Parasites of the Bronzed Grackle, Quiscalus Quiscula Versicolor Vieillot, From Northwestern Ohio

Masel, Lucinda A.

January 1966

No description available.

Biology

Grackles

Parasites

Study of the cranial sinus nematode, Stenurus minor (Metastrongyloidea), in the harbour porpoise, Phocoena phocoena

Faulkner, Jacqueline

January 1995

No description available.

Lungworms.

Harbor porpoise -- Parasites.

A Microsporidian Parasite Infects Ribbon Worms of the Genus Maculaura on the Eastern Pacific Coast

Robbins, Kara

30 April 2019

The small nemertean <i>Maculaura alaskensis</i> is used as a model for studies of pilidiophoran development. During several microinjection experiments, it became clear several batches of oocytes obtained from wild-caught females contained an intracellular pathogen. Infected oocytes have large vesicles containing dozens to hundreds of refractile oval objects. Examination of oocytes with DIC and confocal microscopy showed the spores within the vesicles were diplokaryotic and contained a coiled tube, traits that are diagnostic of the phylum Microsporidia. The Microsporidia are a group of obligate intracellular parasites that infect cells of protists and animals. No other microsporidian has ever been found infecting cells of nemerteans and the association between <i>M. alaskensis</i> and this microsporidian is, thus far, undocumented. For my thesis, I described morphological characteristics, molecular phylogeny, and geographic range of the microsporidian. Additionally, I observed parasitic influences on development of infected <i>M. alaskensis</i> and explored other potential host species. / 2021-04-30

Hepatosporidae

Maculaura

Marine parasites

Microsporidia

Nemertean

Parasites of Invertebrates

Recurrent, late-summer mortality of dabbling ducks in Southern Quebec induced by the digeneans, Sphaeridiotrema globulus (Rudolphi, 1814) and Cyathocotyle bushiensis Khan, 1962

Hoeve, John.

January 1986

No description available.

Digenea.

Ducks -- Parasites.

Ducks -- Diseases and pests.

Gastrointestinal parasites of the vervet monkey (Chlorocebus [Cercopithecus] aethiops) at a sanctuary in Limpopo Province, South Africa

Wren, Brandi T.

January 2006

Fifty-eight fecal samples from vervet monkeys (Chlorocebus [Cercopithecus] aethiops) at a sanctuary near Tzaneen, Limpopo Province, South Africa, were collected and analyzed to determine which species of gastrointestinal parasites they harbored, and differences in infection rates were examined. Three parasites were found, including two nematodes (Trichuris trichiura and one tentatively classified as Strongyloides spp.) and one protozoa (Balantidium coli). Rates of B. coil and Strongyloides spp. infection were similar in captive (41.9% and 77.4%, respectively) and wild (35% and 75%, respectively) monkeys, but rates of T. trichiura infection were significantly higher in wild individuals. No captives were infected with T. trichiura, but 15% of wild monkeys were infected. Although humans in other regions of South Africa have already been found to harbor two of these parasites (Strongyloides spp. and T. trichiura), caution should still be taken in areas that experience high rates of human-vervet interaction or conflict. Also, evidence suggests that the vervets may have been exposed to B. coil from a nearby pig farm, indicating that humans may pose as much of a threat to vervet health as vice versa. / Department of Anthropology

Gastrointestinal system -- Parasites.

Studies on the biosystematics and biology of strigeids (Digenea) parasitic in freshwater fish

Bell, Andrew Stuart

January 1995

This study is concerned with two strigeid genera which utilise fish as their second intermediate host and piscivorous birds as a definitive host, i.e. Apatemon (Apatemon) Sudarikov, 1959 and Ichthyocotylurus Odening, 1969. Although the lifecycle has been ascertained for most Ichthyocotylurus spp., confusion and disagreement still exist as to the constituent species, while all of the life-stages have been described for only a single member of the subgenus Apatemon (Apatemon). In order to clarify species membership to these taxa and indeed the taxonomic position of the subgenus Apatemon (Apatemon) further information was required on the life-cycles and life-stages of these strigeids. Although, metacercariae from this family have been recorded from a variety of British fishes, confirmed records, i.e. those supported with life-cycle data, are limited to a single species. It was this lack of confidence in identifying metacercariae recovered from fishes and the lack of known good criteria for distinguishing the adults that prompted the present study. Collections of metacercariae from a variety of hosts and locations were made, from which all subsequent life-cycle stages were obtained. The project aims were to establish the identity of the forms occurring in British fishes, by applying discriminatory techniques to the experimentally reared life-stages. In addition to traditional methods, techniques with little previous application to these genera were used and included, scanning electron microscopy (SEM), chaetotaxy, principal components analysis (PCA), and karyology. Furthermore, behavioural aspects such as the release patterns of cercariae from their molluscan hosts were studied to investigate whether they would prove to be of diagnostic value. Metacercariae obtained from the sampling survey were tentatively identified, using all currently employed methods for their determination, i.e. morphology, nature of cyst, host and site specificities, as Ichthyocotylurus erraticus (Rudolphi, 1809), I. variegatus (Creplin, 1825), Apatemon gracilis (Rudolphi, 1819) and A. annuligerum (Nordmann, 1832). Material collected from Finland was considered to contain both Ichthyocotylurus spp. recovered in the U.K., as well as I. platycephalus (Creplin, 1825) and I. pileatus (Rudolphi, 1802). The Ichthyocotylurus spp. were found to be more host specific than A. gracilis, although A. annuligerum was considered oioxenic to perch Perea fluiatilis L. Records of I. erraticus from gwyniad Coregonus lavaretus (L.) and grayling Thymallus thymallus (L.), and A. gracilis from arctic charr Salvelinus alpinus (L.) constitute first listings from Britain. The large number of sensilla present on the body surface of these metacercariae, observed by SEM and chaetotaxy, precluded their diagnostic use. PCA was, however, found to be of value for distinguishing between species and determining morphological variation within a species. I. erraticus, I. variegatus and A. gracilis adults were successfully reared in experimental hosts using metacercariae from a variety of fish hosts, sites within a single fish host and geographical sites. The adults obtained enabled clarification of the identities assigned to the metacercariae. Those metacercariae believed to represent I. pileatus and A. annuligerum failed to establish in experimental hosts. Herring gulls and lesser black-backed gulls proved to be extremely good experimental hosts for both Ichthyocotylurus spp., with the vast majority of infections establishing and providing high yields of eggs and adults. These infections yielded information on the establishment, development, fecundity, site specificity, longevity and morphological variability of the adults. Aspects of the morphology and biology of I. variegatus adults recorded were found to support its validity as a species discrete from I. platycephalus which was in some doubt. The experimental hosts used for A. gracilis infections, domestic and mallard ducklings, were found to be less satisfactory. Challenges were performed with A. gracilis metacercariae from three sources, rainbow trout, salmon parr and stone loach. The latter source was the only one to result in egg producing adults, with specimens exhibiting normal morphology and demonstrating an increased longevity over adults raised from salmonid metacercariae. These findings suggest that the metacercarial host may affect the successful completion of the life-cycle. Eggs of known origin were collected for all three cultured strigeid species, enabling further life-cycle studies, these were incubated and miracidia successfully raised. Developmental periods were found to be temperature dependent and differed for the three species at 20°C: A. gracilis < I. erraticus < I. variegatus. Light microscopy revealed the morphology of all three species to be identical, as were the epidermal plate formulae and chaetotaxy, indicated by silver-staining. The nomenclature for the distribution of miracidial sensilla derived by Dimitrov et al. (1989) was amended to enable a full description of these species. Osmotic shock resulted in an improved deciliation of the miracidia compared to sonication and subsequent SEM observation confirmed the arrangement of body surface structures, while revealing sensilla forms. Behavioural aspects of I. variegatus miracidia were examined, with a maximum longevity (< 11 hours) recorded at the lowest temperature studied (l0 degrees C), and host finding demonstrated to occur by an increased turning response in the presence of substances emitted from the susceptible snail host, following an initial unresponsive dispersal phase. Ichthyocotylurus cercariae were found in naturally infected Valvata piscinalis which constitutes the first record in Britain of cercariae of this genus. Cercariae of I. erraticus and I. variegatus were successfully raised experimentally from miracidia of known identity and origin within naive, experimentally raised V. piscinalis hosts, while A. gracilis cercariae were obtained from laboratory reared Lymnaea peregra. Cercarial developmental periods within the molluscan host were found to be temperature dependent and markedly different for the strigeid genera investigated, as were their behaviour and morphology. The Ichthyocotylurus spp. exhibit a distinct diurnal emergence rhythm from their molluscan host, being shed during the hours of daylight, while A. gracilis cercariae demonstrate a reciprocal pattern, emerging during the hours of darkness. Behavioural contrasts were also observed in longevities, emergence strategies (route of exit) and swimming behaviour. The two Ichthyocotylurus spp. were extremely similar, the only cercarial features found to be of diagnostic use were: the presence or absence of eye-spots; their differing developmental periods from miracidium to cercaria; the number and distribution of sensilla when compared by PCA; and their differing longevities at 20 degrees C. Characters considered to be of value in differentiating between strigeid cercariae at the species level, including the armature, chaetotaxy pattern and resting posture, did not differ between these two species. SEM observations enabled descriptions of the variety and structure of sensilla present on different life-stages, while transmission electron microscopy revealed the internal structure of cercarial sensory structures. Experimentally raised cercariae were found to be infective and the life-cycle was completed for the three strigeid species. Host specificities were observed for I. erraticus and A. gracilis, being particularly stringent for the latter species, while site specificities recorded were as observed in natural infections. Metacercarial maturation periods (for encystment) were highly temperature dependent, being comparable for the two Ichthyocotylurus spp. and more rapid than for A. gracilis specimens.

590

Pharmacokinetics of propylthio-benzimidazole anthelmintics : modulation of liver biotransformation in sheep and cattle

Lanusse, Carlos Edmundo

January 1991

The aim of this research was to determine the influence of route of administration, drug formulation and modified-liver metabolism on the pharmacokinetic and metabolic patterns of benzimidazole anthelmintics in ruminants. Both route of administration and formulation dramatically affected the bioconversion of netobimin (NTB) pro-drug, N-methoxycarbonyl-N$ sp prime$-(2-nitro-5-propylphenylthio)-${ rm N} sp{ prime prime}$-(2-ethyl sulphonic acid) guanidine, and the bioavailability and disposition kinetics of its active albendazole (ABZ) metabolites in both sheep and cattle. The efficacy of NTB conversion by the gastrointestinal (GI) microflora, was markedly lower after subcutaneous (SC) administration of NTB pro-drug compared with enteral administrations in both species. Although trisamine and zwitterion formulations of NTB were bioequivalent after SC treatment, the zwitterion suspension was two-fold more bioavailable in terms of ABZ metabolites, after oral administration to cattle. ABZ sulphoxide (ABZSO) and ABZ sulphone (ABZSO$ sb2$), the main metabolites found in plasma, were reversibly exchanged between plasma and GI compartments and concentrated in the abomasum. ABZ, ABZSO and ABZSO$ sb2$ were detected in the GI tract for 72 h post-NTB administration to cattle. In vitro, ABZ was oxidized into ABZSO and ABZSO$ sb2$ by liver microsomes and ruminal and ileal fluids. However, only ABZSO was reduced (back to ABZ) by these GI fluids. The rate of ABZ sulphoxidation by liver microsomes was significantly lower in cattle compared to sheep. However, while the oxidizing activity was greater in GI fluids of cattle, the reducing activity was prevalent in those of sheep. This was consistent with the higher ABZSO$ sb2$/ABZSO ratio and the markedly faster disposition of both metabolites in cattle compared to sheep. The co-administration of NTB with different oxidation-impairing compounds, largely methimazole (MTZ), in both species, resulted in an increased bioavailability and/o

Benzimidazoles -- Pharmacokinetics.

Anthelmintics -- Pharmacokinetics.

Sheep -- Parasites -- Control.

Cattle -- Parasites -- Control.

Parasitism and invasive species : an ecological study of mussel populations

Calvo Ugarteburu, Miren Gurutze

January 1997

The Mediterranean mussel Mytilus galloprovincialis, was introduced accidentally to South Africa and has since become invasive. One possible explanation for the success of this species is that it has been released from the effects of parasites which affect the indigenous species of mussels. The aim of this work was to examine the parasitic load of different mussel populations along the southern African coast and to assess the effects of parasites on their hosts. A survey was done to quantify the levels of parasitism in indigenous populations of Perna perna from Southern Africa and of Mytilus galloprovincialis from South Africa (where it is exotic) and Spain (where it is indigenous). This survey was carried out at three different geographic scales: small scale (metres), studying the incidence of parasites within a mussel bed; medium scale (kilometres to tens of kilometres), comparing prevalences of infection among different localities; and large scale (hundreds to thousands of kilometres), examining infection rates along the Southern African coast, as well as the coast of the Basque Country (North Spain). During this survey metazoan parasites other than trematodes were rare. Four species of trematodes were commonly found infecting the indigenous mussel Perna perna. These were metacercariae of the genus Proctoeces, bucephalid sporocysts, encysted metacercariae on the labial palps and gelatinous cysts with metacercariae inside. A detailed description of Proctoeces is given; the other parasites are described elsewhere. No parasites were found in M. galloprovincialis either in South Africa or in Spain. This thesis concentrates on the study of prevalences of Proctoeces and bucephalid sporocysts and their effects on Perna perna. Infection rates with Proctoeces are highly dependent on the sex of the host, with more females than males being infected, and are also size dependent, though only for females. Identification of the sex of mussels infected with bucephalid sporocysts is often not possible since the sporocysts spread over the gonad and replace it. Prevalence of infection with this parasite also increases with the size of the host. To study the influence of Proctoeces and bucephalid sporocysts on the ecological fitness of Perna perna, their effects on survival and competitive ability were tested. The results showed significant negative effects. Both parasites significantly depressed condition but only after spawning, when the mussels were already stressed. In order to check for effects on host survival, the effects of both parasites on mortality rates, gaping behaviour and water loss of mussels exposed to air were also examined. Neither parasite affected mortality rate or gaping behaviour of Perna perna. Proctoeces did not affect the amount of water lost by mussels, but the bucephalid sporocysts did. Mussels infected with sporocysts lost significantly more water than non-infected individuals. This increase in water loss was not related to the gaping behaviour, but a test of the strength of the adductor muscles showed that less force was needed to open mussels with bucephalid sporocysts than non-infected mussels. This was not the case for mussels infected by Proctoeces. Weaker mussels will fail to seal the valves properly, resulting in an increase of water loss on exposure to air by evaporation. Another factor that will have an obvious effect on a population is the reproductive output of the animals. Histological sections of the gonad of infected and non-infected females were cut to study the effects of both parasites on reproduction. Statistical tests comparing the numbers and sizes of oocytes in females infected with Proctoeces and non-infected females showed no significant differences. However, bucephalid sporocysts have a dramatic effect on reproduction by castrating the host, leaving no trace of sex products. One of the major factors shaping the composition of a mussel bed is competition for space and food, with smaller mussels being at a competitive disadvantage. Thus, in order to examine effects of both parasites on the competitive ability of Perna perna, summer and winter growth rates were compared for infected and non-infected mussels. Proctoeces reduced growth both in summer and in winter whilst bucephalid sporocysts had no significant effect. Both growth and reproduction are important components of the energy budget of an animal, and each is affected by either Proctoeces or the bucephalid sporocysts. In an attempt to test if Perna perna compensates energetically for these negative effects, filtration rates and oxygen consumption of mussels with and without parasites were measured. Neither parasite had a significant effect on filtration rates or oxygen consumption of the host. All these results indicate that both Proctoeces and the bucephalid sporocysts have a detrimental effect on their host, and that the mussels do not compensate for these negative effects. There is neither an increase in filtration, nor a decrease in respiration to balance the energy lost to the parasite. The two parasites studied affect the host in different but complementary ways. The effects of both parasites are concentrated on those size classes of mussel which channel most energy into the portion of the energy budget affected by the parasite. Proctoeces affects growth only in the smaller individuals, which under normal conditions would put most energy into growth; and the bucephalid sporocysts castrate the bigger mussels, which would expend most energy on reproduction. By reducing growth rates of small mussels or castrating large mussels, these parasites effectively remove them from the breeding population and reduce their competitive abilities. These negative effects, together with the high prevalence of both parasites in Perna perna along the South African coast and their absence in Mytilus galloprovincialis, suggest that parasites may be an important reason for the success of Mytilus.

Perna -- Parasites

Mytilidae -- Parasites

Perna -- Ecology

Mytilidae -- Ecology

Caractérisation génétique et phénotypique de cryptosporidium : de la souris à l’homme / Genetic and phenotypic characterization of cryptosporidium : from mice to humans

Osman, Marwan

30 September 2015

Les parasites du genre Cryptosporidium comprennent des espèces infectant le tractus gastro-intestinal ou respiratoire d’un grand nombre de vertébrés y compris l'homme. Ces protistes intracellulaires sont les agents d’une zoonose cosmopolite à transmission oro-fécale, la cryptosporidiose. Au vu des travaux de notre laboratoire, nous savons à présent que Cryptosporidium parvum est également capable d’induire des néoplasies digestives chez un modèle murin SCID (Severe Combined Immunodeficiency mice), traitées ou pas par la dexaméthasone. Alors que C. muris, une autre espèce de Cryptosporidium, induit une infection chronique non associée à des transformations néoplasiques.Pour toutes ces raisons, il nous est apparu intéressant d’effectuer un travail de thèse articulé autour de trois axes principaux, l’épidémiologie, la transmission et la pathogénicité du parasite Cryptosporidium. Nous nous sommes intéressés dans un premier temps à l’épidémiologie moléculaire et la biodiversité génétique de Cryptosporidium dans des populations humaines de la région du Nord-Liban. Ceci nous a permis de mettre en évidence une prévalence de 5% de Cryptosporidium chez la population générale avec une prédominance de C. hominis. Ce qui constituait les premières données épidémiologiques de la cryptosporidiose au Liban. Ensuite d’autres études nous ont permis de montrer que cette prévalence pouvait atteindre même 10% chez les patients symptomatiques et les enfants.Dans un second temps, nous avons voulu étudier le mode de transmission du parasite et les facteurs de risque pouvant y être associés. Pour ce faire, une recherche du parasite a été réalisée aussi bien au Liban qu’en France chez des animaux d’élevage, sauvages, de compagnie et en captivité. Une première étude a été réalisée chez des patients et des bovins du Nord-Liban. L’ensemble des données rapportées nous permettent de suggérer un mode de transmission de la cryptosporidiose majoritairement anthroponotique au Liban, mais les résultats du génotypage ne permettent pas d’exclure la présence d’une transmission zoonotique. D’autres études réalisées en France, notamment sur des échantillons de selles collectées auprès des zoos de la Palmyre (à Royan) et de Lille ont montré un taux de prévalence de Cryptosporidium spp inférieur à 1%. Ces animaux ne semblent donc pas être un réservoir potentiel de cette infection. Alors que chez les poissons sauvages, nous avons pu identifier la présence entre autre de l’espèce zoonotique C. parvum dans l’estomac et l’intestin des poissons. Ceci nous permet de considérer les poissons comme étant une source de contamination potentiel pour l’homme, l’animal mais également pour l’environnement.Enfin le troisième axe avait pour but d’étudier la pathogénicité de ce parasite. Pour commencer nous avons voulu explorer les mécanismes de la cancérogénèse induite par la souche IOWA de C. parvum au niveau de la région iléocæcale des souris SCID traitées par la dexaméthasone (SCID-D). Pour ce faire nous nous sommes intéressés à quatre marqueurs de voies de signalisation cellulaires impliquées dans la survenue de cancers colorectaux (APC, Bêta-caténine, P53 et K&#8208;ras). Nous avons ainsi pu montrer que la voie Wnt était impliquée dans ce processus. Ensuite nous avons voulu étudier l’association entre la pathologie cancéreuse et le parasitisme par Cryptosporidium chez l’homme. Une recherche du parasite a donc été réalisée dans des biopsies d’origines coliques et gastriques inclues en paraffine appartenant à des patients atteints ou non de cancers digestifs. Une différence significative a été rapportée entre la prévalence de la cryptosporidiose retrouvée chez la population de patients présentant des lésions cancéreuses (17%) et celle du groupe control constitué de patients non cancéreux mais présentant des symptômes (7%) p-value = 0.03. L’ensemble de ces données obtenues chez l’animal et chez l’homme montre que ce parasite a un impact important en santé humaine et animale. / Parasites of the genus Cryptosporidium comprise species infecting the gastrointestinal or respiratory tract of a wide variety of vertebrates including humans. These intracellular protists are the agents of a cosmopolitan zoonosis, with féco-oral transmission, cryptosporidiosis. Recent work from our laboratory, showed that the zoonotic species Cryptosporidium parvum is capable to induce digestive neoplasia in a SCID Severe Combined Immunodeficiency Mice (SCID) model, treated or not with dexamethasone. However C. muris, another species of Cryptosporidium, induces chronic infection in this rodent model but is not associated with neoplastic transformation.For all these reasons, it seemed interesting to carry out a thesis project articulated around three different axes: epidemiology, transmission and pathogenesis of the Cryptosporidium infection. We focused initially on the molecular epidemiology and genetic biodiversity of this parasite among human populations in North Lebanon. We found a Cryptosporidium prevalence of 5% among the general population, being C. hominis the predominant species. This prevalence could reach until 10% in symptomatic patients and children. This is the first epidemiological data about cryptosporidiosis in this country.Secondly, we studied the transmission routes and the main risk factors associated with the transmission of this parasite. To do this, a first study was conducted in parallel among animal populations in North Lebanon and France. The reported data suggest a predominance of an anthroponotic route of transmission for cryptosporidiosis in Lebanon, but the results of genotyping does not exclude the presence of zoonotic transmission. Other studies conducted in France, especially based on collection of stool samples in the zoos of Palmyre (Royan) and Lille showed that Cryptosporidium spp were present in less than 1% of captivity animals. The low prevalence strongly demonstrates that these animals play a negligible role as potential reservoirs of infection. While in wild fish, we could identify the presence of C. parvum, a zoonotic species, in the stomach and the gut of fish. These data suggest that the fish could be a natural host of C. parvum and a potential source of contamination for humans, animals but also for the environment.Finally, the third topic aimed to study the pathogenicity of this parasite. Firstly, we explored metabolic pathways potentially involved in the development of C. parvum-induced ileo-caecal oncogenesis in the SCID model treated with dexamethasone (SCID-D). We searched for alterations in genes or proteins commonly involved in cell cycle, differentiation or cell migration, such as &#946;-catenin, Apc, E-cadherin, Kras and p53. We were able to show that the Wnt pathway was involved in this process. Finally, we wanted to study the association between digestive cancer and parasitism with Cryptosporidium in humans. Cryptosporidium molecular detection was therefore carried out in colonic and gastric biopsies belonging to patients with and without digestive cancers of recent diagnosis collected in North Lebanon. A statistically significant difference was observed between the prevalence of cryptosporidiosis found among the population of patients with digestive cancer (17%) and that of the control group consisting of non-cancer patients but with digestive symptoms (7%) (p-value = 0.03). All these data obtained in animals and humans strengthens the importance of this parasite in public health.

Parasites intestinaux

Zoonose

Cryptosporidiose

Epidémiologie

Intestinal parasites

Zoonosis

Cryptosporidiosis

Epidemiolofy

Recurrent, late-summer mortality of dabbling ducks in Southern Quebec induced by the digeneans, Sphaeridiotrema globulus (Rudolphi, 1814) and Cyathocotyle bushiensis Khan, 1962

Hoeve, John.

January 1986

No description available.

Digenea.

Ducks -- Parasites.

Ducks -- Diseases and pests.