Salmonella is a bacteria carried by rodents which can cause illness humans
Call us at 2430309
As we humans take over and expand our activities into the remaining natural environment we come into closer contact with more species of rodents and more diseases.
In fact, rodents are thought to be responsible for more deaths than all the wars over the last 1,000 years.
Salmonella is a bacteria carried by rodents which can cause illness humans
Leptospirosis is an infection caused by the urine of rodents carrying the leptospira bacteria
Rodents carry a wide range of disease-causing organisms, including many species of bacteria, viruses, protozoa and helminths (worms).
Rat-bite fever, caused by Streptobacillus moniliformis and Spirillum minus forms of bacteria can be transmitted through rodent bites, rodent urine and rodent faeces
The plague is one of the most well known diseases caused by rodents, and in particular black rats
Hanatavirus can be caused by coming into to contact with rodent urine, saliva and faeces
Many of these had rarely or never previously been investigated in wild rats (eg Cryptosporidium, Pasteurella, Listeria, Yersinia, Coxiella and Hantavirus), showing that the threat to human health is greater than previously thought.
Tulmaremia is caused by the Francisella tularensis virus found in rodents and insects
Bartonellosis is caused by the Bartonella bacteria. It is transmitted via parasitic insects using rodents as their hosts
There are two types of rat tapeworm, Hymenolepis nana and H. diminuta. Both use a beetle as the main secondary host
Rodents can carry Salmonella bacteria that cause illness in both humans and pets. Infection occurs by consumption of food or water contaminated with rodent faeces.
The most common source of infection is by food contaminated with the faeces of farm animals.
Genetic studies of Salmonella show that it is extremely complex and as a result has a complex classification. There are two species recognised and many sub-species and sub-types, called serovars:
Symptoms show 12 to 72 hours after infection and include:
Most people recover in a few days without treatment other than replacement of fluid lost by the body.
Once a person is infected, the disease is easily transmitted to other people through poor hand hygiene and poor sanitation.
The UK NHS recommends that you clean toilet seats, toilet bowls, flush handles, taps and wash hand basins after use with detergent and hot water, followed by a household disinfectant.
An unusual source of Salmonella infection was recorded in the US in 2014. An outbreak of Salmonella Typhimurium was traced by the US Centers for Disease Control (CDC) to frozen rodents supplied by a pet feed company for feeding pet reptiles and amphibians.
One strain of Salmonella, S. Typhi, causes more severe infection and spreads from the intestines to the blood and lymphatic system and then to other body sites.
Typhoid fever (full name Salmonella enterica subsp. enterica serovar Typhi) is endemic in many developing countries where poor hygiene is widespread, affecting 27 million people a year, especially children.
Humans are the only animal infected by this strain so it is unlikely to be transmitted by rats unless they come into direct contact with human faeces, for example in sewer systems.
Typhoid can be treated with antibiotics and vaccines are available to give protection from infection.
Leptospirosis is an infection caused by species of Leptospira bacteria. It is caught from the urine of infected animals, which include rodents and also cattle, pigs and dogs.
Humans can become infected by:
The bacteria live inside the animal’s kidneys and are passed out in urine. They can survive for weeks or months in soil or water.
The bacteria do not only enter the body through the mouth, they can also enter through the skin, especially if broken by a scratch or cut, and the mucus membranes of the eyes, nose and mouth.
Leptospirosis occurs throughout temperate and tropical zones, but is more common in tropical and subtropical areas where the temperature and humidity are more favourable for its growth.
The risk of catching it is low for most people. However, occupations or activities that have contact with animals or freshwater sources have a higher risk.
Occupations & activities at higher risk
Symptoms of Leptospirosis show in around 7-14 days and can include mild to severe flu-like symptoms including:
It can be treated with antibiotics.
In about 10% of Leptospirosis cases a more serious form develops, called Weil’s disease. This can result in organ failure, internal bleeding and death.
It needs urgent treatment in a hospital where ventilator, dialysis treatment, and intravenous antibiotics and fluids can be given.
Rat-bite fever is caused by two bacteria Streptobacillus moniliformis and Spirillum minus.
In infected rodents the bacteria are present in rat faeces and urine and secretions from the mouth, nose and eyes.
It is usually caused by a bite or scratch from an infected rat or other rodents such as mice, squirrels and gerbils. It can also be caught by handling infected animals and ingesting food or drink contaminated with rodent faeces or urine.
Symptoms of rat-bite fever differ between the two bacteria.
In addition, more serious complications can include:
Both infections can be treated with antibiotics.
Reports of rat-bite fever are rare in Europe and North America, but as reporting is not required it may be under-reported.
The plague is the classic disease that is linked to rats in the human environment, causing many epidemics through history and wiping out large proportions of populations. It spread along the ancient land and sea trade routes and into urban environments with their dense human populations.
In Russia, the main species is thought to be the marmot which lives in the Steppes.
In the western US, several species of rodents are now known to carry the bacteria — even causing instances of colony collapse in the prairie dog.
The California Department of Public Health has a plague surveillance programme that tests wild rodents for the disease. It produces a map of ‘plague positive’ rodents tested at sites where they are likely to interact with people (eg campsites).
The symptoms that can occur depend on how the disease was transmitted:
The plague is treatable with antibiotics.
It is important to obtain diagnosis and treatment rapidly as death can occur rapidly. In bubonic plague death can occur in less than two weeks.
With septicemic plague death can occur before symptoms appear, and with pneumonic plague all untreated patients die! The potential causes such as flea bites and visits to endemic areas should be relayed the doctor.
Many species of rodent carry hantaviruses, especially voles and mice.
Different species carry different virus whose virulence varies but which show similar symptoms of flu-like conditions.
Humans can catch the disease through contact with rodent urine, saliva and faeces, by touch, contaminated food or drink, or from breathing in aerosolised particles.
A severe infection is caused by the Hantaan virus which occurs in China, the Democratic People’s Republic of Korea, the Republic of Korea and far eastern Russia. This is carried by the striped field mouse.
In Europe the main carrier is the bank vole, which hosts the Puumala virus, the cause of a relatively mild form of haemorrhagic fever with renal syndrome (HFRS). Finland, countries of the former Yugoslavia, Sweden, Belgium, France, Germany, Greece and the Netherlands report significant numbers of cases annually.
The Dobrava virus, which causes a severe form of HFRS, is present in southern Europe, carried by the yellow-necked mouse. The milder Saaremaa virus is also carried by the striped field mouse in Estonia and nearby in Russia.
In America many species of hantavirus have been identified in rodents. The most important of these is Sine Nombre virus which is carried by deer mice in Canada, Mexico and the US. This causes Hantavirus pulmonary syndrome, which has a high fatality rate.
Tularemia is caused by the bacteria, Francisella tularensis, which has several strains that vary in virulence and geographical range.
Taxonomically it is classified in the group of primitive intracellular bacteria that includes Listeria, Legionella, Brucella, Coxiella and Rickettsia. It is in an isolated branch of primitive bacteria, having only one other species in the family Francisellaceae: F. philomiragia. However, genetic analysis may lead to new species being classified.
It is present in a wide geographic band across the whole northern hemisphere.
Tularemia infects or is carried by a large number of mammals and arthropods.
Outbreaks in humans correlate to peaks in populations of rodents and hares.
Ticks & fleas
The bacteria has been found in many species of tick and flea, though the level of infection varies, so the significance each plays in human infection is not well understood.
Among mosquitoes, Aedes, Culex, and Anopheles species are known to carry the disease.
Among the biting flies, true horse flies (Tabanus spp. and Chrysozona spp.) and deer flies (Chrysops spp.) can pick up the disease from the reservoir animals and spread infection between animals.
The Tularemia bacteria can enter the human body via the skin, eyes, mouth, throat or lungs. This can occur through:
There are no known cases of human to human transmission (which is actually seen as an advantage in biological warfare in restricting infection to the target population) or of the direct transmission from one human to another by arthropods (fleas, ticks, mosquitoes, biting flies).
However, due to the very small number of bacteria needed to cause an infection, it is one of the most infectious diseases known.
The symptoms differ depending on the route of infection, but all produce a fever:
Symptoms last several weeks and can easily be mistaken for other diseases as Tularemia is relatively rare.
Tularemia responds to a range of antibiotics. Left untreated it can spread to multiple organs including lung, spleen, liver, lymphatic system.
The most well-known species is B. Quintana which was the cause of trench fever during the First World War and spread by the body louse. This species is not known to have an animal reservoir, however. Cat scratch disease is also caused by several Bartonella species.
Bartonella elizabethae has been found in rats in America, Asia and Europe. Several other species that can infect humans have been found in ground squirrels and deer mice in the US and woodland rodents in Europe.
Patients with these infections have shown symptoms of heart inflammation (endocarditis, myocarditis) and eye disease (neuroretinitis).
Treatment is with antibiotics.
Arenavirus is a genus of primitive viruses, at least eight species of which are known to cause serious diseases in humans that usually show as fever and acute haemorrhagic illness. Some such as Lassa fever have high mortality.
Each of these virus species is associated with a particular rodent species, usually in a localised geographic region. They are divided into two groups called ‘Old World’ and ‘New World’ depending on where they were discovered but they also differ genetically.
There is no vaccine or specific treatment for these diseases and their biology is not well understood. They are transmitted to humans by contact with food or items contaminated with rodent excretions or inhalation of contaminated particles, in the home, factories or agricultural areas.
Some are known to be transmitted from person to person, such as direct contact with blood or body fluid of an infected person, or infected objects such as medical equipment in a hospital.
Toxoplasmosis is a very common infection caused by the protozoan Toxoplasma gondii.
The main host is the domestic cat, but rodents and other small animals are intermediate hosts, passing on the parasite when eaten by cats.
Contamination from cat faeces is then a means of human infection. Raw meat and vegetables are also routes of infection.
In most people there are no symptoms, but pregnant women and people with weak immune systems are at risk.
It can cause miscarriage, stillbirth or other health complications to foetuses.
Some cases produce flu-like symptoms with swollen lymph nodes and severe toxoplasmosis can cause damage to the brain, eyes or other organs.
There are two types of rat tapeworm, Hymenolepis nana and H. diminuta. Both species use a beetle (eg a flour beetle) as the main secondary host and are found in warm climates worldwide.
H. nana is the most common as, unusually for helminths, it can have a complete lifecycle in human intestines and spread from person to person through eggs in faeces. It attaches to the intestine wall and absorbs nutrients through the cells lining the intestine.
Light infections may not produce any symptoms. Severe infections can cause:
Infection may have no damaging effect on adults, but is more likely to cause serious medical problems in children.
Echinococcosis is caused by several species of the tapeworm Echinococcus. The main hosts are carnivores such as foxes, coyotes and wolves and intermediary hosts are mainly grazing animals and pigs.
In at least three species, small rodents, including mice, voles and lemmings are intermediate hosts, which can pass on the cysts of the larval stage when eaten by cats and dogs. These in turn can pass on the cysts to humans through their faeces.
After ingestion the larva hatches, burrows through the intestine wall and passes through the blood system to other organs, especially the liver and lungs where it can remain indefinitely and invade surrounding tissue.
The infection can remain without obvious symptoms for years while the infected tissue grows like a tumour.
Capillariasis involving rodents is caused by one species of nematode (roundworm), Capillaria hepatica. It is unusual in that the lifecycle of the nematode requires only one host and it depends on the death of the host to disseminate viable eggs.
Rodents are the main host, but it can also be other mammals, including humans.
Infection starts with ingestion of food, water or soil contaminated with “environmentally conditioned” eggs.
The adult nematodes feed on the liver, slowly causing loss of liver function, inflammation (hepatitis) and abnormal fibrous tissue production as the liver responds to the death of the adults and the presence of eggs.
Bonnefoy X, Kampen H, Sweeney K. Public Health Significance of Urban Pests. WHO, Copenhagen, 2008
WHO. A global brief on vector-borne diseases, WHO, Geneva, 2014
US CDC: www.cdc.gov
UK NHS: www.nhs.uk
Webster JP, Macdonald DW (1995). Parasites of wild brown rats (Rattus norvegicus) on UK farms. Parasitology, 111:247–255. doi:10.1017/S0031182000081804.
Epidemic Typhus Associated with Flying Squirrels — United States.
WHO guidelines on Tularemia, 2007
The Center for Food Security and Public Health, Iowa State University