Relevant bibliographies by topics / Worms – Intestinal and parasitic

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Worms – Intestinal and parasitic'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Worms – Intestinal and parasitic"

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Hall, Andrew. "Intestinal parasitic worms and the growth of children." Transactions of the Royal Society of Tropical Medicine and Hygiene 87, no. 3 (May 1993): 241–42. http://dx.doi.org/10.1016/0035-9203(93)90108-3.

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Wanmi DA, Chintem DGW, Mangbon TA, and Njilmah JA. "Gastro-intestinal parasites of Hyperopisus bebe occidentalis (gunther, 1866) in river Galma at Dakace Zaria." International Journal of Science and Technology Research Archive 1, no. 1 (July 30, 2021): 016–21. http://dx.doi.org/10.53771/ijstra.2021.1.1.0016.

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Parasitic disease is considered among the limiting factors in freshwater fish production. Fish is a cheaper source of animal protein available to the people thus, the need to control parasites that affect their productivity. Three hundred and twenty (320) Hyperopisus bebe occidentalis obtained from River Galma at Dakace, Zaria between August, 2016 and February, 2017 were examined for gastro-intestinal helminths using the formal-ether concentration techniques. Results obtained showed that 124 (38.8%) fish examined were infected by the acanthocephalan Rhadinorhynchus horridus and no other helminthes were recovered. The worms recovered were mainly from the small and large intestines, with the mid-intestine accounting for the greatest number of parasites with 90.74%. There was a general increase in infestation with increase in size of fish and there was no significant difference between the infections of male and female fish.
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SHINTOKU, Y., T. KADOSAKA, E. KIMURA, H. TAKAGI, S. KONDO, and M. ITOH. "Intestinal mast cells and eosinophils in relation to Strongyloides ratti adult expulsion from the small and large intestines of rats." Parasitology 140, no. 5 (January 25, 2013): 626–31. http://dx.doi.org/10.1017/s0031182012001837.

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SUMMARYMucosal mast cells (MMC) play a crucial role in the expulsion of Strongyloides ratti adults from the small intestine of mice. We reported the large intestinal parasitism of S. ratti in rats, and there has been no report on MMC in the large intestine of the natural host. We studied kinetics of MMC, together with eosinophils, in the upper and lower small intestines, caecum and colon of infected rats. Two distinct phases of mastocytosis were revealed: one in the upper small intestine triggered by stimulation of ‘ordinary’ adults, and the other in the colon stimulated by ‘immune-resistant’ adults that started parasitizing the colon around 19 days post-infection. In all 4 intestinal sites, the MMC peaks were observed 5–7 days after the number of adult worms became the maximum and the height of MMC peaks appeared to be dependent on the number of parasitic adults, suggesting an important role played by worms themselves in the MMC buildup.
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Ayu, Sherlina Rintik Tirta, Sri Haryati, Yulia Sari, and Sutartinah Handayani. "Relationship of Personal Hygiene and Nutritional Status to Intestinal Parasitic Infection in Simo, Boyolali." Journal of Biodiversity and Biotechnology 1, no. 1 (June 30, 2021): 38. http://dx.doi.org/10.20961/jbb.v1i1.50237.

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<p>Intestinal parasitic infections are caused by protozoa, STH and non-STH worms. Immunity, which can be determined by measuring nutritional status, and personal hygiene can affect the occurrence of intestinal parasite infections. This study aims to determine the relationship between personal hygiene and nutritional status against intestinal parasite infections in elementary school students in Simo Boyolali. This type of analytic observational research with a cross sectional approach. Total sampling was taken at elementary school of Wates, Talakbroto 1, and Kedunglengkong 1 Simo, Boyolali. There were 11 students with worms infections, 16 with protozoa infections, and 4 with worms and protozoa infection. There was a relationship between washing hands before eating (p = 0.004), after eating (0.027), after defecating (p = 0.04), biting nails (p = 0.008), wearing footwear when leaving the house (p = 0.008) , removing shoes while playing during school breaks (p = 0.001), and nutritional status (p = 0.002) with intestinal parasite infection. There was no relationship between nail clipping once a week (p = 0.118) and the availability of a latrine (p = 0.416) with intestinal parasitic infections. So, there is a relationship between personal hygiene (washing hands before eating, after eating, after defecating, biting nails, wearing footwear when leaving the house, removing shoes when playing during school breaks, and nutritional status) and intestinal parasitic infections.</p><p> </p><p>Keywords<strong>:</strong> elementary school; protozoa; worms.</p>
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MARUYAMA, H., M. EL-MALKY, T. KUMAGAI, and N. OHTA. "Secreted adhesion molecules of Strongyloides venezuelensis are produced by oesophageal glands and are components of the wall of tunnels constructed by adult worms in the host intestinal mucosa." Parasitology 126, no. 2 (February 2003): 165–71. http://dx.doi.org/10.1017/s0031182002002718.

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The parasitic female of Strongyloides venezuelensis keeps invading the epithelial layer of the host intestinal mucosa. Upon invasion, it adheres to the surface of the intestinal epithelial cells with adhesion molecules secreted from the mouth. It has been demonstrated that S. venezuelensis are expelled from the intestine because mucosal mast cells inhibit the attachment of adult worms to the mucosal surface. In the present study, we generated specific antibodies against secreted adhesion molecules to investigate their function in vivo, because these molecules have been demonstrated only in vitro in spite of the importance in the infection processes. A mouse monoclonal antibody specific to S. venezuelensis adhesion molecules inhibited the attachment of adult worms to plastic dishes and the binding of adhesion molecules to rat intestinal epithelial cells. Immunohistochemical study revealed that adhesion molecules were produced by oesophageal glands and were continuously secreted in vivo to line the wall of the tunnels formed by adult worms in the intestinal mucosa. Our findings indicate that adhesion molecules play essential roles in the infection processes of S. venezuelensis in the host intestine.
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Saputra, Hari Marta, and Mahesha Rama Dwi Putra. "JENIS-JENIS PARASIT INTERNAL PADA FESES KAMBING (Capra sp.) DI PASAR KAMBING KOTA BENGKULU." Konservasi Hayati 15, no. 2 (October 10, 2019): 18–25. http://dx.doi.org/10.33369/hayati.v1i2.10949.

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Parasitic diseases that are often a problem in livestock but are often ignored by farmers are intestinal worms caused by gastrointestinal worms. This study aims to determine the types of internal parasites in goat feces (Capra sp.). The study was conducted in July- August 2018 at the UPTD Laboratory and Animal Health Clinic in Bengkulu Province. Samples were taken from Bengkulu City Goat Market, then observed using native and sedimentation methods. The results of observing samples from three types of goat feces with negative methods obtained negative results, while observing samples by sedimentation method obtained six genus of worm eggs, specifically Ascaris sp., Ostertagia sp., Oesophagostomum sp., Strongyloides sp., Schistosoma sp., dan Skrjabinema sp.
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Brosschot, T. P., K. M. Lawrence, M. H. Kennedy, R. D. FitzPatrick, B. E. Moeller, J. Han, C. Borchers, and L. A. Reynolds. "A49 CO-INFECTION WITH PARASITIC WORMS ENHANCES THE ABILITY OF SALMONELLA TO COLONIZE THE GUT LUMEN AND DEWORMING RESTORES COLONIZATION RESISTANCE TO SALMONELLA." Journal of the Canadian Association of Gastroenterology 3, Supplement_1 (February 2020): 58–59. http://dx.doi.org/10.1093/jcag/gwz047.048.

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Abstract Background Chronic infections with intestinal helminths occur primarily in world regions where infections with bacterial pathogens are also common. Research so far has shown that helminths can promote bacterial infection, however, the precise mechanisms of this are unknown. Current helminth control strategies involve mass deworming programs, and it is as yet unclear how deworming impacts susceptibility to bacterial infections in helminth-affected areas. Aims Our aims were to decipher the mechanistic details by which helminths can promote intestinal bacterial infection, and to determine how deworming affects susceptibility to intestinal colonization by bacterial pathogens. Methods Using a mouse model of enteric helminth-bacterial coinfection, we examined how the small intestinal helminth Heligmosomoides polygyrus promotes intestinal colonization by Salmonella enterica serovar Typhimurim. To study the effect of deworming of concurrent Salmonella infection, we treated our helminth-infected mice with the anthelmintic drug Strongid P both before and after Salmonella (co-) infection. To examine whether heightened Salmonella colonization during helminth infection depended on the ability of Salmonella to invade host tissue, we compared the ability of wild-type Salmonella or an invasion-deficient mutant (ΔinvA) to colonize during helminth co-infection. Results An ongoing helminth infection resulted in high levels of Salmonella in the small intestine after co-infection, however, when mice were dewormed prior to Salmonella co-infection, they were no longer susceptible to high small intestinal Salmonella burdens. In contrast, when helminth-infected mice are dewormed after Salmonella has already co-colonized, high Salmonella burdens persisted in the small intestine. Further, we found that during helminth co-infection, Salmonella primarily expands in the gut lumen rather than in the small intestinal tissue, and in line with this, a Salmonella invasion mutant was able to colonize the intestine to a similar extent to wild-type Salmonella during helminth infection. Conclusions Deworming experiments have revealed that the effects of H. polygyrus on promoting Salmonella colonization in the small intestines depend on the ongoing presence of the helminth. Deworming did not revert bacterial burdens once Salmonella had colonized, suggesting that an ongoing helminth infection reduces colonization resistance to Salmonella infection but was not required for Salmonella to persist after initial colonization by Salmonella. Further, we discovered that Salmonella expansion during helminth infection is independent of bacterial invasion of host tissue. Funding Agencies CIHR
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Morimoto, N., M. Korenaga, K. Yagyu, N. Kagei, M. Fujieda, O. Bain, H. Wakiguchi, Y. Hashiguchi, and T. Sugiura. "Morphological observations and the effects of artificial digestive fluids on the survival of Diploscapter coronata from a Japanese patient." Journal of Helminthology 80, no. 4 (December 2006): 341–48. http://dx.doi.org/10.1017/joh2006361.

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AbstractUnusual non-human parasitic nematodes and eggs were detected in the faeces of an 8-year-old Japanese female suffering from Henoch-Schönlein purpura. The worms were adult female rhabditiform nematodes measuring 325.6–441.2 μm in length and 18.3–26.5 μm in width. One pair of the labia oris was notched with many spiny projections, while the other pair was strongly curved outwards. The worms were identified using light and scanning electron microscopy as the free-living nematode Diploscapter coronata (Cobb) based on their characteristic morphology. The patient's faeces containing worms and eggs were cultured using a filter-paper culture technique and after 7 days of culture, male as well as female worms were recovered. Worm survival time and hatchability of the eggs were examined in vitro after treatment with an artificial gastric or intestinal fluid. Although adult worms survived for less than one minute, eggs hatched after treatment with artificial gastric fluid. This suggests that eggs accidentally ingested or produced by adult D. coronata could develop in the human gastro-intestinal tract. Some morphological features of male D. coronata are also described.
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Herbert, De'Broski R., Jun-Qi Yang, Simon P. Hogan, Kathryn Groschwitz, Marat Khodoun, Ariel Munitz, Tatyana Orekov, et al. "Intestinal epithelial cell secretion of RELM-β protects against gastrointestinal worm infection." Journal of Experimental Medicine 206, no. 13 (December 7, 2009): 2947–57. http://dx.doi.org/10.1084/jem.20091268.

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Th2 cells drive protective immunity against most parasitic helminths, but few mechanisms have been demonstrated that facilitate pathogen clearance. We show that IL-4 and IL-13 protect against intestinal lumen-dwelling worms primarily by inducing intestinal epithelial cells (IECs) to differentiate into goblet cells that secrete resistin-like molecule (RELM) β. RELM-β is essential for normal spontaneous expulsion and IL-4–induced expulsion of Nippostrongylus brasiliensis and Heligmosomoides polygyrus, which both live in the intestinal lumen, but it does not contribute to immunity against Trichinella spiralis, which lives within IEC. RELM-β is nontoxic for H. polygyrus in vitro but directly inhibits the ability of worms to feed on host tissues during infection. This decreases H. polygyrus adenosine triphosphate content and fecundity. Importantly, RELM-β–driven immunity does not require T or B cells, alternative macrophage activation, or increased gut permeability. Thus, we demonstrate a novel mechanism for host protection at the mucosal interface that explains how stimulation of epithelial cells by IL-4 and IL-13 contributes to protection against parasitic helminthes that dwell in the intestinal lumen.
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Kovaleva, O. V., and L. A. Lityaeva. "Features of the intestinal microbiota in children with intestinal parasitosis." CHILDREN INFECTIONS 20, no. 2 (July 8, 2021): 44–48. http://dx.doi.org/10.22627/2072-8107-2021-20-2-44-48.

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The aim of the research is to study the features of the intestinal microbiota in children with parasitic invasions.Clinical and microbiological examination of 40 children aged from 9 months to 1 0 years with functional disorders of the intestine was carried out, in 20 of whom intestinal parasitoses were detected (15 of them — ascariasis, 5 — intestinal lambliosis) — the main group. The comparison group consisted of 20 other children with functional disorders of the intestine without intestinal parasitosis.All children underwent: assessment of the course of the ante-neonatal periods, the nature of feeding and clinical symptoms of intestinal parasitosis; triple study of feces for eggs of worms and protozoa in the enrichment environment of Turdyev, coprocytogram, biochemical analysis of feces, ultrasound of internal organs. To identify the quantitative content of the main groups of normobiota, species composition and spectrum of opportunistic bacteria and viruses, the method of gas chromatography-mass spectrometry of intestinal microbial markers was used.It was found that in children with intestinal parasitosis, already at the prenatal stage of the formation of the intestinal microbiota, risk factors were recorded that negatively affect the composition of the forming microbiota, associated with functional disorders of the digestive tract from the first days of life.The degree of deficiency of normobiota, as well as the spectrum of opportunistic bacteria in children with parasitic invasions, was greater: 14 types of bacteria in combination with herpes viruses versus 9 in the comparison group. Association Clostridium spp. — Herpes virus against the background of a deficiency of bifidobacteria and lactobacilli acts as a dominant association in the relationship with intestinal parasitosis.
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Dissertations / Theses on the topic "Worms – Intestinal and parasitic"

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Dougan, P. M. "Molecular studies on platyhelminth neuropeptides." Thesis, Queen's University Belfast, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.391110.

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Hazelby, Carol Ann. "The control of gastro-intestinal nematodes of sheep using a computer-based advisory system." Thesis, Bangor University, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.263597.

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Gates, Heather Anne Taviner. "The development and hatching of the eggs of Aspiculuris tetraptera (Nematoda: Oxyurida)." Thesis, University of Edinburgh, 1987. http://hdl.handle.net/1842/16992.

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Russell, Wayne Shaun. "The biological significance of AChE secretion by Nippostrongylus brasiliensis." Thesis, Imperial College London, 1999. http://hdl.handle.net/10044/1/8465.

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Horan, G. H. "The microturbellarian Macrostomum ligano as a model for the study of parasitic worms." Thesis, Queen's University Belfast, 2014. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.676520.

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Parasitic platyhelminths are a major burden on humanity through their direct impacts on human health and the huge economic losses they cause, predominantly by undermining agricultural productivity and associated anti-parasite treatments. Previous studies on helminth parasites have highlighted the potential of the neuropeptide signalling system as a source of novel parasite control targets. The use of model organisms is preferable when the target organism is prohibitively difficult or unethical to study directly. The free living microturbellarian Macrostomum lignano is an ideal candidate for the study of parasitic flatworms due to its ease of culture, small size, availability of genomic and transcriptomic datasets and its basal phylogenetic position within the phylum Platyhelminthes. Firstly, this project mapped the distribution of four novel neuropeptides identified from the M. Iignano genome and uses RNA interference (RNAi) on one of those associated neuropeptide genes in an attempt to knockdown the associated transcript and delineate function. Subsequently, the expression of these neuropeptides was examined in selected parasitic flatworms. Despite being successful in the treatment of various parasitic flatworms of animals and humans, the mechanism of action of the anthelmintic praziquantel (PZQ) remains open to debate, hampering efforts to identify mechanisms of resistance and the design of novel drugs which could emulate its effects in parasitic flatworms. The mechanism of action of PZQ was investigated in M. lignano by first determining if the worm was PZQ sensitive. Next the genome was screened for the presence of voltage operated calcium channel (VOCC) β subunit genes (one of the proposed targets of PZQ) which was subsequently silenced using RNA interference to determine if it had a role in PZQ sensitivity in M. lignano. A role for these VOCCs in PZQ action in M. lignano was confirmed using RNAi.
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Currie, Rachel MacLeod. "Immunoepidemiology of Trichuris trichiura T. muris and Ascaris lumbricoides infections." Thesis, University of Oxford, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.299976.

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Johnson, Deborah Anne. "Coproantigen capture ELISA for the detection of intestinal nematode infections." Thesis, University of Nottingham, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.310926.

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Tuohy, Maura B. "Genetic control and cytokine regulation of inflammatory responses to intestinal parasitic infections." Thesis, University of Nottingham, 1992. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.334501.

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Angus, K. W. "Observations on the pathology of some gastro-intestinal parasitic infections of sheep." Thesis, University of Glasgow, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.374506.

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Gianotti, Alan Joseph. "Intestinal granules found in the parasitic nematodes Ancylostoma caninum, and Oesophagostomum radiatum." PDXScholar, 1988. https://pdxscholar.library.pdx.edu/open_access_etds/3862.

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The parasitic nematodes Ancylostoma caninum and Oesophagostomum radiatum were collected and analyzed for intestinal inorganic granules. Three means of identification were utilized to determine the composition granules, including birefringence, x-ray diffraction and energy dispersive spectrometric (EDS) analysis. Initial x-ray diffraction results of the two worms showed a calcium sulfide presence within the worms. Closer examination of the granules within Ancylostoma caninum however, utilizing EDS analysis revealed their composition to be zinc sulfide. These results concur with those of Rogers (1940) and Clark (1956) who found zinc sulfide granules in several species of Strongylus. The ZnS granules seem to be a result of a detoxification function that binds excess zinc and sulfhydryl groups present from the ingestion and breakdown of dietary blood meals.
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Books on the topic "Worms – Intestinal and parasitic"

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Arlene, Jones, ed. Parasitic worms of fish. London: Taylor & Francis, 1994.

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Williams, H. Harford. Parasitic worms of fish. Bristol, PA: Taylor & Francis, 1994.

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Williams, Harford. Parasitic worms of fish. London: Taylor& Francis, 1994.

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Souza, Ricardo M. Plant-Parasitic Nematodes of Coffee. Dordrecht: Springer Science+Business Media B.V., 2008.

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Alvarez-Pellitero, P. Mucosal intestinal immunity and response to parasite infections in ectothermic vertebrates. New York: Nova Science Publishers, 2011.

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1913-, Brooke Marion Murphy, and Centers for Disease Control (U.S.). Laboratory Training and Consultation Division., eds. Laboratory procedures for the diagnosis of intestinal parasites. 3rd ed. Atlanta, GA: U.S. DHHS, PHS, Centers for Disease Control, Laboratory Improvement Program Office, Laboratory Training and Consultation Division, 1985.

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L, Price Donald. Procedure manual for the diagnosis of intestinal parasites. Boca Raton: CRC Press, 1994.

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Miguel, Edward. Worms: Education and health externalities in Kenya. Cambridge, MA: National Bureau of Economic Research, 2001.

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Condie, Alison. An investigation of intestinal parasitic infection and haemoglobin levels of children in a Bir Zeit school. Bir Zeit, West Bank: Birzeit University, Community Health Unit, 1986.

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Parker, James N., and Philip M. Parker. The official patient's sourcebook on fasciolopsiasis. San Diego, Calif: Icon Health Publications, 2002.

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Book chapters on the topic "Worms – Intestinal and parasitic"

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Kwa, Boo H. "Intestinal Worms: Parasite Mysteries in Wintry Climes." In The Parasite Chronicles, 89–104. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-74923-5_8.

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Fernando, M. A., and John R. Barta. "Tracheal Worms." In Parasitic Diseases of Wild Birds, 343–54. Oxford, UK: Wiley-Blackwell, 2009. http://dx.doi.org/10.1002/9780813804620.ch19.

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Vega-López, F., and R. J. Hay. "Parasitic Worms and Protozoa." In Rook's Textbook of Dermatology, 1–44. Oxford, UK: Wiley-Blackwell, 2010. http://dx.doi.org/10.1002/9781444317633.ch37.

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Kreier, J. P., and J. R. Baker. "Gregarines, hemogregarines, and intestinal coccidia." In Parasitic Protozoa, 123–58. Dordrecht: Springer Netherlands, 1987. http://dx.doi.org/10.1007/978-94-011-6847-2_6.

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Lorimer, Jamie. "Living well with parasitic worms." In Global Health and Geographical Imaginaries, 94–113. New York : Routledge, 2017. | Series: Routledge studies in public health: Routledge, 2017. http://dx.doi.org/10.4324/9781315723525-6.

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Botero, David. "Nematode Infections of Man: Intestinal Infections." In Chemotherapy of Parasitic Diseases, 267–76. Boston, MA: Springer US, 1986. http://dx.doi.org/10.1007/978-1-4684-1233-8_12.

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Robertson, Alan P., Samuel K. Buxton, Sreekanth Puttachary, Sally M. Williamson, Adrian J. Wolstenholme, Cedric Neveu, Jacques Cabaret, Claude L. Charvet, and Richard J. Martin. "Antinematodal Drugs - Modes of Action and Resistance: And Worms Will Not Come to Thee (Shakespeare: Cymbeline: IV, ii)." In Parasitic Helminths, 233–49. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2012. http://dx.doi.org/10.1002/9783527652969.ch14.

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Cook, G. C. "Some Small-Intestinal and Biliary Parasites." In Parasitic Disease in Clinical Practice, 49–75. London: Springer London, 1990. http://dx.doi.org/10.1007/978-1-4471-1769-8_3.

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Deeba, Samer. "Surgical Treatment of Intestinal Cestodes." In The Surgical Management of Parasitic Diseases, 65–76. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-47948-0_4.

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Lamps, Laura W. "Intestinal Flagellates." In Surgical Pathology of the Gastrointestinal System: Bacterial, Fungal, Viral, and Parasitic Infections, 177–82. New York, NY: Springer US, 2009. http://dx.doi.org/10.1007/978-1-4419-0861-2_29.

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Conference papers on the topic "Worms – Intestinal and parasitic"

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Parsons, Kevin D., Timothy Kassis, and J. Brandon Dixon. "Design of an In Vitro Migration Chamber for Quantifying the Homing Patterns of Parasitic Worms." In ASME 2012 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/sbc2012-80711.

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Lymphatic filariasis, a parasitic disease often resulting in severe lymphatic dysfunction and lymphedema, is perpetuated by an invasion of worms, delivered through mosquito bites, that reside, mature, and reproduce in the human lymphatic system. The disease cycle begins with stage 3 larvae (L3) leaving the mosquito and penetrating the dermal layer of the human while the mosquito is feeding where it eventually makes its way to a collecting lymphatic vessel where it resides for its adult life (up to 10 years) [1]. While many infected individuals will remain asymptomatic, a subset of patients will develop reconstruction of the tissue structure and the extreme swelling of the arms, legs, genitals and/or breasts. This elephantiasis occurs in over 10 million people worldwide and has a harsh negative effect on the infected individual’s ability to work and function in society.
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Tallib, Anita, Adibah Hanum Sahari, and Nazar Mohd Zabadi B. Mohd Azahar. "Prevalence of Intestinal Parasitic Infections among Aborigine Children in Kampung Ulu Gerik, Perak." In International Conference on Multidisciplinary Research. SCITEPRESS - Science and Technology Publications, 2018. http://dx.doi.org/10.5220/0008882400970102.

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"Investigation and Prevention of Intestinal Parasitic Infection in Children in Kindergarten in Baoshan City." In 2018 International Conference on Medicine, Biology, Materials and Manufacturing. Francis Academic Press, 2018. http://dx.doi.org/10.25236/icmbmm.2018.10.

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Megawati, E. R., D. M. Darlan, L. D. Lubis, and M. F. Rozi. "The prevalence of intestinal parasitic infections (IPIs) among school-aged children in urban area." In INTERNATIONAL CONFERENCE ON BIOINFORMATICS AND NANO-MEDICINE FROM NATURAL RESOURCES FOR BIOMEDICAL RESEARCH: 3rd Annual Scientific Meeting for Biomedical Sciences. AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5110013.

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Latifah, Umi, Supargiyono, Yanri Wijayanti Subronto, and Linda Septiani. "The relationship between intestinal parasitic infection and CD4+ level among HIV patients in DR. Sardjito Central Hospital, Yogyakarta." In PROCEEDINGS OF THE 3RD INTERNATIONAL SEMINAR ON METALLURGY AND MATERIALS (ISMM2019): Exploring New Innovation in Metallurgy and Materials. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0002970.

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"Intestinal Parasitic Infections in Relation to Diarrhea and CD4 T-cell Count among Saudi Patients with Chronic Renal Insufficiency." In International Conference on Agricultural, Ecological and Medical Sciences. International Institute of Chemical, Biological & Environmental Engineering, 2015. http://dx.doi.org/10.15242/iicbe.c0415042.

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Hüseynəli oğlu Rzayev, Fuad, and Eldar Köçəri oğlu Qasımov. "A systematic review of the parasites (Acanthocephala) of the domestic waterfowl." In I İNTERNATİONAL SCIENTIFIC CONFERENCE ON "FUNDAMENTALS OF MEDICAL SCIENCE". http://aem.az/, 2021. http://dx.doi.org/10.36719/2707-1146/2021/1/1.

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Abstract:
The article presents the information about a systematic review of parasitic worms – acanthocephalans of the domestic waterfowl. Based on our own and literature data, 12 acanthocephala species belonging to the 1 order, 1 family and 5 genera were identified in domestic ducks (Anas platyrhynchos dom.) and geese (Anser anser dom.). Three species of worms are found in domestic waterfowl in Azerbaijan. The acanthocephala Polymorphus magnus have been reported for the first time in Azerbaijan – Khachmaz region in both birds. Six species of acanthocephals parasitize only in anseriformes, and the remaining six species parasitize including other orders of birds (Ciconiiformes, Gruiformes, Galliformes, Podicipediformes, Gaviiformes, Falconiformes, Charadriiformes et al.) and even mammals (Rodentia, Carnivora). Of the registered acanthocephals, 3 species have a small area of distribution, and the remaining 9 species have a wide area. Each species is provided with the following data: scientific name, authority and year, synonyms, final, intermediate and auxiliary hosts, habitat in the bird body, collecting localities and geographic distribution, prevalence (PI) and intensity (II) of infection, literature sources. Keywords: geese, duck, acanthocephala, systematic review, area, hosts
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Kusumawati, Siti, siti Siti Kusumawati, and Moh Moh. Ichsan Sudjarno. "The Effect Of Soil contamination By Ascaris Lumbricoides Worm Eggs on The Incidence Of Intestinal Worms in RT 02 RW 05 In Herga Manah Village, East Cikarang, Bekasi West Jawa, Indonesia 2016." In Proceedings of the 5th International Conference on Health Sciences (ICHS 2018). Paris, France: Atlantis Press, 2019. http://dx.doi.org/10.2991/ichs-18.2019.35.

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Reports on the topic "Worms – Intestinal and parasitic"

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Gianotti, Alan. Intestinal granules found in the parasitic nematodes Ancylostoma caninum, and Oesophagostomum radiatum. Portland State University Library, January 2000. http://dx.doi.org/10.15760/etd.5746.

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