed tomography () is the preferred advanced imaging modality due to its ability to assess mural and extramural changes comprehensively. demonstrates circumferential bowel wall thickening greater than 4 mm, particularly in the and , with submucosal creating a "" or "" appearance; in difficile-associated cases, the "accordion" or "giraffe coat" sign reflects severe mucosal hyperenhancement alternating with . , portal gas, and pericolic stranding further indicate progression, while extraluminal air signals . () is rarely employed in acute enterocolitis owing to time constraints and limited availability but may visualize bowel wall and perfusion deficits in select chronic or equivocal cases, particularly to avoid repeated . In chronic, infectious, or diagnostically unclear enterocolitis, with provides direct visualization and histopathological confirmation. Endoscopic findings may include pseudomembranes in Clostridium difficile infection or ulcerations in enterocolitis, with biopsies revealing inflammatory infiltrates or pathogens to differentiate from . This invasive approach is reserved for stable patients to minimize perforation risk.

Treatment

Supportive Management

Supportive management forms the cornerstone of initial care for enterocolitis, aiming to stabilize the patient, reduce intestinal workload, and prevent further deterioration by maintaining fluid balance and nutritional status. This approach is particularly critical in severe cases, such as () in neonates, where prompt intervention can mitigate risks like . Bowel rest is a primary strategy to allow the inflamed intestines to recover, typically achieved by implementing nil per os () status, meaning no oral or enteral feedings are administered. In addition, nasogastric decompression via a nasogastric tube is employed to gastric contents, thereby reducing bowel distension, , and the risk of . This measure is standard in suspected and other acute inflammatory conditions to minimize and promote healing. Fluid and management is essential to counteract and imbalances caused by , , or third-space losses in enterocolitis. Intravenous () hydration with isotonic fluids, such as normal saline or lactated Ringer's, is initiated to restore volume and correct disturbances like or . For prolonged periods, total (TPN) is provided to meet caloric and nutritional needs, preventing while the gut rests; this is especially vital in neonates and pediatric patients where growth demands are high. Oral rehydration solutions may be used in milder infectious cases once tolerated, but routes are preferred in severe . Close ensures timely detection of progression or complications in enterocolitis patients under supportive care. Serial physical examinations, including assessment of (, , ) and abdominal girth measurements, are performed frequently—every 4 to 6 hours in neonates—to track changes in distension or tenderness. evaluations, such as complete counts and panels, complement clinical to identify systemic instability early. In neonatal cases, abdominal radiographs may be repeated as needed to evaluate bowel status without altering supportive protocols.

Pharmacological Interventions

Pharmacological interventions for enterocolitis are etiology-specific and aim to target underlying infectious or inflammatory processes while minimizing disruption to gut or . In infectious cases, broad-spectrum antibiotics are initiated empirically to cover common pathogens, with adjustments based on culture results and clinical response. For non-infectious forms, such as eosinophilic enterocolitis, anti-inflammatory agents like corticosteroids are employed to reduce eosinophilic infiltration and alleviate symptoms. In (), particularly in neonates, initial antibiotic therapy typically involves a combination of and gentamicin to provide broad-spectrum coverage against gram-positive and , often supplemented with clindamycin or for coverage. This regimen is administered intravenously for 7 to 14 days, depending on clinical improvement and the absence of perforation, with de-escalation guided by blood and peritoneal cultures. For Clostridioides difficile-associated enterocolitis, oral at 125 mg every 6 hours for 10 days is the first-line therapy, with intravenous (500 mg every 8 hours) added in severe or cases to enhance neutralization and bacterial clearance. Antidiarrheal agents, such as , are generally contraindicated in infectious enterocolitis due to the risk of prolonging toxin exposure and worsening outcomes by inhibiting gut motility. In contrast, —such as species (e.g., L. acidophilus) or combinations with —have shown efficacy in preventing and treating in preterm infants by promoting beneficial and reducing , with meta-analyses reporting a of 0.54 for severe incidence. These are administered enterally, often starting prophylactically in high-risk neonates, but their use requires strain-specific validation and monitoring for adverse effects. For eosinophilic enterocolitis, systemic corticosteroids like (30-40 mg/day initially, tapered over 6-8 weeks) serve as the cornerstone of , achieving remission in up to 90% of cases by suppressing activation and migration. Antifungal agents, such as , are reserved for cases with confirmed fungal involvement, such as in neutropenic patients, where they are added if no response to antibacterial occurs within 48-72 hours, targeting in fungal membranes to halt invasion. These interventions are most effective following initial supportive stabilization, such as fluid resuscitation and bowel rest.

Surgical Options

Surgical intervention is indicated in cases of enterocolitis complicated by bowel , intestinal , or failure of medical management, such as persistent clinical deterioration despite supportive and pharmacological therapies, including worsening on imaging. , often detected radiographically, serves as a definitive sign of necessitating urgent , while necrotic bowel confirmed intraoperatively requires immediate resection to prevent and multi-organ failure. In neonates with (), a common form of severe enterocolitis, approximately 25-30% of cases progress to require surgical management due to these complications. For hemodynamically unstable neonates, initial peritoneal drainage is a performed at the bedside, involving placement of a through a small incision to evacuate and gas, thereby decompressing the and stabilizing the patient prior to definitive . In more stable patients or following drainage, is the standard approach, allowing direct visualization and assessment of bowel viability; necrotic segments are resected, followed by either primary if sufficient healthy bowel remains or creation of a to divert fecal stream and promote healing. Specialized techniques, such as the Bishop-Koop procedure, are employed in cases, where a proximal is created with the distal limb brought out in continuity for postoperative to prevent distal obstruction, reducing complications compared to traditional divided stomas. Postoperative management may include second-look 24-48 hours after initial to reassess bowel viability and perform additional resections if needed, particularly in extensive where ongoing ischemia is suspected. Long-term outcomes involve ostomy care, with enterostomies typically reversed after 6-8 weeks once inflammation resolves and nutritional status improves, though survivors face risks of , strictures, and recurrent infections requiring multidisciplinary follow-up. Early surgical timing in cases of medical failure is associated with improved outcomes compared to delayed interventions.

Prognosis and Prevention

Prognosis

The prognosis of enterocolitis varies significantly by , patient population, and disease severity, with () in neonates carrying the highest risks. For , overall mortality rates range from 20% to 30%, though rates exceed 50% in extremely preterm infants born before 28 weeks gestation due to associated complications like and multi-organ failure. In contrast, infectious enterocolitis in otherwise healthy adults typically has a low mortality rate, as most cases resolve with supportive care and antibiotics without progression to severe complications. However, , often seen in immunocompromised patients undergoing , is associated with mortality rates of 30% to 50%, primarily from bowel perforation and overwhelming infection. Morbidity remains a substantial concern for survivors, particularly in pediatric cases. Approximately 20% to 30% of infants with NEC require surgical intervention, such as or peritoneal drainage, to address intestinal or . Long-term sequelae include growth delays and recurrent infections in up to 25% of survivors, alongside neurodevelopmental impairments such as , cognitive deficits, and sensory losses affecting around 25% of NEC cases. Complications like further influence prognosis by increasing the risk of dependence and associated . Key factors improving outcomes include early and targeted interventions. Prompt recognition through clinical and assessments allows for timely . Recent 2025 data indicate that supplementation in preterm infants reduces overall mortality by approximately 38% but shows no significant effect on incidence. Recovery timelines vary, with medical often resolving in 7 to 14 days, while surgical cases may extend hospital stays beyond 30 days and require months of .

Prevention Strategies

Prevention of enterocolitis focuses on evidence-based measures to mitigate infection risks and support gut health, particularly targeting vulnerable populations such as neonates and immunocompromised individuals. In the general population, rigorous hand hygiene practices, including washing with soap and water for at least 20 seconds after using the bathroom and before food preparation, significantly reduce the transmission of bacterial and viral pathogens that can cause infectious enterocolitis. Safe food and water practices, such as cooking meats thoroughly to an internal temperature of at least 165°F (74°C), avoiding cross-contamination between raw and cooked foods, and consuming only treated or boiled water in high-risk areas, further prevent outbreaks of foodborne enterocolitis. Judicious use of antibiotics, reserved only for confirmed bacterial infections to avoid disrupting the gut microbiome and promoting resistant strains, is recommended by health authorities to lower the incidence of antibiotic-associated enterocolitis. Vaccination against rotavirus, administered orally to infants starting at 2 months of age, provides 85-98% protection against severe rotavirus gastroenteritis, a common cause of enterocolitis in young children. For neonates, particularly preterm infants at high risk for necrotizing enterocolitis (NEC), exclusive breastfeeding or provision of human milk is a cornerstone strategy, reducing NEC incidence by approximately 50% compared to formula feeding due to its immunomodulatory and anti-inflammatory components. Standardized feeding protocols in neonatal intensive care units (NICUs), which involve gradual advancement of enteral feeds, monitoring for feeding intolerance, and prioritizing human milk, have been shown to decrease NEC rates by up to 87% in observational studies by promoting gut maturation and reducing feeding-related stress. Probiotic supplementation with strains such as Bifidobacterium infantis or combinations of Bifidobacterium and Lactobacillus, as recommended in 2020 guidelines from the American Gastroenterological Association for preterm infants under 37 weeks gestation, reduces the risk of severe NEC (stage II or higher) and associated mortality by altering the gut microbiome in favor of beneficial bacteria. However, probiotics carry rare risks, including sepsis in approximately 1.4 to 4 per 1000 preterm infants. In high-risk groups, such as preterm neonates and immunocompromised patients, additional targeted interventions are essential. Delayed cord clamping for 30-60 seconds at birth in preterm infants increases placental transfusion, reducing incidence from 5.4% to 1.3% by improving hemodynamic stability and iron stores. Avoiding unnecessary invasive procedures, including central venous catheters and urinary catheters unless clinically indicated, minimizes risks that can precipitate enterocolitis in vulnerable neonates. For immunocompromised individuals, such as those post-transplant or with primary immunodeficiencies, routine surveillance through clinical monitoring of gastrointestinal symptoms and prompt diagnostic evaluation enables early intervention to prevent progression to severe enterocolitis.