Gastroenteritis Infection with nontyphoidal serotypes of
Salmonella generally results in gastroenteritis or what is commonly called
food poisoning. Experimental infections of healthy adults suggest that Infection usually occurs when a person ingests a high concentration of the bacteria but studies of outbreaks from contaminated food suggests that much lower doses can result in infection. Infants, young children and the elderly are likely to be more susceptible to infection, easily achieved by ingesting a small number of bacteria, although direct evidence of this is not available. In infants, infection through inhalation of bacteria-laden dust is possible. The organisms enter through the digestive tract. Infection is initiated after Salmonella reach the gastrointestinal tract. Gastric acidity is responsible for the destruction of the majority of ingested bacteria, but
Salmonella has evolved a degree of tolerance to acidic environments that allows a subset of ingested bacteria to survive. Some of the microorganisms are killed in the stomach, while the surviving ones enter the small intestine, invade cells of the epithelium and multiply within the cells in tissues. Salmonella triggers a strong immune response through a number of mechanisms that leads to inflammatory diarrhoea typical of gastroenteritis. The inflammatory response also results in changes to the good bacteria resident in the gut lumen, that favours outgrowth of the
Salmonella at this location. Consequently, a combination of high numbers of
Salmonella in the faeces and diarrhoea contributes to transmission via contamination of the environment. About 2,000 serotypes of nontyphoidal
Salmonella are known, which may be responsible for as many as 1.4 million illnesses in the United States each year. People who are at risk for severe illness include infants, elderly, organ-transplant recipients, and the immunocompromised.. This second wave of iNTS possibly originated in the
Congo Basin, was characterized by changes in its genome sequence called genome degradation that is typical of host-adapted and host restricted serotypes such as
Salmonella enterica serotype Typhi. Spread of the second wave in the early part of the 21st century was coincided with acquisition of a gene that made it resistant to the antibiotic
chloramphenicol. This created the need to use expensive antimicrobial drugs in areas of Africa that were very poor, making treatment difficult. The increased prevalence of iNTS in sub-Saharan Africa compared to other regions is thought to be due to the large proportion of the African population with some degree of immune suppression or impairment due to the burden of
HIV,
malaria, and malnutrition, especially in children. The genetic makeup of iNTS is evolving into a more typhoid-like bacterium, able to efficiently spread around the human body. Symptoms are reported to be diverse, including fever,
hepatosplenomegaly, and respiratory symptoms, often with an absence of gastrointestinal symptoms.
Epidemiology Due to being considered sporadic, between 60% and 80% of salmonella infections cases go undiagnosed. In March 2010, data analysis was completed to estimate an
incidence rate of 1140 per 100,000 person-years. In the same analysis, 93.8 million cases of
gastroenteritis were due to salmonella infections. At the 5th percentile the estimated amount was 61.8 million cases and at the 95th percentile the estimated amount was 131.6 million cases. The estimated number of deaths due to salmonella was approximately 155,000 deaths. In 2014, in countries such as Bulgaria and Portugal, children under 4 were 32 and 82 times more likely, respectively, to have a salmonella infection. Those who are most susceptible to infection are: children, pregnant women, elderly people, and those with deficient immune systems. Risk factors for Salmonella infections include a variety of foods. Meats such as chicken and pork have the possibility to be contaminated. A variety of vegetables and sprouts may also have salmonella. Lastly, a variety of processed foods such as chicken nuggets and pot pies may also contain this bacteria. Successful forms of prevention come from existing entities such as the
FDA,
United States Department of Agriculture, and the
Food Safety and Inspection Service. All of these organizations create standards and inspections to ensure public safety in the
U.S. For example, the
FSIS agency working with the USDA has a Salmonella Action Plan in place. Recently, it received a two-year plan update in February 2016. Their accomplishments and strategies to reduce Salmonella infection are presented in the plans. The
Centers for Disease Control and Prevention also provides valuable information on preventative care, such has how to safely handle raw foods, and the correct way to store these products. In the
European Union, the
European Food Safety Authority created preventative measures through risk management and risk assessment. From 2005 to 2009, the EFSA placed an approach to reduce exposure to
Salmonella. Their approach included risk assessment and risk management of poultry, which resulted in a reduction of infection cases by one half. In
Latin America an orally administered vaccine for Salmonella in poultry developed by Dr. Sherry Layton has been introduced which prevents the bacteria from contaminating the birds. A
Salmonella Typhimurium outbreak in 2022 was linked to chocolate produced in Belgium, leading to the country temporarily halting Kinder chocolate production. In Germany, food-borne infections must be reported. From 1990 to 2016, the number of officially recorded cases decreased from about 200,000 to about 13,000 cases. In the United States, about 1,200,000 cases of
Salmonella infection are estimated to occur each year. A World Health Organization study estimated that 21,650,974 cases of typhoid fever occurred in 2000, 216,510 of which resulted in death, along with 5,412,744 cases of paratyphoid fever. == Molecular mechanisms of infection ==