Rat-bite fever

Last updated

Rat-bite fever (RBF) is an acute, febrile human illness caused by bacteria transmitted by rodents, in most cases, which is passed from rodent to human by the rodent's urine or mucous secretions. Alternative names for rat-bite fever include streptobacillary fever, streptobacillosis, spirillary fever, bogger, and epidemic arthritic erythema. It is a rare disease spread by infected rodents and caused by two specific types of bacteria:

Contents

  1. Streptobacillus moniliformis , the only reported bacteria that causes RBF in North America (streptobacillary RBF)
  2. Spirillum minus , common in Asia (spirillary RBF, also known as sodoku). Most cases occur in Japan, but specific strains of the disease are present in the United States, Europe, Australia, and Africa.

Some cases are diagnosed after patients were exposed to the urine or bodily secretions of an infected animal. These secretions can come from the mouth, nose, or eyes of the rodent. The majority of cases are due to the animal's bite. It can also be transmitted through food or water contaminated with rat feces or urine. Other animals can be infected with this disease, including weasels, gerbils, and squirrels. Household pets such as dogs or cats exposed to these animals can also carry the disease and infect humans. If a person is bitten by a rodent, it is important to quickly wash and cleanse the wound area thoroughly with antiseptic solution to reduce the risk of infection.

Symptoms and signs

Symptoms are different for every person depending on the type of rat-bite fever with which the person is infected. Both spirillary and streptobacillary rat-bite fever have a few individual symptoms, although most symptoms are shared. Streptobacillosis is most commonly found in the United States and spirillary rat-bite fever is generally diagnosed in Africa. Rat-bite symptoms are visually seen in most cases and include inflammation around the open sore. A rash can also spread around the area and appear red or purple. [1] Other symptoms associated with streptobacillary rat-bite fever include chills, fever, vomiting, headaches, and muscle aches. Joints can also become painfully swollen and pain can be experienced in the back. Skin irritations such as ulcers or inflammation can develop on the hands and feet. Wounds heal slowly, so symptoms possibly come and go over the course of a few months.

Symptoms associated with spirillary rat-bite fever include issues with the lymph nodes, which often swell or become inflamed as a reaction to the infection. The most common locations of lymph node swelling are in the neck, groin, and underarm. [2] Symptoms generally appear within two to ten days of exposure to the infected animal. It begins with the fever and progresses to the rash on the hands and feet within two to four days. The rash appears all over the body with this form but rarely causes joint pain.

Causes

Two types of Gram-negative, facultatively anaerobic bacteria can cause the infection.

Spirillosis

Rat-bite fever transmitted by the Gram-negative coiled rod Spirillum minus (also known as Spirillum minor) is rarer, and is found most often in Asia. In Japan, the disease is called sodoku . Symptoms do not manifest for two to four weeks after exposure to the organism, and the wound through which it entered exhibits slow healing and marked inflammation. The fever lasts longer and is recurring, for months in some cases. Rectal pain and gastrointestinal symptoms are less severe or are absent. Penicillin is the most common treatment.

Streptobacillosis

The streptobacillosis form of rat-bite fever is known by the alternative names Haverhill fever and epidemic arthritic erythema. It is a severe disease caused by Streptobacillus moniliformis , transmitted either by rat bite or ingestion of contaminated products (Haverhill fever). After an incubation period of 2–10 days, Haverhill fever begins with high prostrating fevers, rigors (shivering), headache, and polyarthralgia (joint pain). Soon, an exanthem (widespread rash) appears, either maculopapular (flat red with bumps) or petechial (red or purple spots) and arthritis of large joints can be seen. The organism can be cultivated in blood or articular fluid. The disease can be fatal if untreated in 20% of cases due to malignant endocarditis, meningoencephalitis, or septic shock. Treatment is with penicillin, tetracycline, or doxycycline.

Diagnosis

This condition is diagnosed by detecting the bacteria in skin, blood, joint fluid, or lymph nodes. Blood antibody tests may also be used. [3] To get a proper diagnosis for rat-bite fever, different tests are run depending on the symptoms being experienced.

To diagnosis streptobacillary rat-bite fever, blood or joint fluid is extracted and the organisms living in it are cultured. Diagnosis for spirillary rat bite fever is by direct visualization or culture of spirilla from blood smears or tissue from lesions or lymph nodes. [4]

Prevention

Eliminating exposure is very important when it comes to disease prevention. [5] When handling rodents or cleaning areas where rodents have been, contact between hand and mouth should be avoided. [5] Hands and face should be washed after contact and any scratches both cleaned and antiseptics applied. The effect of chemoprophylaxis following rodent bites or scratches on the disease is unknown. No vaccines are available for these diseases. Improved conditions to minimize rodent contact with humans are the best preventive measures. Animal handlers, laboratory workers, and sanitation and sewer workers must take special precautions against exposure. Wild rodents, dead or alive, should not be touched and pets must not be allowed to ingest rodents. Those living in the inner cities where overcrowding and poor sanitation cause rodent problems are at risk from the disease. Half of all cases reported are children under 12 living in these conditions.

Treatment

Treatment should begin with assessment and management of the bite wound. The wound should be well irrigated. Although rats and small rodents are rarely infected with rabies, the individual must seek medical attention for possible tetanus or rabies post-exposure prophylaxis. Antibiotic therapy should be started immediately as laboratory confirmation may take a few days. Once results are obtained, therapy can be adjusted according to the antimicrobial susceptibility. Lack of treatment is highly associated with an increased risk of death. [6]


The treatment for rat-bite fever is consistent regardless of the bacterial cause. Intravenous penicillin is traditionally the treatment for uncomplicated cases of rat-bite fever, however intravenous ceftriaxone may also be used. The dose and duration of antibiotic treatment depends on the clinical presentation and severity. If the patient improves after 5-7 days, they may transition to oral penicillin, ampicillin, or amoxicillin to complete a 14 day course therapy. If allergic to penicillin, cephalosporins such as cephalexin may be used. If allergic to both penicillin and cephalosporins, doxycycline may be used. [6]


When treating children, Penicillin G procaine can be administered intramuscularly, or penicillin G can be given intravenously for 7 to 10 days. In uncomplicated cases, the patient may switch to oral penicillin after completing a 5-day course of intravenous penicillin G to complete the full 10-day course of antibiotics. For those with severe allergic reactions to penicillin, doxycycline or streptomycin can be used as alternatives. In cases of endocarditis, high-dose intravenous penicillin G is required for at least 4 weeks. Streptomycin or gentamicin can also be utilized for initial therapy in severe infections, including endocarditis. [7]

Prognosis

When proper treatment is provided for patients with rat-bite fever, the prognosis is positive. Without treatment, the infection usually resolves on its own, although it may take up to a year to do so. [8] A particular strain of rat-bite fever in the United States can progress and cause serious complications that can be potentially fatal. Before antibiotics were used, many cases resulted in death. If left untreated, streptobacillary rat-bite fever can result in infection in the lining of the heart, covering over the spinal cord and brain, or in the lungs. Any tissue or organ throughout the body may develop an abscess. [9]

Epidemiology

Rat-bite fever (RBF) is a zoonotic disease. [10] It can be directly transmitted by rats, gerbils, and mice (the vectors) to humans by either a bite or scratch or it can be passed from rodent to rodent. [11] The causative bacterial agent of RBF has also been observed in squirrels, ferrets, dogs, and pigs. [12] The most common reservoir of the disease is rats because nearly all domestic and wild rats are colonized by the causative bacterial agent, Streptobacillus moniliformis. Most notably, the Black rat (Rattus rattus) and the Norwegian rat (Rattus norvegicus) are recognized as potential reservoirs due to their common use as laboratory animals or kept as pets. [12] The bacteria Streptobacillus moniliformis is found in the rat's upper respiratory tract. Most rats harbor the disease asymptomatically, and signs and symptoms rarely develop. [13] It is estimated that 1 in 10 bites from a rat will result in developing RBF. [14] A person is also at risk of acquiring the bacteria through touching contaminated surfaces with an open wound or mucous membrane [15] or ingestion of contaminated water or food by rodent feces, though this is referred to as Haverhill Fever (epidemic arthritic erythema). RBF is not a contagious disease. That is, it cannot be transferred directly from person to person. [15]

Researchers are challenged in understanding the prevalence of RBF. One factor that limits the known number of cases of RBF in the United States is that it is not a reportable disease there. [16] RBF is classified as a notifiable disease, which means it is required by the state to be reported, however, the state is not mandated to provide that information to the United States Centers for Disease Control. Identification of RBF is also hindered due to the presence of two different etiological bacterial agents, Streptobacillus moniliformis and Spirillum minus. [17] RBF caused by Sp. minus is more commonly found in Asia and is termed Sodoku, whereas St. moniliformis is found more often in the United States and in the Western Hemisphere. [17] Although cases of RBF have been reported all over the world, the majority of cases that have been documented are caused by St. moniliformis primarily in the United States, where approximately 200 cases have been identified and reported. [16] [18] [19] Due to increasing population density, this illness is being seen more frequently, as humans have increased their contact with animals and the zoonotic diseases they carry. [20] Most cases of the disease have been reported from densely populated regions, such as big cities. [20] The populations at risk have broadened due to the fact that domestic rats have become a common household pet. In the United States it is estimated that children five years and younger are the most at risk, receiving 50% of the total exposure, followed by laboratory personnel and then pet store employees. [16] [19] Other groups at increased risk are people over 65 years old, immunocompromised individuals, and pregnant women. [21]

Symptoms of RBF include sudden high temperature fevers with rigors, vomiting, headaches, painful joints/arthritis. A red, bumpy rash develops in about 75% of subjects. Symptoms of RBF can develop between three days and three weeks after exposure. [13] While symptoms differ between Streptobacillary and Spirillary RBF, both types exhibit an incubation period before symptoms manifest. [20] [22] Due to its symptoms, RBF is often misdiagnosed by clinicians, leading to lingering symptoms and worsening conditions in patients; left untreated the mortality rate (death rate) of RBF is 13%. [16] [23] [24] Even when treated, RBF can lead to migratory polyarthralgia, persistent rash, and fatigue [13] which can persist for weeks to years after initial infection and treatment.

See also

Related Research Articles

<span class="mw-page-title-main">Plague (disease)</span> Disease caused by Yersinia pestis bacterium

Plague is an infectious disease caused by the bacterium Yersinia pestis. Symptoms include fever, weakness and headache. Usually this begins one to seven days after exposure. There are three forms of plague, each affecting a different part of the body and causing associated symptoms. Pneumonic plague infects the lungs, causing shortness of breath, coughing and chest pain; bubonic plague affects the lymph nodes, making them swell; and septicemic plague infects the blood and can cause tissues to turn black and die.

<span class="mw-page-title-main">Rocky Mountain spotted fever</span> Human disease

Rocky Mountain spotted fever (RMSF) is a bacterial disease spread by ticks. It typically begins with a fever and headache, which is followed a few days later with the development of a rash. The rash is generally made up of small spots of bleeding and starts on the wrists and ankles. Other symptoms may include muscle pains and vomiting. Long-term complications following recovery may include hearing loss or loss of part of an arm or leg.

<span class="mw-page-title-main">Streptococcal pharyngitis</span> Medical condition

Streptococcal pharyngitis, also known as streptococcal sore throat, is pharyngitis caused by Streptococcus pyogenes, a gram-positive, group A streptococcus. Common symptoms include fever, sore throat, red tonsils, and enlarged lymph nodes in the front of the neck. A headache and nausea or vomiting may also occur. Some develop a sandpaper-like rash which is known as scarlet fever. Symptoms typically begin one to three days after exposure and last seven to ten days.

<span class="mw-page-title-main">Lyme disease</span> Infectious disease caused by Borrelia bacteria, spread by ticks

Lyme disease, also known as Lyme borreliosis, is a tick-borne disease caused by species of Borrelia bacteria, transmitted by blood-feeding ticks in the genus Ixodes. The most common sign of infection is an expanding red rash, known as erythema migrans (EM), which appears at the site of the tick bite about a week afterwards. The rash is typically neither itchy nor painful. Approximately 70–80% of infected people develop a rash. Early diagnosis can be difficult. Other early symptoms may include fever, headaches and tiredness. If untreated, symptoms may include loss of the ability to move one or both sides of the face, joint pains, severe headaches with neck stiffness or heart palpitations. Months to years later, repeated episodes of joint pain and swelling may occur. Occasionally, shooting pains or tingling in the arms and legs may develop.

<span class="mw-page-title-main">Tularemia</span> Infectious disease caused by the bacterium Francisella tularensis

Tularemia, also known as rabbit fever, is an infectious disease caused by the bacterium Francisella tularensis. Symptoms may include fever, skin ulcers, and enlarged lymph nodes. Occasionally, a form that results in pneumonia or a throat infection may occur.

<span class="mw-page-title-main">Septicemic plague</span> Human disease caused by Yersinia pestis

Septicemic plague is one of the three forms of plague, and is caused by Yersinia pestis, a gram-negative species of bacterium. Septicemic plague is a systemic disease involving infection of the blood and is most commonly spread by bites from infected fleas. Septicemic plague can cause disseminated intravascular coagulation and is always fatal when untreated. The other varieties of the plague are bubonic plague and pneumonic plague.

<i>Streptobacillus</i> Genus of bacteria

Streptobacillus is a genus of fastidious microaerophilic Gram-negative bacteria, which grow in culture as rods in chains.

<span class="mw-page-title-main">Leptospirosis</span> Blood infection caused by bacteria

Leptospirosis is a blood infection caused by the bacteria Leptospira that can infect humans, dogs, rodents and many other wild and domesticated animals. Signs and symptoms can range from none to mild to severe. Weil's disease, the acute, severe form of leptospirosis, causes the infected individual to become jaundiced, develop kidney failure, and bleed. Bleeding from the lungs associated with leptospirosis is known as severe pulmonary haemorrhage syndrome.

Sodoku is a bacterial zoonotic disease. It is caused by the Gram-negative rod Spirillum minus. It is a form of rat-bite fever (RBF).

<span class="mw-page-title-main">Dukes' disease</span> Medical condition

Dukes' disease, named after Clement Dukes (1845–1925), also known as fourth disease, Filatov-Dukes' disease, Staphylococcal Scalded Skin Syndrome (SSSS), or Ritter's disease is an exanthem (rash-causing) illness primarily affecting children and historically described as a distinct bacterial infection, though its existence as a separate disease entity is now debated.

Seoul orthohantavirus (SEOV) is a member of the genus Orthohantavirus of rodent-borne viruses, and is one of the four hantaviruses that are known to cause Hantavirus hemorrhagic fever with renal syndrome (HFRS). It is an Old World hantavirus; a negative sense, single-stranded, tri-segmented RNA virus.

<span class="mw-page-title-main">Haverhill fever</span> Medical condition

Haverhill fever is a systemic illness caused by the bacterium Streptobacillus moniliformis, an organism common in rats and mice. If untreated, the illness can have a mortality rate of up to 13%. Among the two types of rat-bite fever, Haverhill fever caused by Streptobacillus moniliformis is most common in North America. The other type of infection caused by Spirillum minus is more common in Asia and is also known as Sodoku.

<span class="mw-page-title-main">Bubonic plague</span> Human and animal disease

Bubonic plague is one of three types of plague caused by the bacterium Yersinia pestis. One to seven days after exposure to the bacteria, flu-like symptoms develop. These symptoms include fever, headaches, and vomiting, as well as swollen and painful lymph nodes occurring in the area closest to where the bacteria entered the skin. Acral necrosis, the dark discoloration of skin, is another symptom. Occasionally, swollen lymph nodes, known as "buboes", may break open.

<span class="mw-page-title-main">African tick bite fever</span> Medical condition

African tick bite fever (ATBF) is a bacterial infection spread by the bite of a tick. Symptoms may include fever, headache, muscle pain, and a rash. At the site of the bite there is typically a red skin sore with a dark center. The onset of symptoms usually occurs 4–10 days after the bite. Complications are rare but may include joint inflammation. Some people do not develop symptoms.

<i>Streptobacillus moniliformis</i> Species of bacterium

Streptobacillus moniliformis is a non-motile, Gram-negative rod-shaped bacterium that is a member of the family Leptotrichiaceae. The genome of S. moniliformis is one of two completed sequences of the order Fusobacteriales.

The 2022–2023 mpox outbreak in Switzerland is a part of the outbreak of human mpox caused by the West African clade of the monkeypox virus. The outbreak started in Switzerland on 19 May 2022, with the country since then becoming one of the most affected in Europe.

The 2022–2023 mpox outbreak in Austria is part of the larger outbreak of human mpox caused by the West African clade of the monkeypox virus. Austria is the fifteenth country outside of Africa to experience an endemic mpox outbreak. The first case was reported in Vienna, Austria, on 22 May 2022. As of 2 December, Austria has confirmed a total of 327 cases.

<span class="mw-page-title-main">2022–2023 mpox outbreak in Chile</span> Ongoing viral outbreak

The 2022–2023 mpox outbreak in Chile is a part of the outbreak of human mpox caused by the West African clade of the monkeypox virus. The outbreak reached Chile on 17 June 2022.

The 2022–2023 mpox outbreak in Ghana is a part of the larger outbreak of human mpox caused by the West African clade of the monkeypox virus. As opposed to its West African neighbours, Ghana had no endemic presence of mpox, only experiencing it during the 2022 outbreak. The first 5 cases of mpox in Ghana was detected on June 8, 2022.

The 2022-2023 mpox outbreak in the Republic of Ireland is part of the larger ongoing global outbreak of human mpox caused by Clade II of the monkeypox virus. The first case in the Republic was confirmed on 27 May 2022.

References

  1. Rat Bite Fever Archived 2016-10-21 at the Wayback Machine Retrieved on 2010-01-26
  2. Swollen Lymph Nodes Wrong Diagnosis Portal. Retrieved on 2010-01-26
  3. MedlinePlus Encyclopedia : Rat-bite fever
  4. Rat Bite Fever Spirochetes at The Merck Manual of Diagnosis and Therapy Professional Edition
  5. 1 2 "Fatal Rat-Bite Fever — Florida and Washington, 2003". Morbidity and Mortality Weekly Report. 53 (51/52): 1198–1202. 2005. ISSN   0149-2195. JSTOR   23315671.
  6. 1 2 UpToDate. "Rat-bite fever". UpToDate. Retrieved July 21, 2024.
  7. American Academy of Pediatrics (2024). Red Book 2024-2027: Report of the Committee on Infectious Diseases (33rd ed.). American Academy of Pediatrics. pp. 712–713. ISBN   978-1-61002-734-2.
  8. Rat Bite Fever Overview Medical Dictionary Portal. Retrieved on 2010-01-26
  9. Rat Bite Fever Description Encyclopedia of children's health. Retrieved on 2010-01-26
  10. Loridant, Severine; Jaffar-Bandjee, Marie-Christine; Scola, Bernard La (2011-02-04). "Shell Vial Cell Culture as a Tool for Streptobacillus moniliformis "Resuscitation"". The American Journal of Tropical Medicine and Hygiene. 84 (2): 306–307. doi: 10.4269/ajtmh.2011.10-0466 . ISSN   0002-9637. PMC   3029187 . PMID   21292904.
  11. Vanderpool, Matthew R. (September 27, 2007). "Environmental Core Training: Zoonosis, Vector Disease, Poisonous Plants & Basic Control Measures". Tulane University. Retrieved November 18, 2018.
  12. 1 2 Gaastra, Wim; Boot, Ron; Ho, Hoa T.K.; Lipman, Len J.A. (January 2009). "Rat bite fever" (PDF). Veterinary Microbiology. 133 (2): 211–228. doi:10.1016/j.vetmic.2008.09.079. PMID   19008054.
  13. 1 2 3 Elliott, Sean P. (January 2007). "Rat Bite Fever and Streptobacillus moniliformis". Clinical Microbiology Reviews. 20 (1): 13–22. doi:10.1128/CMR.00016-06. ISSN   0893-8512. PMC   1797630 . PMID   17223620.
  14. "Notes from the Field: Fatal Rat-Bite Fever in a Child — San Diego County, California, 2013". www.cdc.gov. Retrieved 2018-12-03.
  15. 1 2 "Transmission | Rat-bite Fever (RBF) | CDC". www.cdc.gov. 2019-01-18. Retrieved 2020-11-11.
  16. 1 2 3 4 Elliott, Sean P. (2007). "Rat Bite Fever and Streptobacillus moniliformis". Clinical Microbiology Reviews. 20 (1): 13–22. doi:10.1128/CMR.00016-06. ISSN   0893-8512. PMC   1797630 . PMID   17223620.
  17. 1 2 Group, British Medical Journal Publishing (1948-09-18). "Annotations". Br Med J. 2 (4576): 564–566. doi:10.1136/bmj.2.4576.564. ISSN   0007-1447. PMC   2091657 . PMID   20787408.{{cite journal}}: |last= has generic name (help)
  18. Wullenweber, Michael (1995). "Streptobacillus moniliformis-a zoonotic pathogen. Taxonomic considerations, host species, diagnosis, therapy, geographical distribution". Laboratory Animals. 29 (1): 1–15. doi: 10.1258/002367795780740375 . ISSN   0023-6772. PMID   7707673.
  19. 1 2 Freels, Liane K.; Elliott, Sean P. (April 2004). "Rat Bite Fever: Three Case Reports and a Literature Review". Clinical Pediatrics. 43 (3): 291–295. doi:10.1177/000992280404300313. ISSN   0009-9228. PMID   15094956. S2CID   46260997.
  20. 1 2 3 Graves, Margot H.; Janda, J.Michael (2001). "Rat-bite fever (Streptobacillus moniliformis): A potential emerging disease". International Journal of Infectious Diseases. 5 (3): 151–154. doi: 10.1016/s1201-9712(01)90090-6 . ISSN   1201-9712. PMID   11724672.
  21. "Rat Bite Fever | CDC". www.cdc.gov. 2018-11-15. Retrieved 2018-12-03.
  22. "Signs and Symptoms | Rat-bite Fever (RBF) | CDC". www.cdc.gov. Retrieved 2018-11-13.
  23. Dendle, C.; Woolley, I. J.; Korman, T. M. (December 2006). "Rat-bite fever septic arthritis: illustrative case and literature review". European Journal of Clinical Microbiology and Infectious Diseases. 25 (12): 791–797. doi:10.1007/s10096-006-0224-x. ISSN   0934-9723. PMID   17096137. S2CID   12345288.
  24. Meerburg, Bastiaan G; Singleton, Grant R; Kijlstra, Aize (2009-06-23). "Rodent-borne diseases and their risks for public health". Critical Reviews in Microbiology. 35 (3): 221–270. doi:10.1080/10408410902989837. ISSN   1040-841X. PMID   19548807. S2CID   205694138.

Rat Bite Fever (RBF) | CDC

Further reading