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Mosquito net

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A mosquito net in an expensive beach lodge in Mozambique
Ceiling-hung mosquito netting
Frame-hung mosquito netting
Tent made of mosquito netting
Window with mosquito netting

A mosquito net is a type of meshed curtain that is circumferentially draped over a bed or a sleeping area to offer the sleeper barrier protection against bites and stings from mosquitos,[1] flies, and other pest insects, and thus against the diseases they may carry. Examples of such preventable insect-borne diseases include malaria, dengue fever, yellow fever, zika virus, Chagas disease, and various forms of encephalitis, including the West Nile virus.[2]

To be effective, the mesh of a mosquito net must be fine enough to exclude such insects without obscuring visibility or ventilation to unacceptable levels. The netting should be made of stiff cotton or synthetic thread to allow the movement of air. A white net allows the user to see mosquitoes against the background. Netting with 285 holes per square inch is ideal because it is very breathable but will prevent even the smallest mosquito from entering.[3] It is possible to increase the effectiveness of a mosquito net greatly by treating it with an appropriate insecticide or insect repellent. Research has shown mosquito nets to be an extremely effective method of malaria prevention, averting approximately 663 million cases of malaria over the period 2000–2015.[4]

History

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Mosquito netting is mainly used for the protection against the malaria transmitting vector, Anopheles gambiae. The first record of malaria-like symptoms occurred as early as 2700 BCE from China. The vector for this disease, specifically avian malaria, was not identified until 1897 when Sir Ronald Ross identified mosquitoes as a vector for malaria.[5]

Conopeum or Conopium (Ancient Greek: κωνώπιον or κωνόπιον or κωνωπεῖον) was a mosquito-curtain. It was made to keep away mosquitos and other flying insects. It took its name from κώνωψ, which means mosquito in Greek, and is the origin of the English word canopy. These curtains were especially used in Egypt because of the mosquitoes which infest the Nile. The Scholiast on Juvenal mention that at Rome they were called cubiculare. They are still used in Greece and other countries surrounding the Mediterranean.[6][7][8][9]

Mosquito netting has a long history. Though use of the term dates from the mid-18th century,[1] Indian literature from the late medieval period has references to the usage of mosquito nets in ritual Hindu worship. Poetry composed by Annamayya, the earliest known Telugu musician and poet, references domatera, which means "mosquito net" in Telugu.[10] Use of mosquito nets has been dated to prehistoric times. It is said that Cleopatra, the last active pharaoh of Ancient Egypt, also slept under a mosquito net.[11] Mosquito nets were used during the malaria-plagued construction of the Suez Canal.[11]

Construction

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Mosquito netting can be made from cotton, polyethylene, polyester, polypropylene, or nylon.[12] A mesh size of 1.2 millimetres (0.047 in) stops mosquitoes, and smaller, such as 0.6 millimetres (0.024 in), stops other biting insects such as biting midges/no-see-ums.[13]

A mosquito bar is an alternate form of a mosquito net. It is constructed of a fine see-through mesh fabric mounted on and draped over a box-shaped frame. It is designed to fit over an area or item such as a sleeping bag to provide protection from insects. A mosquito bar could be used to protect oneself from mosquitoes and other insects while sleeping in jungle areas.[14] The mesh is woven tightly enough to stop insects from entering but loosely enough to not interfere with ventilation. The frame is usually self-supporting or freestanding although it can be designed to be attached from the top to an alternative support such as tree limbs.[14]

Usage

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Mosquito nets are often used where malaria or other insect-borne diseases are common, especially as a tent-like covering over a bed. For effectiveness, it is important that the netting not have holes or gaps large enough to allow insects to enter. It is also important to 'seal' the net properly because mosquitoes are able to 'squeeze' through improperly secured nets. Because an insect can bite a person through the net, the net must not rest directly on the skin.[15]

Mosquito netting can be hung over beds from the ceiling or a frame, built into tents, or installed in windows and doors. When hung over beds, rectangular nets provide more room for sleeping without the danger of netting contacting skin, at which point mosquitoes may bite through untreated netting. Some newer mosquito nets are designed to be both easy to deploy and foldable after use.[16][17]

Where mosquito nets are freely or cheaply distributed, local residents sometimes opportunistically use them inappropriately, for example as fishing nets. When used for fishing, mosquito nets have harmful ecological consequences because the fine mesh of a mosquito net retains almost all fish, including bycatch such as immature or small fish and fish species that are not suitable for consumption.[18][19][20][21] In addition, insecticides with which the mesh has been treated, such as permethrin, may be harmful to the fish and other aquatic fauna.[19]

An Ethiopian mother with a long lasting insecticide-treated mosquito net.

Insecticide-treated nets

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Mosquito nets treated with insecticides—known as insecticide-treated nets (ITNs) or bednets—were developed and tested in the 1980s for malaria prevention by P. Carnevale and his team in Bobo-Dioulasso, Burkina Faso. ITNs are estimated to be twice as effective as untreated nets,[22] and offer greater than 70% protection compared with no net.[23] These nets are dip-treated using a synthetic pyrethroid insecticide such as deltamethrin or permethrin which will double the protection over a non-treated net by killing and repelling mosquitoes. For maximum effectiveness, ITNs should be re-impregnated with insecticide every six months. This process poses a significant logistical problem in rural areas. Newer, long-lasting insecticidal nets (LLINs) have now replaced ITNs in most countries and dual agent nets, typically using alpha-cypermethrin and chlorfenapyr, are starting to be used in response to reports of mosquito resistance.[24][25]

Effectiveness

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The distribution of mosquito nets or bednets treated with insecticides such as permethrin or deltamethrin has been shown to be an extremely effective method of malaria prevention.[4] According to a 2015 Nature study, mosquito nets averted 68% of an estimated 663 million averted cases of malaria infection since 2000.[4] It is also one of the most cost-effective methods of prevention. These nets can often be obtained for around $2.50–$3.50 (2–3 euros) from the United Nations, the World Health Organization (WHO), and others. ITNs have been shown to be the most cost-effective prevention method against malaria and are part of WHO's Millennium Development Goals (MDGs).[26] Generally LLINs are purchased by donor groups and delivered through in-country distribution networks.

ITNs protect people sleeping under them and simultaneously kill mosquitoes that contact the nets. Some protection is provided to others by this method, including people sleeping in the same room but not under the net. However, mathematical modeling has suggested that disease transmission may be exacerbated after bed nets have lost their insecticidal properties under certain circumstances.[27] Although ITN users are still protected by the physical barrier of the netting, non-users could experience an increased bite rate as mosquitoes are deflected away from the non-lethal bed net users.[27] The modeling suggests that this could increase transmission when the human population density is high or at lower human densities when mosquitoes are more adept at locating their blood meals.[27]

In December 2019 it was reported that West African populations of Anopheles gambiae include mutants with higher levels of sensory appendage protein 2 (a type of chemosensory protein in the legs), which binds to pyrethroids, sequestering them and so preventing them from functioning, thus making the mosquitoes with this mutation more likely to survive contact with bednets.[28]

Distribution

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While some experts argue that international organizations should distribute ITNs and LLINs to people for free to maximize coverage (since such a policy would reduce price barriers), others insist that cost-sharing between the international organization and recipients would lead to greater use of the net (arguing that people will value a good more if they pay for it). Additionally, proponents of cost-sharing argue that such a policy ensures that nets are efficiently allocated to the people who most need them (or are most vulnerable to infection). Through a "selection effect", they argue, the people who most need the bed nets will choose to purchase them, while those less in need will opt out.

However, a randomized controlled trial study of ITNs uptake among pregnant women in Kenya, conducted by economists Pascaline Dupas and Jessica Cohen, found that cost-sharing does not necessarily increase the usage intensity of ITNs nor does it induce uptake by those most vulnerable to infection, as compared to a policy of free distribution.[29][30] In some cases, cost-sharing can decrease demand for mosquito nets by erecting a price barrier. Dupas and Cohen's findings support the argument that free distribution of ITNs can be more effective than cost-sharing in increasing coverage and saving lives. In a cost-effectiveness analysis, Dupas and Cohen note that "cost-sharing is at best marginally more cost-effective than free distribution, but free distribution leads to many more lives saved."[29]

The researchers base their conclusions about the cost-effectiveness of free distribution on the proven spillover benefits of increased ITN usage.[31] ITNs protect the individuals or households that use them, and they protect people in the surrounding community in one of two ways.[32]

  • First, ITNs kill adult mosquitoes infected with the malaria parasite directly which increases their mortality rate and can therefore decrease the frequency in which a person in the community is bitten by an infected mosquito.[33]
  • Second, certain malaria parasites require days to develop in the salivary glands of the vector mosquito. This process can be accelerated or decelerated via weather; more specifically heat.[34] Plasmodium falciparum, for example, the parasite that is responsible for the majority of deaths in Sub-Saharan Africa, takes 8 days to mature. Therefore, malaria transmission to humans does not take place until approximately the 10th day, although it requires blood meals at intervals of 2 to 5 days.[35] By killing mosquitoes before maturation of the malaria parasite, ITNs can reduce the number of encounters of infected mosquitoes with humans.[33]

When a large number of nets are distributed in one residential area, their chemical additives help reduce the number of mosquitoes in the environment. With fewer mosquitoes, the chances of malaria infection for recipients and non-recipients are significantly reduced. (In other words, the importance of the physical barrier effect of ITNs decreases relative to the positive externality effect[clarification needed] of the nets in creating a mosquito-free environment when ITNs are highly concentrated in one residential cluster or community.)

Standard ITNs must be replaced or re-treated with insecticide after six washes and, therefore, are not seen as a convenient, effective long-term solution to the malaria problem.[36][37][38]

As a result, the mosquito netting and pesticide industries developed so-called long-lasting insecticidal mosquito nets, which also use pyrethroid insecticides. There are three types of LLINs — polyester netting which has insecticide bound to the external surface of the netting fibre using a resin; polyethylene which has insecticide incorporated into the fibre and polypropylene which has insecticide incorporated into the fibre. All types can be washed at least 20 times, but physical durability will vary. A survey carried out in Tanzania concluded that effective life of polyester nets was 2 to 3 years;[39] with polyethylene LLINs there are data to support over 5 years of life with trials in showing nets which were still effective after 7 years.[40]

Scientific trials

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A review of 22 randomized controlled trials of ITNs[41] found (for Plasmodium falciparum malaria) that ITNs can reduce deaths in children by one fifth and episodes of malaria by half.

More specifically, in areas of stable malaria "ITNs reduced the incidence of uncomplicated malarial episodes by 50% compared to no nets, and 39% compared to untreated nets" and in areas of unstable malaria "by 62% compared to no nets and 43% compared to untreated nets". As such the review calculated that for every 1000 children protected by ITNs, 5.5 lives would be saved each year.

Through the years 1999 and 2010 the abundance of female anopheles gambiae densities in houses throughout western Kenya were recorded. This data set was paired with the spatial data of bed net usage in order to determine correlation. Results showed that from 2008 to 2010 the relative population density of the female anopheles gambiae decreased from 90.6% to 60.7%.[42] The conclusion of this study showed that as the number of houses which used insecticide treated bed nets increased the population density of female anopheles gambiae decreased. This result did however vary from region to region based on the local environment.

A 2019 study in PLoS ONE found that a campaign to distribute mosquito bednets in the Democratic Republic of Congo led to a 41% decline mortality for children under five who lived in areas with a high malaria risk.[43]

Associated problems

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Malaria and other arboviruses are known to contribute to economic disparity within that country and vice versa. This opens the stage for corruption associated to the distribution of self-protection aides.[44] The least wealthy members of society are both more likely to be in closer proximity to the vectors' prime habitat and less likely to be protected from the vectors.[45] This increase in probability of being infected increases the demand for self-protection which therefore allows for higher pricing and uneven distribution of self-protection means. A decrease in per capita income exaggerates a high demand for resources such as water and food resulting in civil unrest among communities. Protecting resources as well as attempting to obtain resources are both a cause for conflict.

Mosquito nets have been observed to be used in fisheries across the world, where their strength, light weight and free or cheap accessibility make them an attractive tool for fishing. People who use them for fishing catch vast numbers of juvenile fish.[46]

Alternatives

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Mosquito nets do reduce air flow to an extent and sleeping under a net is hotter than sleeping without one, which can be uncomfortable in tropical areas without air-conditioning.

Some alternatives are:

  • The use of a fan to increase air flow.[47]
  • The application of an insect repellent to the skin; this also may be less effective (reducing rather than eliminating bites), more expensive, and may pose health risks with long-term use.
  • The use of indoor residual spraying of insecticides. This was a common practice in the late-20th Century. However, due to an increased awareness of the environmental hazards associated with the insecticide DDT used for some of these programs, this practice became less common. For example - American funding for African programs were cut and the number of malaria-infected subjects skyrocketed. In order to see results from the use of indoor residual spraying programs 80% of homes in the affected area need to be sprayed and the application of insecticide needs to be constant in order to suppress certain species which are immune to the insecticide.[48] Large-scale application results in a dependence on continual spraying. If the aggressive style of application is not maintained then the risk of an increase of genetically-resistant mosquitos increases. This would ultimately result in an unrealistic mediation process.[49]

See also

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References

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  1. ^ a b Oxford English Dictionary (draft ed.). Oxford University Press. 2009.
  2. ^ "All Mosquito Netting Info". Archived from the original on 2010-03-04. Retrieved 2009-10-27.
  3. ^ "How to choose a good mosquito net".
  4. ^ a b c Bhatt, S.; Weiss, D. J.; Cameron, E.; Bisanzio, D.; Mappin, B.; Dalrymple, U.; Battle, K. E.; Moyes, C. L.; Henry, A. (2015-10-08). "The effect of malaria control on Plasmodium falciparum in Africa between 2000 and 2015". Nature. 526 (7572): 207–211. Bibcode:2015Natur.526..207B. doi:10.1038/nature15535. ISSN 0028-0836. PMC 4820050. PMID 26375008.
  5. ^ Cox, Francis EG (2010-02-01). "History of the discovery of the malaria parasites and their vectors". Parasites & Vectors. 3 (1): 5. doi:10.1186/1756-3305-3-5. ISSN 1756-3305. PMC 2825508. PMID 20205846.
  6. ^ Henry George Liddell, Robert Scott, A Greek-English Lexicon, Kwnwpion
  7. ^ Harry Thurston Peck, Harpers Dictionary of Classical Antiquities (1898), Conopeum
  8. ^ Charlton T. Lewis, An Elementary Latin Dictionary, Conopeum
  9. ^ A Dictionary of Greek and Roman Antiquities (1890), Conopeum
  10. ^ "Annamacharya Poetry - Vinnapalu vinavale". Retrieved 2015-10-28.
  11. ^ a b "History of Malaria Control". Archived from the original on November 11, 2009. Retrieved 2009-10-27.
  12. ^ "World Health Organization: Annex VII : Procedure for Treating Mosquito Nets and curtains" (PDF). Archived from the original (PDF) on September 16, 2012. Retrieved 2009-10-27.
  13. ^ "Mosquito Netting Criteria". Retrieved 2009-10-27.
  14. ^ a b Tawrell, Paul (2006). Camping & wilderness survival : the ultimate outdoors book (2nd ed.). Lebanon, NH: Paul Tawrell. p. 92. ISBN 978-0-9740820-2-8.
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  17. ^ "Types of Mosquito Nets. - Mosquito Net India". Mosquito Net India. Archived from the original on 2018-08-17. Retrieved 2018-07-10.
  18. ^ Jones, Benjamin L.; Unsworth, Richard K. F. (2019-11-11). "The perverse fisheries consequences of mosquito net malaria prophylaxis in East Africa". Ambio. 49 (7): 1257–1267. doi:10.1007/s13280-019-01280-0. ISSN 0044-7447. PMC 7190679. PMID 31709492.
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  22. ^ Swales, Jay. (2006). "Malaria: Fever Wars". CDC.
  23. ^ Bachou H, Tylleskär T, Kaddu-Mulindwa DH, Tumwine JK (2006). "Bacteraemia among severely malnourished children infected and uninfected with the human immunodeficiency virus-1 in Kampala, Uganda". BMC Infectious Diseases. 6: 160. doi:10.1186/1471-2334-6-160. PMC 1660577. PMID 17090299.
  24. ^ "New fronts are opening in the war against malaria". The Economist. ISSN 0013-0613. Retrieved 2024-06-20.
  25. ^ Masum, Hassan; Shah, Ronak; Schroeder, Karl; Daar, Abdallah S.; Singer, Peter A. (2010). "BMC International Health and Human Rights - Full text - Africa's largest long-lasting insecticide-treated net producer: lessons from A to Z Textiles". BMC International Health and Human Rights. 10 (1): S6. doi:10.1186/1472-698X-10-S1-S6. PMC 3001614. PMID 21144077.
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  28. ^ Catteruccia, Flaminia (2019). "Malaria-carrying mosquitoes get a leg up on insecticides". Nature: News and Views. 577 (7790): 319–320. doi:10.1038/d41586-019-03728-5. PMID 31937951.
  29. ^ a b Jessica Cohen; Pascaline Dupas (February 2010). "Free Distribution or Cost-Sharing? Evidence from a Randomized Malaria Prevention Experiment" (PDF). Quarterly Journal of Economics. 125 (1): 24. CiteSeerX 10.1.1.211.2246. doi:10.1162/qjec.2010.125.1.1. Archived from the original (PDF) on April 10, 2011.
  30. ^ "Free Distribution or Cost-Sharing: Evidence from a Malaria Prevention Experiment in Kenya". Innovations for Poverty Action (IPA). Retrieved 2010-02-18.
  31. ^ Hawley, William A.; et al. (2003). "Community-Wide Effects of Permethrin-Treated Bed Nets on Child Mortality and Malaria Morbidity in Western Kenya" (PDF). The American Journal of Tropical Medicine and Hygiene. 68 (4 Suppl). American Journal of Tropical Medicine and Hygiene 68 (Suppl. 4): 121–7. doi:10.4269/ajtmh.2003.68.121. PMID 12749495. S2CID 7466730. Retrieved 2010-02-18.
  32. ^ Maxwell CA, Msuya E, Sudi M, Njunwa KJ, Carneiro IA, et al. (2002). "Effect of community-wide use of insecticide-treated nets for 3–4 years on malarial morbidity in Tanzania". Tropical Medicine and International Health. 7 (12): 1003–1008. doi:10.1046/j.1365-3156.2002.00966.x. PMID 12460390. S2CID 46105323.
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  34. ^ Not Available, Not Available; Not Available, Not Available; Not Available, Not Available; Not Available, Not Available (2001). "Plasmodium falciparum: in vitro growth inhibition by febrile temperatures". Parasitology Research. 87 (7): 553–555. doi:10.1007/s004360100374. PMID 11484852. S2CID 36069197.
  35. ^ Smith DL, McKenzie FE (2004). "Statics and dynamics of malaria infection in Anopheles mosquitoes". Malaria Journal. 3: 13. doi:10.1186/1475-2875-3-13. PMC 449722. PMID 15180900.
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  37. ^ K Atieli, Francis; al, et (2010). "The effect of repeated washing of long-lasting insecticide-treated nets (LLINs) on the feeding success and survival rates of Anopheles gambiae". Malaria Journal. 9: 304. doi:10.1186/1475-2875-9-304. PMC 2988039. PMID 21029477.
  38. ^ K Atieli, Francis; al, et (2010). "Wash durability and optimal drying regimen of four brands of long-lasting insecticide-treated nets after repeated washing under tropical conditions". Malaria Journal. 9: 48. doi:10.1186/1475-2875-9-248. PMC 2936406. PMID 20799996.
  39. ^ Erlanger; et al. (2004). "Field issues related to effectiveness of insecticide-treated nets in Tanzania". Med Vet Entomol. 18 (2): 153–160. doi:10.1111/j.0269-283X.2004.00491.x. PMID 15189240. S2CID 25603996.
  40. ^ Tami A; et al. (2004). "Evaluation of Olyset insecticide-treated nets distributed seven years previously in Tanzania". Malaria Journal. 3: 19. doi:10.1186/1475-2875-3-19. PMC 455684. PMID 15225349.
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  42. ^ Minakawa, Noboru . "Impacts of insecticide treated bed nets on Anopheles gambiae s.l. populations in Mbita district and Suba district, Western Kenya." Annals of Surgical and Innovation and Research 7 (2014): 2-13. Print.
  43. ^ Dolan, Carrie B.; BenYishay, Ariel; Grépin, Karen A.; Tanner, Jeffery C.; Kimmel, April D.; Wheeler, David C.; McCord, Gordon C. (2019-02-22). Carvalho, Luzia Helena (ed.). "The impact of an insecticide treated bednet campaign on all-cause child mortality: A geospatial impact evaluation from the Democratic Republic of Congo". PLOS ONE. 14 (2): e0212890. Bibcode:2019PLoSO..1412890D. doi:10.1371/journal.pone.0212890. ISSN 1932-6203. PMC 6386397. PMID 30794694.
  44. ^ Teklehaimanot, Awash. "Malaria and Poverty." Annals of New York Academy of Sciences 1136 (2008): 32-37. Print.
  45. ^ 31. ^Rivero-Rodriguez, L . "Exposure assessment for workers applying DDT to control malaria in Veracruz, Mexico.." Environmental Health Perspectives 1 (1997): 98-101. Print.
  46. ^ Jones, Benjamin L.; Unsworth, Richard K. F. (2020-07-01). "The perverse fisheries consequences of mosquito net malaria prophylaxis in East Africa". Ambio. 49 (7): 1257–1267. Bibcode:2020Ambio..49.1257J. doi:10.1007/s13280-019-01280-0. ISSN 1654-7209. PMC 7190679. PMID 31709492.
  47. ^ Parker-Pope, Tara (2010-07-12). "House Fans and Mosquitoes". Well. Retrieved 2023-02-25.
  48. ^ Pluess, Bianca. "Indoor residual spraying for preventing malaria." The Cochrane Library 1 (2010): n. pag. Wiley online library. Web. 21 Feb. 2014.
  49. ^ Chareonviriyaphap, Theeraphap . "Review of insecticide resistance and behavioral avoidance of vectors of human diseases in Thailand." BioMed Central 6 (2013): Web. 21 Feb. 2014.
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