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AUTHOR AND EDITOR INFORMATION

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Author: Swetha G Pinninti, MD, Resident, Department of Pediatrics, St Peter's University Hospital

Swetha G Pinninti is a member of the following medical societies: American Academy of Pediatrics

Coauthor(s): Robert W Tolan Jr, MD, Chief of Allergy, Immunology and Infectious Diseases, The Children's Hospital at Saint Peter's University Hospital; Clinical Associate Professor of Pediatrics, Drexel University College of Medicine; Daniel R Bronfin, MD, Chief, General Academic Pediatrics, Ochsner Health System

Editors: Leonard R Krilov, MD, Chief of Pediatric Infectious Diseases, Vice Chair, Department of Pediatrics, Professor of Pediatrics, Winthrop University Hospital; Mary L Windle, PharmD, Adjunct Assistant Professor, University of Nebraska Medical Center College of Pharmacy, Pharmacy Editor, eMedicine.com, Inc; Joseph Domachowske, MD, Associate Professor, Department of Pediatrics, Division of Infectious Diseases, State University of New York-Upstate Medical University; Robert W Tolan Jr, MD, Chief of Allergy, Immunology and Infectious Diseases, The Children's Hospital at Saint Peter's University Hospital; Clinical Associate Professor of Pediatrics, Drexel University College of Medicine; Russell W Steele, MD, Professor and Vice Chairman, Department of Pediatrics, Head, Division of Infectious Diseases, Louisiana State University Health Sciences Center

Author and Editor Disclosure

Synonyms and related keywords: Enterobacteriaceae, Yersinia enterocolitica infection, Y enterocolitica, yersiniosis, sepsis, Yersinia pestis, bubonic plague, Yersinia pseudotuberculosis, mesenteric adenitis, Yersinia sepsis, hemochromatosis, nonspecific ileocolitis, bacteremia, enterocolitis, appendicitis, peritonitis, meningitis, intussusception, cholangitis, pseudoappendicitis syndrome, mesenteric lymphadenitis, cellulitis, conjunctivitis, osteomyelitis, pharyngitis, pneumonia, pyomyositis, urinary tract infection, acute iron ingestion, sickle cell disease, thalassemia, reactive polyarthritis, erythema nodosum, proliferative glomerulonephritis

INTRODUCTION

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Background

Yersinia enterocolitica is a well-described enteric pathogen with distinctive clinical manifestations, a range of outcomes, and a predilection for children. In 1939, Schleifstein and Coleman first described Y enterocolitica. Approximately 75% of patients with Y enterocolitica infection are children aged 5-15 years. The spectrum of disease ranges from asymptomatic to life-threatening sepsis, especially in infants.

Pathophysiology

This organism belongs to the family Enterobacteriaceae, genus Yersinia, which includes 11 species. Three of these species are pathogenic in man: Yersinia pestis (bubonic plague), Yersinia pseudotuberculosis (mesenteric adenitis), and Y enterocolitica. Y enterocolitica is an oxidase-negative, non–lactose-fermenting, gram-negative coccobacillus that is motile at 22°C but is not motile at 37°C. Biotyping and serotyping can be performed. Of the 34 serotypes of O antigen, types 0:3 (sporadic cases in the United States);1 0:5,27; 0:8 (food-borne outbreaks in the United States); and 0:9 are the most common and represent the most virulent worldwide causes of human yersiniosis. Virulence can be chromosomal or via plasmid encoding.

Y enterocolitica grows most efficiently in environments with a pH of 5.0-9.0, hence the increased incidence of the disease in patients who take antacids and histamine 2 blockers. The organism requires iron to survive, and Yersinia sepsis has been reported in clinical states of iron overload, such as hemochromatosis, and in children following accidental iron overdose. Y enterocolitica grows on basic enteric media, producing subtle pinpoint colonies after 24 hours of incubation. Optimally, if Y enterocolitica is suspected, cefsulodin-irgasan-novobiocin agar should be used.

After ingestion of the organism, the terminal ileum is the site of mucosal adherence and penetration, followed by reproduction of the organism in Peyer patches. Nonspecific ileocolitis is often noted, with an inflammatory infiltrate in the lamina propria. The bacteria may then spread to the mesenteric lymph nodes; this spread may lead to bacteremia or to the development of abscesses and pain in the right lower quadrant that mimic the pain of appendicitis.2 Although Y enterocolitica does produce a heat-stable enterotoxin similar to that of Escherichia coli, the enterotoxin does not contribute to the pathogenicity of the organism. Plasmid-encoded proteins of the outer membrane represent a major determinant in the pathogenicity of Y enterocolitica by contributing to adherence and invasion of the organism; antibodies directed against these proteins are present in patients convalescing from disease.

Frequency

United States

Y enterocolitica infection is more common in cooler climates, and its prevalence peaks from November to January.3 Y enterocolitica has been isolated in 1.4-2.8% of stools of children with diarrhea. Disease occurs in 1 person per 100,000 population per year in the United States.

International

Most frequently recognized in Northern Europe.

Mortality/Morbidity

The incubation period is 1-14 days, and the duration of stool excretion is 14-97 days. Symptoms typically persist for 5-14 days.

Sex

The male-to-female ratio is 1.7:1.

Age

Most infections occur in children younger than 7 years, with most younger than 1 year.


CLINICAL

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History

Y enterocolitica infection may be asymptomatic; however, several syndromes are associated with Y enterocolitica infection in children.

  • Enterocolitis
    • Enterocolitis, the most common presentation, occurs primarily in young children, with a mean age of 24 months.
    • The incubation period is 4-6 days, typically with a range of 1-14 days.
    • Prodromal symptoms of listlessness, anorexia, and headache may be present. Such symptoms are followed by watery, mucoid diarrhea (78-96%); fever (43-47%); colicky abdominal pain (22-84%); bloody stools (<10%); and WBCs in the stool (25%).
    • Duration of diarrhea is generally between 1 day and 3 weeks.
    • Concomitant bacteremia may occur in 20-30% of infants younger than 3 months.
    • Most cases are self-limited.
    • Complications include appendicitis, diffuse ulceration and inflammation of the small intestine and colon, peritonitis, meningitis, intussusception,4 and cholangitis.
  • Pseudoappendicitis syndrome
    • Characteristics include fever, abdominal pain, tenderness in the right lower quadrant, and leukocytosis.
    • Pseudoappendicitis syndrome is caused by infection with Y pseudotuberculosis.
    • Infection causes mesenteric lymphadenitis with terminal ileitis.
    • Pseudoappendicitis syndrome is more common in older children and young adults.
  • Extraintestinal infections
    • These infections are rare, are most common in females, and can occur in the absence of bacteremia.
    • Examples include the following:
      • Cellulitis
      • Conjunctivitis
      • Meningitis
      • Osteomyelitis
      • Pharyngitis
      • Pneumonia5
      • Pyomyositis
      • Urinary tract infection
  • Bacteremia: Bacteremia is seen most frequently in patients with chronic disease or patients in an iron-overloaded state (eg, acute iron ingestion, sickle cell disease, thalassemia) because iron is a major growth factor for these bacteria.
  • Postinfectious, nonsuppurative sequelae: Such sequelae, which are uncommon, include reactive polyarthritis, erythema nodosum, and proliferative glomerulonephritis. These sequelae are associated with human leukocyte antigen HLA-B27 and older age.

Physical

  • Clinically, suspect Y enterocolitica infection in children with watery, bloody, mucoid diarrhea; a positive stain for WBCs; and exposure to uncooked meat products, particularly pork.
  • Physical findings mimicking appendicitis may be noted.
  • Less commonly, pharyngitis, cellulitis, meningitis, conjunctivitis, pneumonia, arthritis, and erythema nodosum are observed.

Causes

  • Animal reservoirs
    • Swine (principle reservoir)
    • Cattle
    • Dogs
    • Rodents
    • Sheep
    • Cats
  • Transmission
    • Transmission is primarily via ingestion of contaminated foods, water, and milk.
    • Fecal-oral transmission among humans has not been proven.
    • Transmission via blood products has occurred.
    • Infection can be transmitted from mother to newborn infant.


DIFFERENTIALS

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Amebiasis
Appendicitis
Ascariasis
Campylobacter Infections
Clostridium Difficile Colitis
Crohn Disease
Cryptosporidiosis
Cyclospora
Cytomegalovirus Colitis
Escherichia Coli Infections
Food Poisoning
Gastroenteritis, Bacterial
Gastroenteritis, Viral
Giardiasis
Inflammatory Bowel Disease
Intestinal Flukes
Irritable Bowel Syndrome
Isosporiasis
Lactose Intolerance
Mesenteric Lymphadenitis
Microsporidiosis
Pseudomembranous Colitis
Pseudotuberculosis (Yersinia)
Salmonella Infection
Salmonellosis
Shigella Infection
Strongyloidiasis
Trichinosis
Typhoid Fever
Ulcerative Colitis
Vibrio Infections
Vibrio Infections

WORKUP

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Lab Studies

  • Stool culture
    • Stool culture is the best way to confirm this diagnosis.
    • Culture is usually positive within 2 weeks of onset of disease.
    • Instruct the laboratory to plate enteric specimens onto enteric media, with incubation at 25°C for 48 hours. If Y enterocolitica is suspected, cold enhancement techniques or cefsulodin-irgasan-novobiocin agar should be used.
  • Agglutination
    • Agglutination titers rise one week after onset of illness and reach maximal levels at 2 weeks; elevated levels can be found for years after infection.
    • In the presence of suspected postinfectious disease, bacteriologic confirmation is generally not possible.
    • Agglutinin titers greater than 1:128 aid in the presumptive diagnosis of a previous infection with Y enterocolitica.
  • False positive results: In the presence of thyroid disease, false positive results are seen.


TREATMENT

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Medical Care

  • Care is primarily supportive.
  • Antibiotics do not influence the course of uncomplicated enteritis.
  • Always aggressively treat infants younger than 3 months, immunocompromised children, and patients with extraintestinal disease. This treatment is best accomplished in a hospital setting with intravenous antibiotics.

Diet

  • Dehydration
    • If the child is dehydrated, institute appropriate oral rehydration.
    • Intravenous rehydration may be necessary if the child is in critical condition or unable to maintain oral hydration.
  • Nutrition: Adequate nutrition is mandatory to prevent malnutrition and promote healing.

Activity

  • Activity is permitted as tolerated.


MEDICATION

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Good nutrition and hydration are the mainstays of treatment. Antibiotics are indicated only as outlined. Tetracycline has traditionally been the drug of choice (DOC); however, increasing resistance is documented. In addition, these drugs should not be routinely used in children younger than 8 years.

First-line drugs include aminoglycosides and trimethoprim-sulfamethoxazole. Other effective drugs include third-generation cephalosporins, tetracyclines, chloramphenicol, and fluoroquinolones (not approved for use in children <18 y). Yersinia organisms are uniformly resistant to penicillin G and ampicillin, with or without clavulanate. Antimotility agents are contraindicated in the treatment of Y enterocolitica infection because of the increased risk of invasion.

Drug Category: Antibiotics

For appropriate Yersinia infections, the following antibiotics have been proven effective.

Drug NameTrimethoprim and sulfamethoxazole (Bactrim, Septra, Sulfatrim)
DescriptionInhibits bacterial growth by inhibiting synthesis of dihydrofolic acid. Not helpful for uncomplicated gastroenteritis. Recommended for systemic infections, extraintestinal focal infections, and disease in immunocompromised children.
Adult Dose>40 kg: 160 mg trimethoprim/800 mg sulfamethoxazole (ie, one double-strength tab) PO bid
Pediatric Dose<2 months: Do not administer
>2 months: 8-10/kg/d (based on trimethoprim component) PO divided bid
ContraindicationsDocumented hypersensitivity; megaloblastic anemia due to folate deficiency
InteractionsMay increase PT when used with warfarin (perform coagulation tests and adjust dose accordingly); coadministration with dapsone may increase blood levels of both drugs; coadministration of diuretics increases incidence of thrombocytopenia purpura in elderly; phenytoin levels may increase with coadministration; may potentiate effects of methotrexate in bone marrow depression; hypoglycemic response to sulfonylureas may increase with coadministration; may increase levels of zidovudine
PregnancyC - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus
PrecautionsContraindicated in pregnancy near term due to potential toxicity to the newborn (ie, jaundice, hemolytic anemia, kernicterus)
Discontinue at first appearance of skin rash or sign of adverse reaction; frequently obtain CBC counts; discontinue therapy if significant hematologic changes occur; goiter, diuresis, and hypoglycemia may occur with sulfonamides; prolonged IV infusions or high doses may cause bone marrow depression (if signs occur, give 5-15 mg/d leucovorin); caution in folate deficiency (eg, chronic alcoholics, elderly, those receiving anticonvulsant therapy, or those with malabsorption syndrome); hemolysis may occur in G-6-PD deficient individuals; patients with AIDS may not tolerate or respond; caution in renal or hepatic impairment (perform urinalyses and renal function tests during therapy); give fluids to prevent crystalluria and stone formation

Drug NameGentamicin (Garamycin)
DescriptionNot helpful for uncomplicated gastroenteritis. Recommended for systemic infections, extraintestinal focal infections, and disease in immunocompromised children.
Adult Dose3-6 mg/kg/d IV/IM divided q8h
Pediatric Dose<5 years: 2.5 mg/kg/dose IV/IM q8h
>5 years: 1.5-2.5 mg/kg/dose IV/IM q8h
ContraindicationsDocumented hypersensitivity
InteractionsPotentiates effects of neuromuscular blockers; possible increased risk of renal toxicity with coadministration of amphotericin B, cyclosporine, cephalosporins, or furosemide
PregnancyC - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus
PrecautionsCaution with renal disease; possibility of nephrotoxicity and ototoxicity with prolonged elevated trough concentrations; monitor levels to minimize risk of toxicity

Drug NameCefotaxime (Claforan)
DescriptionNot helpful for uncomplicated gastroenteritis. Recommended for systemic infections, extraintestinal focal infections, and disease in immunocompromised children.
Adult Dose1-2 g/dose IV/IM q6-8h
Pediatric Dose50-180 mg/kg/d IV/IM divided q6-8h
Meningitis: 300 mg/kg/d IV/IM divided q6h
ContraindicationsDocumented hypersensitivity
InteractionsProbenecid may increase cefotaxime levels; coadministration with furosemide and aminoglycosides may increase nephrotoxicity
PregnancyB - Fetal risk not confirmed in studies in humans but has been shown in some studies in animals
PrecautionsCaution with allergy to cephalosporin antibiotics; adverse reactions including rashes, thrombophlebitis, and GI upset (eg, nausea, vomiting, diarrhea)

Drug NameTetracycline (Sumycin)
DescriptionTreats gram-positive and gram-negative organisms as well as mycoplasmal, chlamydial, and rickettsial infections. Inhibits bacterial protein synthesis by binding with 30S and possibly 50S ribosomal subunit(s).
Adult Dose250-500 mg PO qid
Pediatric Dose<8 years: Not recommended
>8 years: 25-50 mg/kg/d PO divided q6h
ContraindicationsDocumented hypersensitivity; severe hepatic dysfunction
InteractionsBioavailability decreases with antacids containing aluminum, calcium, magnesium, iron, or bismuth subsalicylate; can decrease effects of oral contraceptives, causing breakthrough bleeding and increased risk of pregnancy; tetracyclines can increase hypoprothrombinemic effects of anticoagulants
PregnancyD - Fetal risk shown in humans; use only if benefits outweigh risk to fetus
PrecautionsPhotosensitivity may occur with prolonged exposure to sunlight or tanning equipment; reduce dose in renal impairment; consider drug serum level determinations in prolonged therapy; tetracycline use during tooth development (last one half of pregnancy through age 8 y) can cause permanent discoloration of teeth; Fanconilike syndrome may occur with outdated tetracyclines


FOLLOW-UP

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Deterrence/Prevention

  • Eliminate reservoirs and minimize the contamination of food products.
  • Always institute enteric precautions in the care of patients hospitalized with infection.
  • Avoid unpasteurized milk and raw pork, particularly chitterlings,6 which are often consumed during the holiday season.
  • No vaccine is available.

Complications

  • Appendicitis
  • Bacteremia
  • Cholangitis
  • Diffuse ulceration and inflammation of the small intestine and colon
  • Intussusception
  • Meningitis
  • Osteomyelitis
  • Peritonitis
  • Reactive polyarthritis
  • Hemolytic anemia

Prognosis

  • Early recognition and prompt therapy, when indicated, optimize the outcome for the patient.


MISCELLANEOUS

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Medical/Legal Pitfalls

  • Failure to diagnose or delay in diagnosis can lead to inappropriate use of ineffective antibiotics, anti-inflammatory agents, corticosteroids, immunosuppressants, antimotility agents, and surgery to treat children with yersiniosis, to the detriment of the patients.


REFERENCES

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Yersinia Enterocolitica Infection excerpt

Article Last Updated: Jan 17, 2008