Hookworms are intestinal, blood-feeding, parasitic roundworms that cause types of infection known as helminthiases. Hookworm infection is found in many parts of the world,[1] and is common in areas with poor access to adequate water, sanitation, and hygiene. In humans, infections are caused by two main species of roundworm, belonging to the genera Ancylostoma and Necator. In other animals the main parasites are species of Ancylostoma. Hookworm is closely associated with poverty because it is most often found in impoverished areas, and its symptoms promote poverty through the educational and health effects it has on children.[2] It is the leading cause of anemia and undernutrition in developing countries, while being one of the most commonly occurring diseases among poor people. Hookworm thrives in areas where rainfall is sufficient and keeps the soil from drying out, and where temperatures are higher, making rural, coastal areas prime conditions for the parasite to breed.
Species
editThe two most common types of hookworm that infect humans are Ancylostoma duodenale and Necator americanus.[citation needed]
Hookworm species that are known to infect domestic cats are Ancylostoma braziliense and Ancylostoma tubaeforme. Wild cats are infected by Ancylostoma pluridentatum.[3]
Dogs are commonly infected by Ancylostoma caninum, but may also be infected by Uncinaria stenocephala and Ancylostoma braziliense.[citation needed]
In Asia, Ancylostoma ceylanicum is endemic among dogs and cats and infects humans.[4]
Cattle are infected by Bunostomum phlebotomum.[1]
At least 68 species have been described in wild mammals.[5]
Characteristics
editThe two species that commonly infect humans have a similar morphology. A. duodenale worms are pale grey or slightly pink. The head is bent a little in relation to the rest of the body, forming a hook shape – hence the name. The hook is at the front end of the body. They have well-developed mouths with two pairs of teeth. Males measure approximately 10 by 0.5 mm, and females are often longer and stouter. Males also have a prominent copulatory bursa posteriorly.[6]
N. americanus is generally smaller than A. duodenale, with males usually being 5 to 9 mm long and females about 10 mm long. Instead of the two pairs of teeth in A. duodenale, N. americanus has a pair of cutting plates in the buccal capsule. Also, the hook is much more defined in Necator americanus.[6]
Life cycle
editThe host is infected by the larvae, not by the eggs, and the usual route is through the skin. Hookworm larvae need warm, moist soil, above 18 °C, in order to hatch. They will die if exposed to direct sunlight or if they become dried out. Necator larvae can survive at higher temperatures than Ancylostoma larvae. [citation needed]
First-stage larvae (L1) are non-infective, and once hatched in the deposited feces, they feed on that, and then feed on soil microorganisms until they moult into second stage larvae (L2).[7] First- and second-stage larvae are in the rhabditiform stage. After feeding for seven days or so they will moult into third-stage larvae (L3) known as the filariform stage, which is the non-feeding, infective stage. Filariform larvae can survive for up to two weeks. They are extremely motile and will move onto higher ground to improve their chances of finding a host.[citation needed]
Necator americanus larvae can only infect through penetrating skin, but A. duodenale can also infect orally. A common route of passage for the larvae is the skin of barefoot walkers. Once the larvae have entered the host they travel in the circulatory system to the lungs where they leave the venules and enter the alveoli. They then travel up the trachea and are coughed up, swallowed and end up in the small intestine. In the small intestine, the larvae moult into stage four (L4) the adult worm. It takes from five to nine weeks from penetration to maturity in the intestine.[8][9]
Necator americanus can cause a prolonged infection lasting from one to five years with many worms dying in the first year or two. Some worms though have been recorded as living for fifteen years or more. In comparison, Ancylostoma duodenale worms are short-lived lasting for around six months. However, larvae can remain dormant in tissue stores and be recruited over many years to replace the worms that die.
The worms mate inside the host, in which the females also lay their eggs, to be passed out in the host's feces into the environment to start the cycle again. N. americanus can lay between nine and ten thousand eggs per day, and A. duodenale between twenty-five and thirty thousand per day. The eggs of the two species are indistinguishable.
Worms need five to seven weeks to reach maturity and symptoms of infection can therefore appear before eggs are to be found in the feces, making the diagnosis of hookworm infection difficult.
Diagnosis
editSigns and symptoms of hookworm infection vary by host and hookworm species. In humans, the first sign of infection is itching and skin rash. Humans with light infections may show no symptoms, but humans with heavy infections may have abdominal pain, diarrhea, loss of appetite, weight loss, fatigue and anemia. Children's physical and cognitive growth may be affected.[10][11][12]
Dogs and cats may experience dermatitis, enteritis, and intestinal blood loss. Dogs may additionally experience anemia, hemorrhagic diarrhea, anorexia and dehydration.[1]
Cattle may experience skin lesions, anemia, and rapid weight loss.[1]
Diagnosis for many forms of hookworm infections is confirmed through fecal analysis to identify hookworm eggs.[10] In animals, fecal floatation is used to detect hookworm eggs.[1]
Treatment
editTreatment for hookworm infections depends on the species of hookworm and the species of the infected host. In humans, treatment is by anthelminthic medications, such as albendazole and mebendazole.[13] Treatment in animals can be done with a variety of anthelminthics.[1] A high-protein diet, supplemental iron, or a blood transfusion may also be necessary.[1] Levamisole and pyrantel pamoate are also used to treat hookworm anemia and hookworm disease.
Prevention
editHookworms get into the intestines and eat the best food, leaving the human listless. It was endemic in the poorest areas of the South, where they called it the "germ of laziness." Humans can avoid hookworm infections by avoiding skin-to-soil contact, especially walking barefoot in areas where people often defecate. It can be treated and if everyone is treated the hookworms all are gone. Additionally, infection can be controlled by and using outhouses. Large training efforts funded by the Rockefeller Foundation showed state health departments how to eradicate the disease in the South during the 1910s.[11][14]
Hookworm in the United States
editWhile thought to be eradicated around the 1960s, hookworm can still be found in certain areas in the United States. Lowndes County, Alabama was a subject of various studies on the prevalence and transmission of hookworm as it relates to sanitation issues that the county experienced. Catherine Coleman Flowers is the figure most closely associated with these studies and efforts to raise awareness of the sanitation problems that face Lowndes. Being one of the poorest counties in the United States with 31.4% of people living below the poverty line,[15] one of the major sanitation issues facing the county is that many residents do not have an adequate sewage system. The study led by The Baylor College of Medicine noted that roughly three-fourths of the study participants had reported raw sewage flowing back into their homes, increasing the likelihood of their home becoming contaminated. [16] The study in Lowndes had a small sample size of 55 subjects, from 24 households. The results from the screening of Hookworm found that over one-third, 19 out of 55 people testing positive, demonstrating a stronger correlation to poverty than to the tropics. [17] An important organization involved is The Alabama Center for Rural Enterprise (ACRE), which works to address poverty and economic development, and has stated that there continues to be a lack of adequate sewage systems, and this increases exposure to open sewage. [15] Surveys conducted before the testing reported that the subjects had not traveled abroad, making the infection site Alabama.
References
edit- ^ a b c d e f g "Zoonotic Hookworms" (PDF). cfsph.iastate.edu. Iowa State University. November 2013. Archived (PDF) from the original on February 29, 2020. Retrieved January 23, 2021.
- ^ Hotez, Peter (2008). "Hookworm and Poverty". Annals of the New York Academy of Sciences. 1136: 38–44. doi:10.1196/annals.1425.000. PMID 17954674.
- ^ Timmins, Lawrence (May 28, 2023). "Hookworm In Domestic Cats". Pet Ploy. Archived from the original on June 10, 2023. Retrieved June 9, 2023.
- ^ Traub, Rebecca J. (2013). "Ancylostoma ceylanicum, a re-emerging but neglected parasitic zoonosis". Int J Parasitol. 43 (12–13): 1009–1015. doi:10.1016/j.ijpara.2013.07.006. PMID 23968813.
- ^ Seguel, M.; Gottdenker, N. (2017). "The diversity and impact of hookworm infections in wildlife". Int J Parasitol Parasites Wildl. 6 (3): 177–194. doi:10.1016/j.ijppaw.2017.03.007. PMC 5526439. PMID 28765810.
- ^ a b Markell, Edward K.; John, David C.; Petri, William H. (2006). Markell and Voge's medical parasitology (9th ed.). St. Louis, MO: Elsevier Saunders. ISBN 978-0-7216-4793-7.
- ^ "Ancylostoma duodenale". Animal Diversity Web.
- ^ Hotez, PJ; Bethony, J; Bottazzi, ME; Brooker, S; Buss, P (March 2005). "Hookworm: "the great infection of mankind"". PLOS Medicine. 2 (3): e67. doi:10.1371/journal.pmed.0020067. PMC 1069663. PMID 15783256.
- ^ "CDC Factsheet: Hookworm". Archived from the original on September 4, 2010.
- ^ a b "CDC - Hookworm - Frequently Asked Questions (FAQs)". cdc.gov. Centers for Disease Control and Prevention. 17 September 2020. Archived from the original on December 21, 2020. Retrieved January 23, 2021.
- ^ a b Bleakley, Hoyt (2007). "Disease and Development: Evidence from Hookworm Eradication in the American South". The Quarterly Journal of Economics. 122 (1): 73–117. doi:10.1162/qjec.121.1.73. ISSN 0033-5533. PMC 3800113. PMID 24146438.
- ^ Dickson, Rumona; Awasthi, Shally; Williamson, Paula; Demellweek, Colin; Garner, Paul (June 24, 2000). "Effects of treatment for intestinal helminth infection on growth and cognitive performance in children: systematic review of randomised trials". BMJ: British Medical Journal. 320 (7251): 1697–1701. doi:10.1136/bmj.320.7251.1697. ISSN 0959-8138. PMC 27412. PMID 10864543.
- ^ "CDC - Hookworm - Treatment". cdc.gov. Centers for Disease Control and Prevention. 17 April 2019. Archived from the original on November 26, 2020. Retrieved January 23, 2021.
- ^ John Ettling, The Germ of Laziness: Rockefeller Philanthropy and Public Health in the New South (Harvard UP, 1981).
- ^ a b Mckenna, Megan L.; McAtee, Shannon; Bryan, Patricia E.; Jeun, Rebecca; Ward, Tabitha; Kraus, Jacob; Bottazzi, Maria E.; Hotez, Peter J.; Flowers, Catherine C.; Mejia, Rojelio (2017). "Human Intestinal Parasite Burden and Poor Sanitation in Rural Alabama". The American Journal of Tropical Medicine and Hygiene. 97 (5): 1623–1628. doi:10.4269/ajtmh.17-0396. PMC 5817782. PMID 29016326.
- ^ Whitehead, Nadia. "The U.S. Thought It Was Rid Of Hookworm. Wrong". NPR.
- ^ Sanders, John W.; Goraleski, Karen A. "The Hookworm Blues: We Still Got 'em". PMC 5817787.
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Further reading
edit- Birn, Anne-Emanuelle. "Public health or public menace? The Rockefeller Foundation and public health in Mexico, 1920-1950" Voluntas: International Journal of Voluntary and Nonprofit Organizations 7#1 (March 1996), pp. 35-56 online, focus on hookworm campaign.
- Ettling, John. The Germ of Laziness: Rockefeller Philanthropy and Public Health in the New South (Harvard UP, 1981)