Definition
Salmonellosis is an infection caused by the Salmonella
genus of the bacterial family Enterobacteriaceae. Acute
gastroenteritis is the most common form of salmonellosis.
Other clinical manifestations of salmonellosis include enteric fever and
bacteremia. Hematogenous seeding of other organs may lead to secondary
manifestations of salmonellosis, including endocarditis, pneumonia,
pyelonephritis, septic arthritis, and osteomyelitis.
Causes
Salmonella bacteria live in the intestinal tracts of humans and
of a variety of wild and domestic animals throughout the world. Poultry, cattle,
dairy cows,pigs, sheep, goats, and other agricultural livestock commonly carry
Salmonella. Pet birds, lizards, turtles, iguanas, dogs, and
cats may also carry disease-causing Salmonella species. Bacteria
pass in the feces of infected animals. Fecal contamination of food or water,
unsanitary food-handling practices, and infection of egg-laying hens can lead to
salmonellosis.
In the developing world, lack of sewage systems, inadequate water treatment,
and inconsistent or inadequate sanitation practices may lead to
Salmonella contamination of drinking water or agricultural
fields. Most salmonellosis outbreaks involve acute gastroenteritis, although
typhoid
fever remains a significant health threat in impoverished
parts of the world, including areas of Asia, Africa, Central America, and South
America. S. enterica sub. enterica serovar Typhi
(or S. typhi) and S. enterica sub.
enterica serovar Paratyphi (or S. paratyphi),
the causative agents of typhoid and paratyphoid fever, respectively, live
exclusively in the human intestine. These illnesses pass from one person to
another through human fecal contamination of foodstuffs. S. typhi
carriers can cause community outbreaks, as in the infamous case of
Typhoid
Mary in New York City in the early twentieth century.
Infection of egg-laying hens is a common cause of salmonellosis outbreaks. The bacteria infect the ovaries of hens, contaminating the eggs before shell formation. Infected hens commonly appear healthy, complicating detection of Salmonella-contaminated eggs. Breaks in sanitation or hygiene protocols during food cultivation, processing, and packaging can also lead to salmonellosis outbreaks.
Risk Factors
Ingestion of raw or undercooked eggs is a significant risk factor for eggborne salmonellosis. Unpasteurized milk can also transmit Salmonella. Inadequate handwashing and cross-contamination between meats and uncooked produce during food preparation can potentially lead to salmonellosis.
Because livestock and pets may carry Salmonella bacteria, the failure to wear gloves or thoroughly wash the hands after handling animals or their feces is a risk factor for salmonellosis. Cattle, dairy cows, poultry, turtles, lizards, and snakes are common sources of infection.
Young children, persons with human immunodeficiency virus infection
or acquired
immunodeficiency syndrome, organ transplant recipients, and
those undergoing cancer treatments have an increased risk for salmonellosis
because of their immature or weakened immune systems.
Symptoms
Salmonella gastroenteritis symptoms begin twelve to seventy-two
hours after ingestion of water or food and include nausea, vomiting, diarrhea, and abdominal
cramps, which may be accompanied by a fever of 100° to 102° Fahrenheit (38° to 39°
Celsius), chills, and headache. Fever typically resolves within two to three days;
gastrointestinal symptoms usually abate within seven days. Immunocompromised
persons may develop severe symptoms, bacteremia, and dehydration.
Symptoms of typhoid and paratyphoid fever develop more gradually than those associated with salmonella gastroenteritis. Approximately six to thirty days after infection, a low-grade fever, headache, anorexia, fatigue, and abdominal pain develop, typically accompanied by constipation or diarrhea. Symptoms intensify over three to four days, with fevers typically reaching 101° to 104° F (38.5° to 40° C). Some persons will develop a maculopapular, rose-colored rash on the trunk. Although uncommon, persons with enteric fever may develop neuropsychiatric symptoms, including lethargy, confusion, frank delirium, seizures, and coma.
Screening and Diagnosis
Routine screening is not conducted for salmonellosis, except in outbreak situations wherein carrier identification becomes critical. Isolation of Salmonella from body tissues, fluids, or excretions remains the cornerstone of diagnosis. For acute gastroenteritis, diagnosis is confirmed by isolation of Salmonella from the stool. In persons with bacteremia, isolation of Salmonella from the blood confirms the diagnosis.
Definitive diagnosis of enteric fever is often challenging because of the
limited sensitivity of blood and stool cultures with this form of salmonellosis.
Isolation of S. typhi or S. paratyphi from the
blood, stool, bone marrow, intestinal secretions, urine, or secondary infection
sites confirms the diagnosis; bone marrow cultures are the most sensitive.
Serologic
tests for antibodies to S. typhi
antigens may also aid in the diagnosis of typhoid fever. Polymerase chain
reaction testing for Salmonella is used in
some locales.
Treatment and Therapy
In an otherwise healthy person, nontyphoidal, gastrointestinal salmonellosis is
typically a self-limited illness, resolving spontaneously without antibiotic
therapy. Oral or intravenous fluid replacement may be necessary for persons with
severe symptoms. Antibiotic therapy is commonly prescribed for immunocompromised
persons with gastrointestinal salmonellosis and for those who are otherwise at
high risk for complications. Salmonella bacteremia and enteric fever are treated
with antibiotic therapy, commonly a fluoroquinolone or a third-generation
cephalosporin.
Prevention and Outcomes
Proper food handling and handwashing are key to preventing gastrointestinal salmonellosis. One should wash hands with soap and running water before and after handling food, especially raw meats. Thoroughly cooking meat and eggs kills Salmonella contaminants that may be present. Handwashing after using the toilet, changing diapers, and handling animals also helps prevent salmonellosis.
The Centers
for Disease Control and Prevention recommends typhoid
immunization for travelers visiting areas with a high incidence of S.
typhi. Oral and intramuscular vaccines effectively protect
approximately 50 to 80 percent of persons immunized against typhoid fever.
Bibliography
Fischer Walker, Christa L., David Sack, and Robert E. Black. “Etiology of Diarrhea in Older Children, Adolescents, and Adults.” PLoS Neglected Tropical Diseases 4 (2010): e768. Systematic review of twenty-two studies from around the world, examining the causative agents of infectious diarrhea and demonstrating the ongoing, high incidence of salmonellosis in community settings.
Pegues, David A., and Samuel I. Miller. “ Salmonella Species, Including Salmonella typhi.” In Mandell, Douglas, and Bennett’s Principles and Practice of Infectious Diseases, edited by Gerald L. Mandell, John F. Bennett, and Raphael Dolin. 7th ed. New York: Churchill Livingstone/Elsevier, 2010. Infectious disease text withreferenced discussion of salmonellosis epidemiology, microbiology, pathogenesis, treatment, and prevention.
Thaver, Durrane, et al. “A Comparison of Fluoroquinolones Versus Other Antibiotics for Treating Enteric Fever.” British Medical Journal 338 (2009): b1865.Meta-analysis of twenty randomized, controlled trials examining clinical and microbiological failures and relapse rates associated with antibiotics for the treatment of enteric fever.
No comments:
Post a Comment