Ringworm
About 40 types of fungus can cause dermatophytosis. They are typically of the Trichophyton, Microsporum, or Epidermophyton type. Risk factors include using public showers, contact sports such as wrestling, excessive sweating, contact with animals, obesity, and poor immune function. Ringworm can spread from other animals or between people. Diagnosis is often based on the appearance and symptoms. It may be confirmed by either culturing or looking at a skin scraping under a microscope.
Prevention is by keeping the skin dry, not walking barefoot in public, and not sharing personal items. Treatment is typically with antifungal creams such as clotrimazole or miconazole. If the scalp is involved, antifungals by mouth such as fluconazole may be needed.
Dermatophytosis has spread globally, and up to 20% of the world's population may be infected by it at any given time. Infections of the groin are more common in males, while infections of the scalp and body occur equally in both sexes. Infections of the scalp are most common in children while infections of the groin are most common in the elderly. Descriptions of ringworm date back to ancient history.
Types
A number of different species of fungus are involved in dermatophytosis. Dermatophytes of the genera Trichophyton and Microsporum are the most common causative agents. These fungi attack various parts of the body and lead to the conditions listed below. The Latin names are for the conditions (disease patterns), not the agents that cause them. The disease patterns below identify the type of fungus that causes them only in the cases listed:
- Dermatophytosis
- Tinea pedis (athlete's foot): fungal infection of the feet
- Tinea unguium: fungal infection of the fingernails and toenails, and the nail bed
- Tinea corporis: fungal infection of the arms, legs, and trunk
- Tinea cruris (jock itch): fungal infection of the groin area
- Tinea manuum: fungal infection of the hands and palm area
- Tinea capitis: fungal infection of the scalp and hair
- Tinea faciei (face fungus): fungal infection of the face
- Tinea barbae: fungal infestation of facial hair
- Other superficial mycoses (not classic ringworm, since not caused by dermatophytes)
- Tinea versicolor: caused by Malassezia furfur
- Tinea nigra: caused by Hortaea werneckii
Signs and symptoms
Infections on the body may give rise to typical enlarging raised red rings of ringworm. Infection on the skin of the feet may cause athlete's foot and in the groin, jock itch. Involvement of the nails is termed onychomycosis.
Animals including dogs and cats can also be affected by ringworm, and the disease can be transmitted between animals and humans, making it a zoonotic disease.
Specific signs can be:
- red, scaly, itchy or raised patches
- patches may be redder on outside edges or resemble a ring
- patches that begin to ooze or develop a blister
- bald patches may develop when the scalp is affected
Causes
Fungi thrive in moist, warm areas, such as locker rooms, tanning beds, swimming pools, and skin folds; accordingly, those that cause dermatophytosis may be spread by using exercise machines that have not been disinfected after use, or by sharing towels, clothing, footwear, or hairbrushes.
Diagnosis
Dermatophyte infections can be readily diagnosed based on the history, physical examination, and potassium hydroxide (KOH) microscopy.
Prevention
Advice often given includes:
- Avoid sharing clothing, sports equipment, towels, or sheets.
- Wash clothes in hot water with fungicidal soap after suspected exposure to ringworm.
- Avoid walking barefoot; instead wear appropriate protective shoes in locker rooms and sandals at the beach.
- Avoid touching pets with bald spots, as they are often carriers of the fungus.
Vaccination
As of 2016, no approved human vaccine exist against dermatophytosis. For horses, dogs and cats there is available an approved inactivated vaccine called Insol Dermatophyton (Boehringer Ingelheim) which provides time-limited protection against several trichophyton and microsporum fungal strains. With cattle, systemic vaccination has achieved effective control of ringworm. Since 1979 a Russian live vaccine (LFT 130) and later on a Czechoslovakian live vaccine against bovine ringworm has been used. In Scandinavian countries vaccination programmes against ringworm are used as a preventive measure to improve the hide quality. In Russia, fur-bearing animals (silver fox, foxes, polar foxes) and rabbits have also been treated with vaccines.
Treatment
Antifungal treatments include topical agents such as miconazole, terbinafine, clotrimazole, ketoconazole, or tolnaftate applied twice daily until symptoms resolve — usually within one or two weeks. Topical treatments should then be continued for a further 7 days after resolution of visible symptoms to prevent recurrence. The total duration of treatment is therefore generally two weeks, but may be as long as three.
In more severe cases or scalp ringworm, systemic treatment with oral medications (such as itraconazole, terbinafine, and ketoconazole) may be given.
To prevent spreading the infection, lesions should not be touched, and good hygiene maintained with washing of hands and the body.
Misdiagnosis and treatment of ringworm with a topical steroid, a standard treatment of the superficially similar pityriasis rosea, can result in tinea incognito, a condition where ringworm fungus grows without typical features, such as a distinctive raised border.
History
Dermatophytosis has been prevalent since before 1906, at which time ringworm was treated with compounds of mercury or sometimes sulfur or iodine. Hairy areas of skin were considered too difficult to treat, so the scalp was treated with X-rays and followed up with antifungal medication. Another treatment from around the same time was application of Araroba powder.
Terminology
The most common term for the infection, "ringworm", is a misnomer, since the condition is caused by fungi of several different species and not by parasitic worms.
Other animals
Ringworm caused by Trichophyton verrucosum is a frequent clinical condition in cattle. Young animals are more frequently affected. The lesions are located on the head, neck, tail, and perineum. The typical lesion is a round, whitish crust. Multiple lesions may coalesce in "map-like" appearance.
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Multiple lesions, head
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Around the eyes and on ears
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On cheeks: crusted lesion (right)
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Old lesions, with regrowing hair
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On neck and withers
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On perineum
Clinical dermatophytosis is also diagnosed in sheep, dogs, cats, and horses. Causative agents, besides Trichophyton verrucosum, are T. mentagrophytes, T. equinum, Microsporum gypseum, M. canis, and M. nanum.
Dermatophytosis may also be present in the holotype of the Cretaceous eutriconodont mammal Spinolestes, suggesting a Mesozoic origin for this disease.
Diagnosis
Ringworm in pets may often be asymptomatic, resulting in a carrier condition which infects other pets. In some cases, the disease only appears when the animal develops an immunodeficiency condition. Circular bare patches on the skin suggest the diagnosis, but no lesion is truly specific to the fungus. Similar patches may result from allergies, sarcoptic mange, and other conditions. Three species of fungi cause 95% of dermatophytosis in pets: these are Microsporum canis, Microsporum gypseum, and Trichophyton mentagrophytes.
Veterinarians have several tests to identify ringworm infection and identify the fungal species that cause it:
Woods test: This is an ultraviolet light with a magnifying lens. Only 50% of M. canis will show up as an apple-green fluorescence on hair shafts, under the UV light. The other fungi do not show. The fluorescent material is not the fungus itself (which does not fluoresce), but rather an excretory product of the fungus which sticks to hairs. Infected skin does not fluoresce.
Microscopic test: The veterinarian takes hairs from around the infected area and places them in a staining solution to view under the microscope. Fungal spores may be viewed directly on hair shafts. This technique identifies a fungal infection in about 40%–70% of the infections, but cannot identify the species of dermatophyte.
Culture test: This is the most effective, but also the most time-consuming, way to determine if ringworm is on a pet. In this test, the veterinarian collects hairs from the pet, or else collects fungal spores from the pet's hair with a toothbrush, or other instrument, and inoculates fungal media for culture. These cultures can be brushed with transparent tape and then read by the veterinarian using a microscope, or can be sent to a pathological lab. The three common types of fungi which commonly cause pet ringworm can be identified by their characteristic spores. These are different-appearing macroconidia in the two common species of Microspora, and typical microconidia in Trichophyton infections.
Identifying the species of fungi involved in pet infections can be helpful in controlling the source of infection. M. canis, despite its name, occurs more commonly in domestic cats, and 98% of cat infections are with this organism. It can also infect dogs and humans, however. T. mentagrophytes has a major reservoir in rodents, but can also infect pet rabbits, dogs, and horses. M. gypseum is a soil organism and is often contracted from gardens and other such places. Besides humans, it may infect rodents, dogs, cats, horses, cattle, and swine.
Treatment
Pet animals
Treatment requires both systemic oral treatment with most of the same drugs used in humans—terbinafine, fluconazole, or itraconazole—as well as a topical "dip" therapy.
Because of the usually longer hair shafts in pets compared to those of humans, the area of infection and possibly all of the longer hair of the pet must be clipped to decrease the load of fungal spores clinging to the pet's hair shafts. However, close shaving is usually not done because nicking the skin facilitates further skin infection.
Twice-weekly bathing of the pet with diluted lime sulfur dip solution is effective in eradicating fungal spores. This must continue for 3 to 8 weeks.
Washing of household hard surfaces with 1:10 household sodium hypochlorite bleach solution is effective in killing spores, but it is too irritating to be used directly on hair and skin.
Pet hair must be rigorously removed from all household surfaces, and then the vacuum cleaner bag, and perhaps even the vacuum cleaner itself, discarded when this has been done repeatedly. Removal of all hair is important, since spores may survive 12 months or even as long as two years on hair clinging to surfaces.
Cattle
In bovines, an infestation is difficult to cure, as systemic treatment is uneconomical. Local treatment with iodine compounds is time-consuming, as it needs scraping of crusty lesions. Moreover, it must be carefully conducted using gloves, lest the worker become infested.
Epidemiology
Worldwide, superficial fungal infections caused by dermatophytes are estimated to infect around 20-25% of the population and it is thought that dermatophytes infect 10-15% of the population during their lifetime. The highest incidence of superficial mycoses result from dermatophytoses which are most prevalent in tropical regions. Onychomycosis, a common infection caused by dermatophytes, is found with varying prevalence rates in many countries. Tinea pedis + onychomycosis, Tinea corporis, Tinea capitis are the most common dermatophytosis found in humans across the world. Tinea capitis has a greater prevalence in children. The increasing prevalence of dermatophytes resulting in Tinea capitis has been causing epidemics throughout Europe and America. In pets, cats are the most affected by dermatophytosis. Pets are susceptible to dermatophytoses caused by Microsporum canis, Microsporum gypseum, and Trichophyton. For dermatophytosis in animals, risk factors depend on age, species, breed, underlying conditions, stress, grooming, and injuries.
Numerous studies have found Tinea capitis to be the most prevalent dermatophyte to infect children across the continent of Africa. Dermatophytosis has been found to be most prevalent in children ages 4 to 11, infecting more males than females. Low socioeconomic status was found to be a risk factor for Tinea capitis. Throughout Africa, dermatophytoses are common in hot- humid climates and with areas of overpopulation.
Chronicity is a common outcome for dermatophytosis in India. The prevalence of dermatophytosis in India is between 36.6 and 78.4% depending on the area, clinical subtype, and dermatophyte isolate. Individuals ages 21–40 years are most commonly affected.
A 2002 study looking at 445 samples of dermatophytes in patients in Goiânia, Brazil found the most prevalent type to be Trichophyton rubrum (49.4%), followed by Trichophyton mentagrophytes (30.8%), and Microsporum canis (12.6%).
A 2013 study looking at 5,175 samples of Tinea in patients in Tehran, Iran found the most prevalent type to be Tinea pedis (43.4%), followed by Tinea unguium. (21.3%), and Tinea cruris (20.7%).
See also
- Lichen planus—An autoimmune disease that produces similar skin blotching to ringworm.
- Mycobiota—A group of all the fungi present in a particular niche like the human body.
References
- ^ "Symptoms of Ringworm Infections". CDC. December 6, 2015. Archived from the original on 20 January 2016. Retrieved 5 September 2016.
- ^ "Definition of Ringworm". CDC. December 6, 2015. Archived from the original on 5 September 2016. Retrieved 5 September 2016.
- ^ "Ringworm Risk & Prevention". CDC. December 6, 2015. Archived from the original on 7 September 2016. Retrieved 5 September 2016.
- ^ Domino FJ, Baldor RA, Golding J (2013). The 5-Minute Clinical Consult 2014. Lippincott Williams & Wilkins. p. 1226. ISBN 9781451188509. Archived from the original on 2016-09-15.
- ^ "Diagnosis of Ringworm". CDC. December 6, 2015. Archived from the original on 8 August 2016. Retrieved 5 September 2016.
- ^ Teitelbaum JE (2007). In a Page: Pediatrics. Lippincott Williams & Wilkins. p. 274. ISBN 9780781770453. Archived from the original on 2017-04-26.
- ^ "Treatment for Ringworm". CDC. December 6, 2015. Archived from the original on 3 September 2016. Retrieved 5 September 2016.
- ^ Mahmoud A. Ghannoum, John R. Perfect (24 November 2009). Antifungal Therapy. CRC Press. p. 258. ISBN 978-0-8493-8786-9. Archived from the original on 8 September 2017.
- ^ Bolognia JL, Jorizzo JL, Schaffer JV (2012). Dermatology (3 ed.). Elsevier Health Sciences. p. 1255. ISBN 978-0702051821. Archived from the original on 2016-09-15.
- ^ Hainer BL (2003). "Dermatophyte Infections". Am Fam Physician. 67 (1): 101–109. PMID 12537173.
- ^ Klemm L (2 April 2008). "Keeping footloose on trips". The Herald News. Archived from the original on 18 February 2009.
- ^ Fort Dodge Animal Health: Milestones from Wyeth.com. Retrieved April 28, 2008.
- ^ "Ringworm In Your Dog, Cat And Other Pets". Vetspace. Retrieved 14 November 2020.
- ^ "Insol Dermatophyton 5x2 ml". GROVET - The veterinary warehouse. Archived from the original on 2016-08-17. Retrieved 2016-02-01.
- ^ F. Rochette, M. Engelen, H. Vanden Bossche (2003), "Antifungal agents of use in animal health - practical applications", Journal of Veterinary Pharmacology and Therapeutics, 26 (1): 31–53, doi:10.1046/j.1365-2885.2003.00457.x, PMID 12603775
- ^ Kyle AA, Dahl MV (2004). "Topical therapy for fungal infections". Am J Clin Dermatol. 5 (6): 443–51. doi:10.2165/00128071-200405060-00009. PMID 15663341. S2CID 37500893.
- ^ McClellan KJ, Wiseman LR, Markham A (July 1999). "Terbinafine. An update of its use in superficial mycoses". Drugs. 58 (1): 179–202. doi:10.2165/00003495-199958010-00018. PMID 10439936. S2CID 195691703.
- ^ Tinea~treatment at eMedicine
- ^ Tinea Corporis~treatment at eMedicine
- ^ "Antifungal agents for common paediatric infections". Can J Infect Dis Med Microbiol. 19 (1): 15–8. January 2008. doi:10.1155/2008/186345. PMC 2610275. PMID 19145261.
- ^ Gupta AK, Cooper EA (2008). "Update in antifungal therapy of dermatophytosis". Mycopathologia. 166 (5–6): 353–67. doi:10.1007/s11046-008-9109-0. PMID 18478357. S2CID 24116721.
- ^ "Ringworm on Body Treatment" at eMedicineHealth
- ^ Sequeira, J.H. (1906). "The Varieties of Ringworm and Their Treatment" (PDF). British Medical Journal. 2 (2378): 193–196. doi:10.1136/bmj.2.2378.193. PMC 2381801. PMID 20762800. Archived (PDF) from the original on 2009-11-22.
- ^ Mrs. M. Grieve. A Modern Herbal. Archived from the original on 2015-03-25.
- ^ Scott DW (2007). Colour Atlas of Animal Dermatology. Blackwell. ISBN 978-0-8138-0516-0.
- ^ David W. Scott, Colour Atlas of Animal Dermatology, Blackwell Publishing Professional 2121 State Avenue, Ames, Iowa 50014, USA; ISBN 978-0-8138-0516-0/2007.
- ^ "General ringworm information". Ringworm.com.au. Archived from the original on 2010-12-21. Retrieved 2011-01-10.
- ^ "Facts About Ringworm". Archived from the original on 2011-10-06. Retrieved 2011-10-03. Detailed veterinary discussion of animal treatment
- ^ "Veterinary treatment site page". Marvistavet.com. Archived from the original on 2013-01-04. Retrieved 2011-01-10.
- ^ "Persistence of spores". Ringworm.com.au. Archived from the original on 2010-12-21. Retrieved 2011-01-10.
- ^ Pires, C. A. A., Cruz, N. F. S. da, Lobato, A. M., Sousa, P. O. de, Carneiro, F. R. O., & Mendes, A. M. D. (2014). Clinical, epidemiological, and therapeutic profile of dermatophytosis. Anais Brasileiros de Dermatología, 89(2), 259–264. [1]
- ^ Oumar Coulibaly, Coralie L'Ollivier, Renaud Piarroux, Stéphane Ranque, Epidemiology of human dermatophytoses in Africa, Medical Mycology, Volume 56, Issue 2, February 2018, Pages 145–161.
- ^ Rajagopalan, M., Inamadar, A., Mittal, A., Miskeen, A. K., Srinivas, C. R., Sardana, K., Godse, K., Patel, K., Rengasamy, M., Rudramurthy, S., & Dogra, S. (2018). Expert Consensus on The Management of Dermatophytosis in India (ECTODERM India). BMC dermatology, 18(1), 6. [2]
- ^ Hayette, M.-P., & Sacheli, R. (2015). Dermatophytosis, Trends in Epidemiology and Diagnostic Approach. Current Fungal Infection Reports, 9(3), 164–179. [3]
- ^ Gordon, E., Idle, A., & DeTar, L. (2020). Descriptive epidemiology of companion animal dermatophytosis in a Canadian Pacific Northwest animal shelter system. The Canadian veterinary journal = La revue veterinaire canadienne, 61(7), 763–770.
- ^ Costa, M., Passos, X. S., Hasimoto e Souza, L. K., Miranda, A. T. B., Lemos, J. de A., Oliveira, J., & Silva, M. do R. R. (2002). Epidemiology and etiology of dermatophytosis in Goiânia, GO, Brazil. Revista da Sociedade Brasileira de Medicina Tropical, 35(1), 19–.
- ^ Rezaei-Matehkolaei, A., Makimura, K., de Hoog, S., Shidfar, M. R., Zaini, F., Eshraghian, M., Naghan, P. A., & Mirhendi, H. (2013). Molecular epidemiology of dermatophytosis in Tehran, Iran, a clinical and microbial survey. Medical Mycology (Oxford), 51(2), 203–207. [4]
Further reading
- Pietro Nenoff, Constanze Krüger, Gabriele Ginter-Hanselmayer, Hans-Jürgen Tietz (2014). Mycology – an update. Part 1: Dermatomycoses: Causative agents, epidemiology and pathogenesis
- Weitzman I, Summerbell RC (1995). "The dermatophytes". Clinical Microbiology Reviews. 8 (2): 240–259. doi:10.1128/cmr.8.2.240. PMC 172857. PMID 7621400.
External links
- Tinea photo library at Dermnet Archived 2008-10-15 at the Wayback Machine