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Parasites & Vectors Nov 2020Parasitic infections can cause many respiratory, digestive and other diseases and contribute to some performance conditions in equids. However, knowledge on the... (Review)
Review
Parasitic infections can cause many respiratory, digestive and other diseases and contribute to some performance conditions in equids. However, knowledge on the biodiversity of parasites of equids in Iran is still limited. The present review covers all the information about parasitic diseases of horses, donkeys, mules and wild asses in Iran published as articles in Iranian and international journals, dissertations and congress papers from 1931 to July 2020. Parasites so far described in Iranian equids include species of 9 genera of the Protozoa (Trypanosoma, Giardia, Eimeria, Klossiella, Cryptosporidium, Toxoplasma, Neospora, Theileria and Babesia), 50 helminth species from the digestive system (i.e., 2 trematodes, 3 cestodes and 37 nematodes) and from other organs (i.e., Schistosoma turkestanica, Echinococcus granulosus, Dictyocaulus arnfieldi, Parafilaria multipapillosa, Setaria equina and 3 Onchocerca spp.). Furthermore, 16 species of hard ticks, 3 mite species causing mange, 2 lice species, and larvae of 4 Gastrophilus species and Hippobosca equina have been reported from equids in Iran. Archeoparasitological findings in coprolites of equids include Fasciola hepatica, Oxyuris equi, Anoplocephala spp. and intestinal strongyles. Parasitic diseases are important issues in terms of animal welfare, economics and public health; however, parasites and parasitic diseases of equines have not received adequate attention compared with ruminants and camels in Iran. The present review highlights the knowledge gaps related to equines about the presence, species, genotypes and subtypes of Neospora hughesi, Sarcocystis spp., Trichinella spp., Cryptosporidium spp., Giardia duodenalis, Blastocystis and microsporidia. Identification of ticks vectoring pathogenic parasites, bacteria and viruses has received little attention, too. The efficacy of common horse wormers also needs to be evaluated systematically.
Topics: Animals; Cestode Infections; Cryptosporidiosis; Equidae; Feces; Helminthiasis, Animal; Horse Diseases; Horses; Iran; Parasitic Diseases, Animal
PubMed: 33213507
DOI: 10.1186/s13071-020-04472-w -
Parasitology Dec 2022The myxozoan was described from hatchery rainbow trout over 70 years ago. The parasite continues to cause severe disease in salmon and trout, and is recognized as a... (Review)
Review
The myxozoan was described from hatchery rainbow trout over 70 years ago. The parasite continues to cause severe disease in salmon and trout, and is recognized as a barrier to salmon recovery in some rivers. This review incorporates changes in our knowledge of the parasite's life cycle, taxonomy and biology and examines how this information has expanded our understanding of the interactions between and its salmonid and annelid hosts, and how overarching environmental factors affect this host–parasite system. Development of molecular diagnostic techniques has allowed discrimination of differences in parasite genotypes, which have differing host affinities, and enabled the measurement of the spatio-temporal abundance of these different genotypes. Establishment of the life cycle in the laboratory has enabled studies on host–parasite interactions and the availability of transcriptomic data has informed our understanding of parasite virulence factors and host defences. Together, these advances have informed the development of models and management actions to mitigate disease.
Topics: Animals; Parasites; Cnidaria; Parasitic Diseases, Animal; Fish Diseases; Myxozoa; Oncorhynchus mykiss
PubMed: 36081219
DOI: 10.1017/S0031182022001275 -
International Journal of Molecular... Jun 2024Parasites are very widely distributed in the environment and form complex relationships with their hosts, forming host-parasite systems [...].
Parasites are very widely distributed in the environment and form complex relationships with their hosts, forming host-parasite systems [...].
Topics: Humans; Parasitic Diseases; Animals; Host-Parasite Interactions; Parasites
PubMed: 38928081
DOI: 10.3390/ijms25126373 -
Annual Review of Marine Science Jan 2021Climate change affects ecological processes and interactions, including parasitism. Because parasites are natural components of ecological systems, as well as agents of... (Review)
Review
Climate change affects ecological processes and interactions, including parasitism. Because parasites are natural components of ecological systems, as well as agents of outbreak and disease-induced mortality, it is important to summarize current knowledge of the sensitivity of parasites to climate and identify how to better predict their responses to it. This need is particularly great in marine systems, where the responses of parasites to climate variables are less well studied than those in other biomes. As examples of climate's influence on parasitism increase, they enable generalizations of expected responses as well as insight into useful study approaches, such as thermal performance curves that compare the vital rates of hosts and parasites when exposed to several temperatures across a gradient. For parasites not killed by rising temperatures, some simple physiological rules, including the tendency of temperature to increase the metabolism of ectotherms and increase oxygen stress on hosts, suggest that parasites' intensity and pathologies might increase. In addition to temperature, climate-induced changes in dissolved oxygen, ocean acidity, salinity, and host and parasite distributions also affect parasitism and disease, but these factors are much less studied. Finally, because parasites are constituents of ecological communities, we must consider indirect and secondary effects stemming from climate-induced changes in host-parasite interactions, which may not be evident if these interactions are studied in isolation.
Topics: Animals; Aquatic Organisms; Climate Change; Ecosystem; Host-Parasite Interactions; Parasites; Parasitic Diseases; Temperature
PubMed: 32520636
DOI: 10.1146/annurev-marine-031920-100429 -
Frontiers in Cellular and Infection... 2020Malaria is the most deadly parasitic disease, affecting hundreds of millions of people worldwide. Malaria parasites have been associated with their hosts for millions of... (Review)
Review
Malaria is the most deadly parasitic disease, affecting hundreds of millions of people worldwide. Malaria parasites have been associated with their hosts for millions of years. During the long history of host-parasite co-evolution, both parasites and hosts have applied pressure on each other through complex host-parasite molecular interactions. Whereas the hosts activate various immune mechanisms to remove parasites during an infection, the parasites attempt to evade host immunity by diversifying their genome and switching expression of targets of the host immune system. Human intervention to control the disease such as antimalarial drugs and vaccination can greatly alter parasite population dynamics and evolution, particularly the massive applications of antimalarial drugs in recent human history. Vaccination is likely the best method to prevent the disease; however, a partially protective vaccine may have unwanted consequences that require further investigation. Studies of host-parasite interactions and co-evolution will provide important information for designing safe and effective vaccines and for preventing drug resistance. In this essay, we will discuss some interesting molecules involved in host-parasite interactions, including important parasite antigens. We also discuss subjects relevant to drug and vaccine development and some approaches for studying host-parasite interactions.
Topics: Animals; Antimalarials; Host-Parasite Interactions; Humans; Malaria; Parasites; Parasitic Diseases
PubMed: 33194831
DOI: 10.3389/fcimb.2020.587933 -
Current Problems in Diagnostic Radiology 2020There are a number of parasitic infections that can affect the liver and biliary tree. These infections can be primarily related to the liver or can include secondary... (Review)
Review
There are a number of parasitic infections that can affect the liver and biliary tree. These infections can be primarily related to the liver or can include secondary hepatic involvement. Imaging can narrow down the differential diagnosis in the appropriate clinical setting, and can even clinch the diagnosis with some pathognomonic findings. The various imaging modalities can also identify disease extent, help guide management, and demonstrate response to treatment. This pictorial essay will give an overview of parasitic liver infections, and will discuss the best imaging strategies and the key imaging features to help make a timely accurate diagnosis.
Topics: Diagnosis, Differential; Humans; Liver Diseases; Parasitic Diseases
PubMed: 31466878
DOI: 10.1067/j.cpradiol.2019.08.002 -
Trends in Parasitology Feb 2021Because most emerging human pathogens originate in mammals, many studies aim to identify host traits that determine the risk of sourcing zoonotic outbreaks. Studies... (Review)
Review
Because most emerging human pathogens originate in mammals, many studies aim to identify host traits that determine the risk of sourcing zoonotic outbreaks. Studies regularly assert that 'fast-lived' mammal species exhibiting greater fecundity and shorter lifespans tend to host more zoonoses; however, the causes of this association remain poorly understood and they cover a range of immune and nonimmune mechanisms. We discuss these drivers in the context of evolutionary ecology and wildlife-human interactions. Ultimately, differentiating these mechanisms will require linking interspecific variation in life history with immunity, pathogen diversity, transmissibility, and zoonotic risk, and critical data gaps currently limit our ability to do so. We highlight sampling and analytical frameworks to address this gap and to better inform zoonotic reservoir prediction.
Topics: Animals; Biodiversity; Biological Evolution; Disease Reservoirs; Host-Parasite Interactions; Human-Animal Interaction; Humans; Longevity; Parasitic Diseases; Risk; Time Factors; Zoonoses
PubMed: 33214097
DOI: 10.1016/j.pt.2020.10.012 -
Deutsche Medizinische Wochenschrift... Jun 2022Parasites are a diverse group of pathogens; they range from unicellular protozoa (e. g. Giardia lamblia) to tapeworms that can grow several meters long. Parasites have... (Review)
Review
Parasites are a diverse group of pathogens; they range from unicellular protozoa (e. g. Giardia lamblia) to tapeworms that can grow several meters long. Parasites have adapted to humans over millions of years and cause a wide, colorful variety of diseases. Due to increasing travel and climate change, previously rare pathogens occur more frequently in patients in Germany.Often the history, clinical findings and imaging are suggestive of the causative parasite and the suspected diagnosis only needs to be confirmed with pathogen detection in order to initiate targeted therapy. Nonetheless, the diagnosis is often delayed due to lack of experience of attending clinicians with parasitic infections.In this review article we give an overview of the epidemiology, transmission, diagnosis and treatment of some of the most common parasitic infections that are endemic, or regularly imported to Germany. We also discuss current and future challenges in the diagnosis, treatment and control of these pathogens.
Topics: Animals; Germany; Humans; Parasites; Parasitic Diseases; Travel
PubMed: 35636420
DOI: 10.1055/a-1664-7518 -
Acta Tropica Jan 2020As the only specialized institution for research and control of parasitic diseases at the national level in China for almost 70 years, the National Institute of... (Review)
Review
As the only specialized institution for research and control of parasitic diseases at the national level in China for almost 70 years, the National Institute of Parasitic Diseases (NIPD) at the Chinese Center for Disease Control and Prevention (China CDC) has been instrumental in supporting the remarkable progress from high prevalence to transmission interruption or low endemicity of several diseases, lymphatic filariasis, malaria and schistosomiasis in particular. This has taken place through technical guidance, emergency response and scientific research as well as providing technical service, education, training, health promotion and international cooperation. With China's increasing involvement in international cooperation and the increased risk for (re)emerging tropical diseases in mind, the Chinese Government designated in 2017 a new Chinese Center for Tropical Disease Research to NIPD. Responding to the expanded responsibilities, the institute is scaling up its activities in several ways: from parasitic diseases to the wider area of tropical diseases; from disease control to disease elimination; from biological research to policy evidences accumulation; and from public health to global health. Based on this new vision and China's previous accomplishments in the areas mentioned, the institute is in a position to move forward with respect to global health and equitable development according to the central principles of the United Nations' Sustainable Development Goals.
Topics: Academies and Institutes; Animals; Centers for Disease Control and Prevention, U.S.; China; Communicable Diseases; Global Health; Humans; International Cooperation; Organizational Objectives; Parasitic Diseases; Public Health; Tropical Medicine; United States
PubMed: 31614120
DOI: 10.1016/j.actatropica.2019.105219 -
International Journal of Immunogenetics Jun 2020The CCR5 molecule was reported in 1996 as the main HIV-1 co-receptor. In that same year, the CCR5Δ32 genetic variant was described as a strong protective factor against... (Review)
Review
The CCR5 molecule was reported in 1996 as the main HIV-1 co-receptor. In that same year, the CCR5Δ32 genetic variant was described as a strong protective factor against HIV-1 infection. These findings led to extensive research regarding the CCR5, culminating in critical scientific advances, such as the development of CCR5 inhibitors for the treatment of HIV infection. Recently, the research landscape surrounding CCR5 has begun to change. Different research groups have realized that, since CCR5 has such important effects in the chemokine system, it could also affect other different physiological systems. Therefore, the effect of reduced CCR5 expression due to the presence of the CCR5Δ32 variant began to be further studied. Several studies have investigated the role of CCR5 and the impacts of CCR5Δ32 on autoimmune and inflammatory diseases, various types of cancer, and viral diseases. However, the role of CCR5 in diseases caused by bacteria and parasites is still poorly understood. Therefore, the aim of this article is to review the role of CCR5 and the effects of CCR5Δ32 on bacterial (brucellosis, osteomyelitis, pneumonia, tuberculosis and infection by Chlamydia trachomatis) and parasitic infections (toxoplasmosis, leishmaniasis, Chagas disease and schistosomiasis). Basic information about each of these infections was also addressed. The neglected role of CCR5 in fungal disease and emerging studies regarding the action of CCR5 on regulatory T cells are briefly covered in this review. Considering the "renaissance of CCR5 research," this article is useful for updating researchers who develop studies involving CCR5 and CCR5Δ32 in different infectious diseases.
Topics: Alleles; Bacterial Infections; Genotype; HIV Infections; HIV-1; Host-Pathogen Interactions; Humans; Mutation; Parasitic Diseases; Receptors, CCR5
PubMed: 32212259
DOI: 10.1111/iji.12485