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Myiasis

January 07, 2023

Myiasis is the parasitic infestation of the body of a live animal by fly larvae (maggots) which grow inside the host while feeding on its tissue. Although flies are most commonly attracted to open wounds and urine- or feces-soaked fur, some species (including the most common myiatic flies—the botfly, blowfly, and screwfly) can create an infestation even on unbroken skin and have been known to use moist soil and non-myiatic flies (such as the common housefly) as vector agents for their parasitic larvae.

Myiasis
Other namesFlystrike, blowfly strike, fly-blown
Cutaneous myiasis in the shoulder of a human
Pronunciation
SpecialtyInfectious disease

Because some animals (particularly non-native domestic animals) cannot react as effectively as humans to the causes and effects of myiasis, such infestations present a severe and continuing problem for livestock industries worldwide, causing severe economic losses where they are not mitigated by human action.[1] Although typically a far greater issue for animals, myiasis is also a relatively frequent disease for humans in rural tropical regions where myiatic flies thrive, and often may require medical attention to surgically remove the parasites.[2]

Myiasis varies widely in the forms it takes and its effects on those affected. Such variations depend largely on the fly species and where the larvae are located. Some flies lay eggs in open wounds, other larvae may invade unbroken skin or enter the body through the nose or ears, and still others may be swallowed if the eggs are deposited on the lips or on food.[2] There can also be accidental myiasis which E. tenax can cause in humans via water containing the larvae or in contaminated uncooked food. The name of the condition derives from ancient Greek μυῖα (myia), meaning "fly".[3]

Signs and symptoms

How myiasis affects the human body depends on where the larvae are located. Larvae may infect dead, necrotic (prematurely dying) or living tissue in various sites: the skin, eyes, ears, stomach and intestinal tract, or in genitourinary sites.[4] They may invade open wounds and lesions or unbroken skin. Some enter the body through the nose or ears. Larvae or eggs can reach the stomach or intestines if they are swallowed with food and cause gastric or intestinal myiasis.[2]

Several different presentations of myiasis and their symptoms:[2]

Syndrome Symptoms
Cutaneous myiasis Painful, slow-developing ulcers or furuncle- (boil-) like sores that can last for a prolonged period
Nasal myiasis Obstruction of nasal passages and severe irritation. In some cases facial edema and fever can develop. Death is not uncommon.
Aural myiasis Crawling sensations and buzzing noises. Smelly discharge is sometimes present. If located in the middle ear, larvae may get to the brain.
Ophthalmomyiasis Severe irritation, edema, and pain. Fairly common.

Wound

Wound myiasis occurs when fly larvae infest open wounds. It has been a serious complication of war wounds in tropical areas, and is sometimes seen in neglected wounds in most parts of the world. Predisposing factors include poor socioeconomic conditions, extremes of age, neglect, mental disability, psychiatric illness, alcoholism, diabetes, and vascular occlusive disease.[5][6][7][8][9]

Eye

Myiasis of the human eye or ophthalmomyiasis can be caused by Hypoderma tarandi, a parasitic botfly of caribou. It is known to lead to uveitis, glaucoma, and retinal detachment.[10] Human ophthalmomyiasis, both external and internal, has been caused by the larvae of the botfly.[10]

Cause

Life cycle

The life cycle in sheep is typical of the disease. The female flies lay their eggs on the sheep in damp, protected areas of the body that are soaked with urine and feces, mainly the sheep's breech (buttocks). It takes approximately eight hours to a day for the eggs to hatch, depending on the conditions. Once hatched, the larvae then lacerate the skin with their mouthparts, causing open sores. Once the skin has been breached, the larvae then tunnel through the sores into the host's subcutaneous tissue, causing deep and irritating lesions highly subject to infection. After about the second day, bacterial infection is likely and, if left untreated, causes bacterial bloodstream infections or sepsis. This leads to anorexia and weakness and is generally fatal if untreated.[11]

Human vectors

There are three main fly families causing economically important myiasis in livestock and also, occasionally, in humans:[citation needed]

Other families occasionally involved are:[citation needed]

Specific myiasis

Caused by flies that need a host for larval development[citation needed]

Semispecific myiasis

Caused by flies that usually lay their eggs in decaying animal or vegetable matter, but that can develop in a host if open wounds or sores are present[citation needed]

Flesh flies, or sarcophagids, members of the family Sarcophagidae, can cause intestinal myiasis in humans if the females lay their eggs on meat or fruit.[citation needed]

Accidental myiasis

Also called pseudomyiasis. Caused by flies that have no preference or need to develop in a host but that will do so on rare occasions. Transmission occurs through accidental deposit of eggs on oral or genitourinary openings, or by swallowing eggs or larvae that are on food.[citation needed] The cheese fly (Piophila casei) sometimes causes myiasis through intentional consumption of its maggots (which are contained in the traditional Sardinian delicacy casu marzu).[12][13] Other flies that can accidentally cause myiasis are:[14][15]

The adult flies are not parasitic, but when they lay their eggs in open wounds and these hatch into their larval stage (also known as maggots or grubs), the larvae feed on live or necrotic tissue, causing myiasis to develop. They may also be ingested or enter through other body apertures.[citation needed]

Diagnosis

Myiasis is often misdiagnosed in the United States because it is rare and its symptoms are not specific. Intestinal myiasis and urinary myiasis are especially difficult to diagnose.[2]

Clues that myiasis may be present include recent travel to an endemic area, one or more non-healing lesions on the skin, itchiness, movement under the skin or pain, discharge from a central punctum (tiny hole), or a small, white structure protruding from the lesion.[16] Serologic testing has also been used to diagnose the presence of botfly larvae in human ophthalmomyiasis.[10]

  • Ultrasound showing maggot infestation[17]

  • Ultrasound showing maggot infestation[17]

  •  

    Ultrasound showing maggot infestation[17]

Classifications

German entomologist Fritz Zumpt describes myiasis as "the infestation of live human and vertebrate animals with dipterous larvae, which at least for a period, feed on the host's dead or living tissue, liquid body substances, or ingested food". For modern purposes however, this is too vague. For example, feeding on dead or necrotic tissue is not generally a problem except when larvae such as those of flies in the family Piophilidae attack stored food such as cheese or preserved meats; such activity suggests saprophagy rather than parasitism; it even may be medically beneficial in maggot debridement therapy (MDT).[citation needed]

Currently myiasis commonly is classified according to aspects relevant to the case in question:

  • The classical description of myiasis is according to the part of the host that is infected. This is the classification used by ICD-10. For example:[18]
  • Another aspect is the relationship between the host and the parasite and provides insight into the biology of the fly species causing the myiasis and its likely effect. Thus the myiasis is described as either:[18]
    • obligatory, where the parasite cannot complete its life cycle without its parasitic phase, which may be specific, semispecific, or opportunistic
    • facultative, incidental, or accidental, where it is not essential to the life cycle of the parasite; perhaps a normally free-living larva accidentally gained entrance to the host[2]

Accidental myiasis commonly is enteric, resulting from swallowing eggs or larvae with one's food. The effect is called pseudomyiasis.[19] One traditional cause of pseudomyiasis was the eating of maggots of cheese flies in cheeses such as Stilton. Depending on the species present in the gut, pseudomyiasis may cause significant medical symptoms, but it is likely that most cases pass unnoticed.[citation needed]

Prevention

The first control method is preventive and aims to eradicate the adult flies before they can cause any damage and is called vector control. The second control method is the treatment once the infestation is present, and concerns the infected animals (including humans).[citation needed]

The principal control method of adult populations of myiasis inducing flies involves insecticide applications in the environment where the target livestock is kept. Organophosphorus or organochlorine compounds may be used, usually in a spraying formulation. One alternative prevention method is the sterile insect technique (SIT) where a significant number of artificially reared sterilized (usually through irradiation) male flies are introduced. The male flies compete with wild breed males for females in order to copulate and thus cause females to lay batches of unfertilized eggs which cannot develop into the larval stage.[citation needed]

One prevention method involves removing the environment most favourable to the flies, such as by removal of the tail. Another example is the crutching of sheep, which involves the removal of wool from around the tail and between the rear legs, which is a favourable environment for the larvae. Another, more permanent, practice which is used in some countries is mulesing, where skin is removed from young animals to tighten remaining skin – leaving it less prone to fly attack.[20]

To prevent myiasis in humans, there is a need for general improvement of sanitation, personal hygiene, and extermination of the flies by insecticides. Clothes should be washed thoroughly, preferably in hot water, dried away from flies, and ironed thoroughly. The heat of the iron kills the eggs of myiasis-causing flies.[16]

Treatment

This applies once an infestation is established. In many circles the first response to cutaneous myiasis once the breathing hole has formed, is to cover the air hole thickly with petroleum jelly. Lack of oxygen then forces the larva to the surface, where it can more easily be dealt with. In a clinical or veterinary setting there may not be time for such tentative approaches, and the treatment of choice might be more direct, with or without an incision. First the larva must be eliminated through pressure around the lesion and the use of forceps. Secondly the wound must be cleaned and disinfected. Further control is necessary to avoid further reinfestation.[citation needed]

Livestock may be treated prophylactically with slow-release boluses containing ivermectin, which can provide long-term protection against the development of the larvae. Sheep also may be dipped, a process which involves drenching the animals in persistent insecticide to poison the larvae before they develop into a problem.[citation needed]

Epidemiology

The most common infected animal worldwide is the domestic sheep, for more information see fly strike in sheep. This condition is caused by the blowfly (particularly Lucilia sericata and its sister species L. cuprina), especially where the weather is often hot and wet.[21] Blowfly strike accounts for over A$170 million a year in losses in the Australian sheep industry, the largest such losses in the world. Given the seriousness of the risk, Australian sheep farmers commonly perform preventive measures such as mulesing designed to remove the most common targets for the flies. The docking of lambs' tails (another frequently-soiled area that flies target) is also commonly practiced by sheep farmers worldwide. Maggots also occasionally[citation needed] infest the vulvar area, causing the condition called vulvar myiasis.

Such problems are not peculiar to Australia and New Zealand; they occur worldwide, especially in countries where livestock, particularly sheep, are kept under hot, wet, conditions, including most of Africa and the Americas, ranging from the cold temperate regions in the north, to corresponding latitudes in the south. Myiasis is also not restricted to sheep; screwworm flies (Cochliomyia hominivorax in particular) regularly cause upwards of US$100 million in annual damages to domestic cows and goats,[22] though the impact has been heavily mitigated in recent years by the sterile insect technique.[citation needed]

History

 
Myiasis in a cat's flesh
 
Myiasis in a dog's flesh

Frederick William Hope coined the term myiasis in 1840 to refer to diseases resulting from dipterous larvae as opposed to those caused by other insect larvae (the term for this was scholechiasis). Hope described several cases of myiasis from Jamaica caused by unknown larvae, one of which resulted in death.[23]

Even though the term myiasis was first used in 1840, such conditions have been known since ancient times. Ambroise Paré, the chief surgeon to King Charles IX and King Henry III, observed that maggots often infested open wounds.[24]

Maggot therapy

Main article: Maggot therapy

Throughout recorded history, maggots have been used therapeutically to clean out necrotic wounds, an application known as maggot therapy.[citation needed]

Fly larvae that feed on dead tissue can clean wounds and may reduce bacterial activity and the chance of a secondary infection. They dissolve dead tissue by secreting digestive enzymes onto the wound as well as actively eating the dead tissue with mouth hooks, two hard, probing appendages protruding on either side of the "mouth".[25] Maggot therapy – also known as maggot debridement therapy (MDT), larval therapy, larva therapy, or larvae therapy – is the intentional introduction by a health care practitioner of live, disinfected green bottle fly maggots into the non-healing skin and soft tissue wounds of a human or other animal for the purpose of selectively cleaning out only the necrotic tissue within a wound in order to promote healing.[citation needed]

Although maggot therapy has been used in the US for the past 80 years, it was approved by the FDA as a medical device only in 2004 (along with leeches).[26] Maggots were the first live organism to be marketed in the US according to FDA regulations, and are approved for treating neuropathic (diabetic) foot ulcers, pressure ulcers, venous stasis ulcers, and traumatic and post-surgical wounds that are unresponsive to conventional therapies. Maggots were used in medicine before this time, but were not federally regulated. In 1990, California internist Ronald Sherman began treating patients with maggots produced at his lab at the UC Irvine School of Medicine.[26] Sherman went on to co-found Monarch Labs in 2005, which UC Irvine contracted to produce maggots for Sherman's own continuing clinical research on myiasis at the university. Monarch Labs also sells maggots to hospitals and other medical practices, the first US commercial supplier to do so since the last one closed in 1935.[27]

In the US, demand for these fly larvae doubled after the FDA ruling. Maggot therapy is now used in more than 300 sites across the country.[25] The American Medical Association and Centers for Medicare and Medicaid Services recently clarified the reimbursement guidelines to the wound care community for medicinal maggots, and this therapy may soon be covered by insurance.[28] The larvae of the green bottle fly (a type of blow-fly) are now used exclusively for this purpose, since they preferentially devour only necrotic tissue, leaving healthy tissue intact. This is an important distinction, as most other major varieties of myiasitic fly larvae attack both live and dead wound tissue indiscriminately, effectively negating their benefit in non-harmful wound debridement. Medicinal maggots are placed on the wound and covered with a sterile dressing of gauze and nylon mesh. However, too many larvae placed on the wound could result in healthy tissue being eaten, efficiently creating a new wound, rendering it as a type of myiasis.[24]

History

Maggot therapy has a long history and prehistory. The indigenous people of Australia used maggot therapy, and so do the Hill Peoples of Northern Burma, and possibly the Mayans of Central America.[2] Surgeons in Napoleon's armies recognized that wounded soldiers with myiasis were more likely to survive than those without the infestation. In the American Civil War, army surgeons treated wounds by allowing blowfly maggots to clean away the decayed tissue.[citation needed]

William Baer, an orthopedic surgeon at Johns Hopkins during the late 1920s, used maggot therapy to treat a series of patients with osteomyelitis, an infection of bone or bone marrow. The idea was based on an experience in World War I in which two soldiers presented to him with broken femurs after having lain on the ground for seven days without food and water. Baer could not figure out why neither man had a fever or signs of sepsis. He observed: "On removing the clothing from the wounded part, much was my surprise to see the wound filled with thousands and thousands of maggots, apparently those of the blow fly. The sight was very disgusting and measures were taken hurriedly to wash out these abominable looking creatures." However, he then saw that the wounds were filled with "beautiful pink granulation tissue" and were healing well.[29]

Maggot therapy was common in the United States during the 1930s. However, during the second half of the twentieth century, after the introduction of antibiotics, maggot therapy was used only as a last resort for very serious wounds.[2] Lately maggots have been making a comeback due to the increased resistance of bacteria to antibiotics.[30]

References

  1. ^ Otranto, Domenico (2001). "The immunology of myiasis: parasite survival and host defense strategies". Trends in Parasitology. 17 (4): 176–182. doi:10.1016/S1471-4922(00)01943-7. PMID 11282507.
  2. ^ a b c d e f g h John, David; Petri, William, eds. (2006). Markell and Voge's Medical Parasitology (9th ed.). Missouri: Saunders Elsevier. pp. 328–334. ISBN 978-0-7216-4793-7.
  3. ^ μυῖα. Liddell, Henry George; Scott, Robert; A Greek–English Lexicon at the Perseus Project.
  4. ^ Ockenhouse, Christian F.; Samlaska, Curt P.; Benson, Paul M.; Roberts, Lyman W.; Eliasson, Arn; Malane, Susan; Menich, Mark D. (1990). "Cutaneous myiasis caused by the African tumbu fly (Cordylobia anthropophaga)". Archives of Dermatology. 126 (2): 199–202. doi:10.1001/archderm.1990.01670260069013. PMID 2301958.
  5. ^ Namazi MR, Fallahzadeh MK (November 2009). "Wound myiasis in a patient with squamous cell carcinoma". ScientificWorldJournal. 9: 1192–3. doi:10.1100/tsw.2009.138. PMC 5823144. PMID 19882087.
  6. ^ "Screwworm flies as agents of wound myiasis". Fao.org. Retrieved 2013-11-05.
  7. ^ El-Azazy, O.M.E. (1989). "Wound myiasis caused by Cochliomyia hominivorax in Libya". Vet. Rec. 124 (4): 103. doi:10.1136/vr.124.4.103-a. PMID 2929078. S2CID 26982759.
  8. ^ Huntington, T. E.; Voigt, David W.; Higley, L. G. (January 2008). "Not the Usual Suspects: Human Wound Myiasis by Phorids". Journal of Medical Entomology. 45 (1): 157–159. doi:10.1603/0022-2585(2008)45[157:NTUSHW]2.0.CO;2. PMID 18283957.
  9. ^ Cleveland Clinic (13 August 2010). Current Clinical Medicine: Expert Consult - Online. Elsevier Health Sciences. pp. 1396–. ISBN 978-1-4377-3571-0. Retrieved 22 April 2013.
  10. ^ a b c Lagacé-Wiens, P. R.; et al. (January 2008). "Human ophthalmomyiasis interna caused by Hypoderma tarandi, Northern Canada". Emerging Infectious Diseases. 14 (1): 64–66. doi:10.3201/eid1401.070163. PMC 2600172. PMID 18258079.
  11. ^ Hall, M.J.R. (1997). "Traumatic myiasis of sheep in Europe: a review". Parassitologia. 39: 409–413.
  12. ^ Peckenscneider, L.E., Polorny, C. and Hellwig, C.A., 1952 Intestinal infestation with maggots of the cheese fly (Piophila casei). J Am Med Assoc. 1952 May 17;149 (3):262-3.
  13. ^ "Gastrointestinal Myiasis – Report of a case, Alonzo F. Brand, M.D., Arch Intern Med (Chic). 1931;47(1):149–154. doi:10.1001/archinte.1931.00140190160017". Archives of Internal Medicine. 47 (1): 149–154. January 1931. doi:10.1001/archinte.1931.00140190160017. from the original on 9 January 2018. Retrieved 17 February 2018.
  14. ^ Sunder Singh Dogra, Vikram K. Mahajan (2010). "Oral myiasis caused by Musca domestica larvae in a child". International Journal of Pediatric Otorhinolaryngology Extra. 5 (3): 105–107. doi:10.1016/j.pedex.2009.05.002. Retrieved 21 October 2021.
  15. ^ Aydenizoz, M.; Gokpınar, S. (26 December 2020). "Urogenital (by Psychoda albipennis (Diptera: Nematocera)) and Intestinal Myiasis (by Fannia canicularis (Diptera: Fanniidae)) in Kırıkkale/Turkey: Report Two Cases". International Journal of Veterinary and Animal Research. 3 (3): 2020–2023. eISSN 2651-3609. Retrieved 24 October 2021.
  16. ^ a b Adisa, Charles Adeyinka; Mbanaso, Augustus (2004). "Furuncular myiasis of the breast caused by the larvae of the Tumbu fly (Cordylobia anthropophaga)". BMC Surgery. 4: 5. doi:10.1186/1471-2482-4-5. PMC 394335. PMID 15113429.
  17. ^ a b c "UOTW #22 - Ultrasound of the Week". Ultrasound of the Week. 14 October 2014. Retrieved 27 May 2017.
  18. ^ a b Janovy, John; Schmidt, Gerald D.; Roberts, Larry S. (1996). Gerald D. Schmidt & Larry S. Roberts' Foundations of parasitology. Dubuque, Iowa: Wm. C. Brown. ISBN 0-697-26071-2.
  19. ^ Zumpt, Fritz Konrad Ernst (1965). Myiasis in man and animals in the old world. Butterworth.
  20. ^ "Standard Operating Procedures - sheep Mulesing". teacher's notes. New South Wales Department of Primary Industries. March 8, 2004. Retrieved 2007-01-09.
  21. ^ "Royal (Dick) School of Veterinary Studies". Veterinary Record. 160 (19): 669. 2007-05-12. doi:10.1136/vr.160.19.669-b. ISSN 0042-4900. S2CID 219190547.
  22. ^ Hill, Dennis S. (1997). The economic importance of insects. Springer. p. 102. ISBN 0-412-49800-6.
  23. ^ "Introduction to myiasis | Natural History Museum". Nhm.ac.uk. Retrieved 2013-11-05.
  24. ^ a b Sherman, RA, Hall, MJR, Thomas, S (2000). "Medicinal Maggots: An ancient remedy for some contemporary afflictions". Annual Review of Entomology. 45: 55–81. doi:10.1146/annurev.ento.45.1.55. PMID 10761570.
  25. ^ a b Greer, Kathleen A. (January–February 2005). "Age-old therapy gets new approval". Advances in Skin & Wound Care. 18 (1): 12–5. doi:10.1097/00129334-200501000-00003. PMID 15716781.
  26. ^ a b Rubin, Rita (2004-07-07). "Maggots and leeches: Good medicine". Usatoday.Com. Retrieved 2013-11-05.
  27. ^ Carlson, Bob (February 2006). "Crawling Through the Millennia: Maggots and Leeches Come Full Circle". Biotechnology Healthcare. 3 (1): 14–17. PMC 3571037. PMID 23424330.
  28. ^ "Insurance may soon cover maggot therapy - Health - Health care | NBC News". NBC News. 2008-11-19. Retrieved 2013-11-05.
  29. ^ Baer, William S. (1931). "The treatment of chronic osteomyelitis with the maggot (larva of the blow fly)". Journal of Bone and Joint Surgery. 13 (3): 438–475.
  30. ^ Bonn, Dorothy (30 September 2000). "Maggot therapy: an alternative for wound infection". The Lancet. 356 (9236): 1174. doi:10.1016/S0140-6736(05)72870-1. PMID 11030307. S2CID 27100272.

External links

  • Myiasis, reviewed and published by WikiVet
  • Exotic Myiasis, University of Sydney Department of Medical Entomology
  • Identification key to species of myiasis-causing fly larvae, Natural History Museum (London)
  • Parasitic Insects, Mites and Ticks: Genera of Medical and Veterinary Importance: Botflies

January 07, 2023
myiasis, parasitic, infestation, body, live, animal, larvae, maggots, which, grow, inside, host, while, feeding, tissue, although, flies, most, commonly, attracted, open, wounds, urine, feces, soaked, some, species, including, most, common, myiatic, flies, bot. Myiasis is the parasitic infestation of the body of a live animal by fly larvae maggots which grow inside the host while feeding on its tissue Although flies are most commonly attracted to open wounds and urine or feces soaked fur some species including the most common myiatic flies the botfly blowfly and screwfly can create an infestation even on unbroken skin and have been known to use moist soil and non myiatic flies such as the common housefly as vector agents for their parasitic larvae MyiasisOther namesFlystrike blowfly strike fly blownCutaneous myiasis in the shoulder of a humanPronunciation ˈ m aɪ e s ɪ s or m aɪ ˈ aɪ e s ɪ s SpecialtyInfectious diseaseBecause some animals particularly non native domestic animals cannot react as effectively as humans to the causes and effects of myiasis such infestations present a severe and continuing problem for livestock industries worldwide causing severe economic losses where they are not mitigated by human action 1 Although typically a far greater issue for animals myiasis is also a relatively frequent disease for humans in rural tropical regions where myiatic flies thrive and often may require medical attention to surgically remove the parasites 2 Myiasis varies widely in the forms it takes and its effects on those affected Such variations depend largely on the fly species and where the larvae are located Some flies lay eggs in open wounds other larvae may invade unbroken skin or enter the body through the nose or ears and still others may be swallowed if the eggs are deposited on the lips or on food 2 There can also be accidental myiasis which E tenax can cause in humans via water containing the larvae or in contaminated uncooked food The name of the condition derives from ancient Greek myῖa myia meaning fly 3 Contents 1 Signs and symptoms 1 1 Wound 1 2 Eye 2 Cause 2 1 Life cycle 2 2 Human vectors 2 2 1 Specific myiasis 2 2 2 Semispecific myiasis 2 2 3 Accidental myiasis 3 Diagnosis 3 1 Classifications 4 Prevention 5 Treatment 6 Epidemiology 7 History 8 Maggot therapy 8 1 History 9 References 10 External linksSigns and symptoms EditHow myiasis affects the human body depends on where the larvae are located Larvae may infect dead necrotic prematurely dying or living tissue in various sites the skin eyes ears stomach and intestinal tract or in genitourinary sites 4 They may invade open wounds and lesions or unbroken skin Some enter the body through the nose or ears Larvae or eggs can reach the stomach or intestines if they are swallowed with food and cause gastric or intestinal myiasis 2 Several different presentations of myiasis and their symptoms 2 Syndrome SymptomsCutaneous myiasis Painful slow developing ulcers or furuncle boil like sores that can last for a prolonged periodNasal myiasis Obstruction of nasal passages and severe irritation In some cases facial edema and fever can develop Death is not uncommon Aural myiasis Crawling sensations and buzzing noises Smelly discharge is sometimes present If located in the middle ear larvae may get to the brain Ophthalmomyiasis Severe irritation edema and pain Fairly common Wound Edit Wound myiasis occurs when fly larvae infest open wounds It has been a serious complication of war wounds in tropical areas and is sometimes seen in neglected wounds in most parts of the world Predisposing factors include poor socioeconomic conditions extremes of age neglect mental disability psychiatric illness alcoholism diabetes and vascular occlusive disease 5 6 7 8 9 Eye Edit Myiasis of the human eye or ophthalmomyiasis can be caused by Hypoderma tarandi a parasitic botfly of caribou It is known to lead to uveitis glaucoma and retinal detachment 10 Human ophthalmomyiasis both external and internal has been caused by the larvae of the botfly 10 Cause EditLife cycle Edit The life cycle in sheep is typical of the disease The female flies lay their eggs on the sheep in damp protected areas of the body that are soaked with urine and feces mainly the sheep s breech buttocks It takes approximately eight hours to a day for the eggs to hatch depending on the conditions Once hatched the larvae then lacerate the skin with their mouthparts causing open sores Once the skin has been breached the larvae then tunnel through the sores into the host s subcutaneous tissue causing deep and irritating lesions highly subject to infection After about the second day bacterial infection is likely and if left untreated causes bacterial bloodstream infections or sepsis This leads to anorexia and weakness and is generally fatal if untreated 11 Human vectors Edit There are three main fly families causing economically important myiasis in livestock and also occasionally in humans citation needed Calliphoridae blowflies Some examples include Calliphora vomitoria and Calliphora vicina Oestridae botflies Cordylobia Sarcophagidae fleshflies Sarcophaga barbata are usually found in dead and rotting meat and animal excrement which are prime environments for them This is because their larvae are facultative parasites as they feed on organic tissue and use the hosts oxygen reserve Other families occasionally involved are citation needed Anisopodidae Piophilidae Stratiomyidae SyrphidaeSpecific myiasis Edit Caused by flies that need a host for larval development citation needed Dermatobia hominis human botfly Cordylobia anthropophaga tumbu fly Cordylobia rodhaini Lund s fly Oestrus ovis sheep botfly Hypoderma spp cattle botflies or ox warbles Gasterophilus spp horse botfly Cochliomyia hominivorax new world screwworm fly Chrysomya bezziana old world screwworm fly Auchmeromyia senegalensis Congo floor maggot Cuterebra spp rodent and rabbit botfly Semispecific myiasis Edit Caused by flies that usually lay their eggs in decaying animal or vegetable matter but that can develop in a host if open wounds or sores are present citation needed Lucilia spp green bottle fly Cochliomyia spp screw worm fly Phormia spp black bottle fly Calliphora spp blue bottle fly Sarcophaga spp flesh fly or sarcophagids Flesh flies or sarcophagids members of the family Sarcophagidae can cause intestinal myiasis in humans if the females lay their eggs on meat or fruit citation needed Accidental myiasis Edit Also called pseudomyiasis Caused by flies that have no preference or need to develop in a host but that will do so on rare occasions Transmission occurs through accidental deposit of eggs on oral or genitourinary openings or by swallowing eggs or larvae that are on food citation needed The cheese fly Piophila casei sometimes causes myiasis through intentional consumption of its maggots which are contained in the traditional Sardinian delicacy casu marzu 12 13 Other flies that can accidentally cause myiasis are 14 15 Musca domestica housefly Fannia spp latrine flies Eristalis tenax rat tailed maggots Muscina spp The adult flies are not parasitic but when they lay their eggs in open wounds and these hatch into their larval stage also known as maggots or grubs the larvae feed on live or necrotic tissue causing myiasis to develop They may also be ingested or enter through other body apertures citation needed Diagnosis EditMyiasis is often misdiagnosed in the United States because it is rare and its symptoms are not specific Intestinal myiasis and urinary myiasis are especially difficult to diagnose 2 Clues that myiasis may be present include recent travel to an endemic area one or more non healing lesions on the skin itchiness movement under the skin or pain discharge from a central punctum tiny hole or a small white structure protruding from the lesion 16 Serologic testing has also been used to diagnose the presence of botfly larvae in human ophthalmomyiasis 10 source source source source source source source source Ultrasound showing maggot infestation 17 source source source source source source source source Ultrasound showing maggot infestation 17 Ultrasound showing maggot infestation 17 Classifications Edit German entomologist Fritz Zumpt describes myiasis as the infestation of live human and vertebrate animals with dipterous larvae which at least for a period feed on the host s dead or living tissue liquid body substances or ingested food For modern purposes however this is too vague For example feeding on dead or necrotic tissue is not generally a problem except when larvae such as those of flies in the family Piophilidae attack stored food such as cheese or preserved meats such activity suggests saprophagy rather than parasitism it even may be medically beneficial in maggot debridement therapy MDT citation needed Currently myiasis commonly is classified according to aspects relevant to the case in question The classical description of myiasis is according to the part of the host that is infected This is the classification used by ICD 10 For example 18 dermal sub dermal cutaneous B87 0 creeping where larvae burrow through or under the skin furuncular where a larva remains in one spot causing a boil like lesion nasopharyngeal in the nose sinuses or pharynx B87 3 ophthalmic or ocular in or about the eye B87 2 auricular in or about the ear gastric rectal or intestinal enteric for the appropriate part of the digestive system B87 8 urogenital B87 8 Another aspect is the relationship between the host and the parasite and provides insight into the biology of the fly species causing the myiasis and its likely effect Thus the myiasis is described as either 18 obligatory where the parasite cannot complete its life cycle without its parasitic phase which may be specific semispecific or opportunistic facultative incidental or accidental where it is not essential to the life cycle of the parasite perhaps a normally free living larva accidentally gained entrance to the host 2 Accidental myiasis commonly is enteric resulting from swallowing eggs or larvae with one s food The effect is called pseudomyiasis 19 One traditional cause of pseudomyiasis was the eating of maggots of cheese flies in cheeses such as Stilton Depending on the species present in the gut pseudomyiasis may cause significant medical symptoms but it is likely that most cases pass unnoticed citation needed Prevention EditThe first control method is preventive and aims to eradicate the adult flies before they can cause any damage and is called vector control The second control method is the treatment once the infestation is present and concerns the infected animals including humans citation needed The principal control method of adult populations of myiasis inducing flies involves insecticide applications in the environment where the target livestock is kept Organophosphorus or organochlorine compounds may be used usually in a spraying formulation One alternative prevention method is the sterile insect technique SIT where a significant number of artificially reared sterilized usually through irradiation male flies are introduced The male flies compete with wild breed males for females in order to copulate and thus cause females to lay batches of unfertilized eggs which cannot develop into the larval stage citation needed One prevention method involves removing the environment most favourable to the flies such as by removal of the tail Another example is the crutching of sheep which involves the removal of wool from around the tail and between the rear legs which is a favourable environment for the larvae Another more permanent practice which is used in some countries is mulesing where skin is removed from young animals to tighten remaining skin leaving it less prone to fly attack 20 To prevent myiasis in humans there is a need for general improvement of sanitation personal hygiene and extermination of the flies by insecticides Clothes should be washed thoroughly preferably in hot water dried away from flies and ironed thoroughly The heat of the iron kills the eggs of myiasis causing flies 16 Treatment EditThis applies once an infestation is established In many circles the first response to cutaneous myiasis once the breathing hole has formed is to cover the air hole thickly with petroleum jelly Lack of oxygen then forces the larva to the surface where it can more easily be dealt with In a clinical or veterinary setting there may not be time for such tentative approaches and the treatment of choice might be more direct with or without an incision First the larva must be eliminated through pressure around the lesion and the use of forceps Secondly the wound must be cleaned and disinfected Further control is necessary to avoid further reinfestation citation needed Livestock may be treated prophylactically with slow release boluses containing ivermectin which can provide long term protection against the development of the larvae Sheep also may be dipped a process which involves drenching the animals in persistent insecticide to poison the larvae before they develop into a problem citation needed Epidemiology EditThe most common infected animal worldwide is the domestic sheep for more information see fly strike in sheep This condition is caused by the blowfly particularly Lucilia sericata and its sister species L cuprina especially where the weather is often hot and wet 21 Blowfly strike accounts for over A 170 million a year in losses in the Australian sheep industry the largest such losses in the world Given the seriousness of the risk Australian sheep farmers commonly perform preventive measures such as mulesing designed to remove the most common targets for the flies The docking of lambs tails another frequently soiled area that flies target is also commonly practiced by sheep farmers worldwide Maggots also occasionally citation needed infest the vulvar area causing the condition called vulvar myiasis Such problems are not peculiar to Australia and New Zealand they occur worldwide especially in countries where livestock particularly sheep are kept under hot wet conditions including most of Africa and the Americas ranging from the cold temperate regions in the north to corresponding latitudes in the south Myiasis is also not restricted to sheep screwworm flies Cochliomyia hominivorax in particular regularly cause upwards of US 100 million in annual damages to domestic cows and goats 22 though the impact has been heavily mitigated in recent years by the sterile insect technique citation needed History Edit Myiasis in a cat s flesh Myiasis in a dog s flesh Frederick William Hope coined the term myiasis in 1840 to refer to diseases resulting from dipterous larvae as opposed to those caused by other insect larvae the term for this was scholechiasis Hope described several cases of myiasis from Jamaica caused by unknown larvae one of which resulted in death 23 Even though the term myiasis was first used in 1840 such conditions have been known since ancient times Ambroise Pare the chief surgeon to King Charles IX and King Henry III observed that maggots often infested open wounds 24 Maggot therapy EditMain article Maggot therapy Throughout recorded history maggots have been used therapeutically to clean out necrotic wounds an application known as maggot therapy citation needed Fly larvae that feed on dead tissue can clean wounds and may reduce bacterial activity and the chance of a secondary infection They dissolve dead tissue by secreting digestive enzymes onto the wound as well as actively eating the dead tissue with mouth hooks two hard probing appendages protruding on either side of the mouth 25 Maggot therapy also known as maggot debridement therapy MDT larval therapy larva therapy or larvae therapy is the intentional introduction by a health care practitioner of live disinfected green bottle fly maggots into the non healing skin and soft tissue wounds of a human or other animal for the purpose of selectively cleaning out only the necrotic tissue within a wound in order to promote healing citation needed Although maggot therapy has been used in the US for the past 80 years it was approved by the FDA as a medical device only in 2004 along with leeches 26 Maggots were the first live organism to be marketed in the US according to FDA regulations and are approved for treating neuropathic diabetic foot ulcers pressure ulcers venous stasis ulcers and traumatic and post surgical wounds that are unresponsive to conventional therapies Maggots were used in medicine before this time but were not federally regulated In 1990 California internist Ronald Sherman began treating patients with maggots produced at his lab at the UC Irvine School of Medicine 26 Sherman went on to co found Monarch Labs in 2005 which UC Irvine contracted to produce maggots for Sherman s own continuing clinical research on myiasis at the university Monarch Labs also sells maggots to hospitals and other medical practices the first US commercial supplier to do so since the last one closed in 1935 27 In the US demand for these fly larvae doubled after the FDA ruling Maggot therapy is now used in more than 300 sites across the country 25 The American Medical Association and Centers for Medicare and Medicaid Services recently clarified the reimbursement guidelines to the wound care community for medicinal maggots and this therapy may soon be covered by insurance 28 The larvae of the green bottle fly a type of blow fly are now used exclusively for this purpose since they preferentially devour only necrotic tissue leaving healthy tissue intact This is an important distinction as most other major varieties of myiasitic fly larvae attack both live and dead wound tissue indiscriminately effectively negating their benefit in non harmful wound debridement Medicinal maggots are placed on the wound and covered with a sterile dressing of gauze and nylon mesh However too many larvae placed on the wound could result in healthy tissue being eaten efficiently creating a new wound rendering it as a type of myiasis 24 History Edit Maggot therapy has a long history and prehistory The indigenous people of Australia used maggot therapy and so do the Hill Peoples of Northern Burma and possibly the Mayans of Central America 2 Surgeons in Napoleon s armies recognized that wounded soldiers with myiasis were more likely to survive than those without the infestation In the American Civil War army surgeons treated wounds by allowing blowfly maggots to clean away the decayed tissue citation needed William Baer an orthopedic surgeon at Johns Hopkins during the late 1920s used maggot therapy to treat a series of patients with osteomyelitis an infection of bone or bone marrow The idea was based on an experience in World War I in which two soldiers presented to him with broken femurs after having lain on the ground for seven days without food and water Baer could not figure out why neither man had a fever or signs of sepsis He observed On removing the clothing from the wounded part much was my surprise to see the wound filled with thousands and thousands of maggots apparently those of the blow fly The sight was very disgusting and measures were taken hurriedly to wash out these abominable looking creatures However he then saw that the wounds were filled with beautiful pink granulation tissue and were healing well 29 Maggot therapy was common in the United States during the 1930s However during the second half of the twentieth century after the introduction of antibiotics maggot therapy was used only as a last resort for very serious wounds 2 Lately maggots have been making a comeback due to the increased resistance of bacteria to antibiotics 30 References Edit Otranto Domenico 2001 The immunology of myiasis parasite survival and host defense strategies Trends in Parasitology 17 4 176 182 doi 10 1016 S1471 4922 00 01943 7 PMID 11282507 a b c d e f g h John David Petri William eds 2006 Markell and Voge s Medical Parasitology 9th ed Missouri Saunders Elsevier pp 328 334 ISBN 978 0 7216 4793 7 myῖa Liddell Henry George Scott Robert A Greek English Lexicon at the Perseus Project Ockenhouse Christian F Samlaska Curt P Benson Paul M Roberts Lyman W Eliasson Arn Malane Susan Menich Mark D 1990 Cutaneous myiasis caused by the African tumbu fly Cordylobia anthropophaga Archives of Dermatology 126 2 199 202 doi 10 1001 archderm 1990 01670260069013 PMID 2301958 Namazi MR Fallahzadeh MK November 2009 Wound myiasis in a patient with squamous cell carcinoma ScientificWorldJournal 9 1192 3 doi 10 1100 tsw 2009 138 PMC 5823144 PMID 19882087 Screwworm flies as agents of wound myiasis Fao org Retrieved 2013 11 05 El Azazy O M E 1989 Wound myiasis caused by Cochliomyia hominivorax in Libya Vet Rec 124 4 103 doi 10 1136 vr 124 4 103 a PMID 2929078 S2CID 26982759 Huntington T E Voigt David W Higley L G January 2008 Not the Usual Suspects Human Wound Myiasis by Phorids Journal of Medical Entomology 45 1 157 159 doi 10 1603 0022 2585 2008 45 157 NTUSHW 2 0 CO 2 PMID 18283957 Cleveland Clinic 13 August 2010 Current Clinical Medicine Expert Consult Online Elsevier Health Sciences pp 1396 ISBN 978 1 4377 3571 0 Retrieved 22 April 2013 a b c Lagace Wiens P R et al January 2008 Human ophthalmomyiasis interna caused by Hypoderma tarandi Northern Canada Emerging Infectious Diseases 14 1 64 66 doi 10 3201 eid1401 070163 PMC 2600172 PMID 18258079 Hall M J R 1997 Traumatic myiasis of sheep in Europe a review Parassitologia 39 409 413 Peckenscneider L E Polorny C and Hellwig C A 1952 Intestinal infestation with maggots of the cheese fly Piophila casei J Am Med Assoc 1952 May 17 149 3 262 3 Gastrointestinal Myiasis Report of a case Alonzo F Brand M D Arch Intern Med Chic 1931 47 1 149 154 doi 10 1001 archinte 1931 00140190160017 Archives of Internal Medicine 47 1 149 154 January 1931 doi 10 1001 archinte 1931 00140190160017 Archived from the original on 9 January 2018 Retrieved 17 February 2018 Sunder Singh Dogra Vikram K Mahajan 2010 Oral myiasis caused by Musca domestica larvae in a child International Journal of Pediatric Otorhinolaryngology Extra 5 3 105 107 doi 10 1016 j pedex 2009 05 002 Retrieved 21 October 2021 Aydenizoz M Gokpinar S 26 December 2020 Urogenital by Psychoda albipennis Diptera Nematocera and Intestinal Myiasis by Fannia canicularis Diptera Fanniidae in Kirikkale Turkey Report Two Cases International Journal of Veterinary and Animal Research 3 3 2020 2023 eISSN 2651 3609 Retrieved 24 October 2021 a b Adisa Charles Adeyinka Mbanaso Augustus 2004 Furuncular myiasis of the breast caused by the larvae of the Tumbu fly Cordylobia anthropophaga BMC Surgery 4 5 doi 10 1186 1471 2482 4 5 PMC 394335 PMID 15113429 a b c UOTW 22 Ultrasound of the Week Ultrasound of the Week 14 October 2014 Retrieved 27 May 2017 a b Janovy John Schmidt Gerald D Roberts Larry S 1996 Gerald D Schmidt amp Larry S Roberts Foundations of parasitology Dubuque Iowa Wm C Brown ISBN 0 697 26071 2 Zumpt Fritz Konrad Ernst 1965 Myiasis in man and animals in the old world Butterworth Standard Operating Procedures sheep Mulesing teacher s notes New South Wales Department of Primary Industries March 8 2004 Retrieved 2007 01 09 Royal Dick School of Veterinary Studies Veterinary Record 160 19 669 2007 05 12 doi 10 1136 vr 160 19 669 b ISSN 0042 4900 S2CID 219190547 Hill Dennis S 1997 The economic importance of insects Springer p 102 ISBN 0 412 49800 6 Introduction to myiasis Natural History Museum Nhm ac uk Retrieved 2013 11 05 a b Sherman RA Hall MJR Thomas S 2000 Medicinal Maggots An ancient remedy for some contemporary afflictions Annual Review of Entomology 45 55 81 doi 10 1146 annurev ento 45 1 55 PMID 10761570 a b Greer Kathleen A January February 2005 Age old therapy gets new approval Advances in Skin amp Wound Care 18 1 12 5 doi 10 1097 00129334 200501000 00003 PMID 15716781 a b Rubin Rita 2004 07 07 Maggots and leeches Good medicine Usatoday Com Retrieved 2013 11 05 Carlson Bob February 2006 Crawling Through the Millennia Maggots and Leeches Come Full Circle Biotechnology Healthcare 3 1 14 17 PMC 3571037 PMID 23424330 Insurance may soon cover maggot therapy Health Health care NBC News NBC News 2008 11 19 Retrieved 2013 11 05 Baer William S 1931 The treatment of chronic osteomyelitis with the maggot larva of the blow fly Journal of Bone and Joint Surgery 13 3 438 475 Bonn Dorothy 30 September 2000 Maggot therapy an alternative for wound infection The Lancet 356 9236 1174 doi 10 1016 S0140 6736 05 72870 1 PMID 11030307 S2CID 27100272 External links EditMyiasis reviewed and published by WikiVet Exotic Myiasis University of Sydney Department of Medical Entomology Identification key to species of myiasis causing fly larvae Natural History Museum London Parasitic Insects Mites and Ticks Genera of Medical and Veterinary Importance Botflies Retrieved from https en wikipedia org w index php title Myiasis amp oldid 1122825436, wikipedia, wiki, book, books, library,

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