Host-multiparasite interactions in amphibians: a review.

Parasites, including viruses, bacteria, fungi, protists, helminths, and arthropods, are ubiquitous in the animal kingdom. Consequently, hosts are frequently infected with more than one parasite species simultaneously. The assessment of such co-infections is of fundamental importance for disease ecology, but relevant studies involving non-domesticated animals have remained scarce. Many amphibians are in decline, and they generally have a highly diverse parasitic fauna. Here we review the literature reporting on field surveys, veterinary case studies, and laboratory experiments on co-infections in amphibians, and we summarize what is known about within-host interactions among parasites, which environmental and intrinsic factors influence the outcomes of these interactions, and what effects co-infections have on hosts. The available literature is piecemeal, and patterns are highly diverse, so that identifying general trends that would fit most host-multiparasite systems in amphibians is difficult. Several examples of additive, antagonistic, neutral, and synergistic effects among different parasites are known, but whether members of some higher taxa usually outcompete and override the effects of others remains unclear. The arrival order of different parasites and the time lag between exposures appear in many cases to fundamentally shape competition and disease progression. The first parasite to arrive can gain a marked reproductive advantage or induce cross-reaction immunity, but by disrupting the skin and associated defences (i.e., skin secretions, skin microbiome) and by immunosuppression, it can also pave the way for subsequent infections. Although there are exceptions, detrimental effects to the host are generally aggravated with increasing numbers of co-infecting parasite species. Finally, because amphibians are ectothermic animals, temperature appears to be the most critical environmental factor that affects co-infections, partly via its influence on amphibian immune function, partly due to its direct effect on the survival and growth of parasites. Besides their importance for our understanding of ecological patterns and processes, detailed knowledge about co-infections is also crucial for the design and implementation of effective wildlife disease management, so that studies concentrating on the identified gaps in our understanding represent rewarding research avenues.

Survey of vector-borne and nematode parasites involved in the etiology of anemic syndrome in sheep from Southern Brazil.

Although anemia has been historically linked to Haemonchus contortus infection, other infectious agents, such as hemotropic mycoplasmas and tick-borne disease pathogens, may also lead to anemic crisis in sheep. This study has aimed to investigate infections related to anemia in a sheep herd from Bandeirantes City, Paraná State, southern Brazil. Seven out of forty-two (16.6%; 95% CI: 8.32-30.6%) sheep were positive for hemoplasmas by a PCR targeting the 16S rRNA gene and all tested negative for A. marginale/A. ovis and Babesia/Theileria spp. by PCR based on msp4 and 18S rRNA genes, respectively. Two (4.7%; 95% CI: 1.32-15.79%) animals were infested with Rhipicephalus microplus ticks. Fecal egg counting was performed in 38 sheep and 24 (63.15%; 95% CI: 47.2-76.6%) presented > 500 eggs per gram. Phylogenetic analysis of partial sequences of the detected hemotropic Mycoplasma sp. 16S and 23S rRNA genes confirmed that the animals were infected with Mycoplasma ovis. Polymorphism analysis of partial 16S rRNA sequences showed three different genotypes of M. ovis infecting sheep assessed in the present study. Mycoplasma ovis and gastrointestinal nematodes occurs in sheep from the northern region of Paraná State.

Ultrastructural morphology of the Myxobolus dermatobius Ishii 1915 (Mixosporea: Myxobolideae) microspores infecting eyes of Nile tilapia (Oreochromis niloticus) in Egypt.

A total of 1,000 cultured Nile tilapia (Oreochromis niloticus) were collected from different governmental and private fish farms and examined for detection of myxosporean parasites infection. The infected fishes showed slight unilateral exophthalmia with whitish cyst in the eye. Numerous white cysts like plasmodia of Myxobolus dermatobius were recovered from the eye of the examined fishes with low prevalence rate (1%). Small intact cyst was isolated, fixed in 3% glutaraldehyde in 0.1 M sodium cacodylate (pH 7.4) and prepared for transmission electron microscopy examination. Ultrathin sections myxospores of M. dermatobius revealed pair of capsulogenic cells at the apical pole of the developing myxospore. Single sporoplasm containing a single nucleus and sporoplasmosomes fills nearly all the space beneath the polar capsules. The later were pyriform in shape, each one had homogenous dense core and 4 turns of polar filaments. Ultrastructural characteristics of the present myxospore were described and discussed in detail.

Survey of vector-borne and nematode parasites involved in the etiology of anemic syndrome in sheep from Southern Brazil / Pesquisa de hemoparasitos transmitidos por vetores e nematódeos envolvidos na etiologia de síndrome anêmica em ovinos no Sul do Brasil

Abstract Although anemia has been historically linked to Haemonchus contortus infection, other infectious agents, such as hemotropic mycoplasmas and tick-borne disease pathogens, may also lead to anemic crisis in sheep. This study has aimed to investigate infections related to anemia in a sheep herd from Bandeirantes City, Paraná State, southern Brazil. Seven out of forty-two (16.6%; 95% CI: 8.32-30.6%) sheep were positive for hemoplasmas by a PCR targeting the 16S rRNA gene and all tested negative for A. marginale/A. ovis and Babesia/Theileria spp. by PCR based on msp4 and 18S rRNA genes, respectively. Two (4.7%; 95% CI: 1.32-15.79%) animals were infested with Rhipicephalus microplus ticks. Fecal egg counting was performed in 38 sheep and 24 (63.15%; 95% CI: 47.2-76.6%) presented > 500 eggs per gram. Phylogenetic analysis of partial sequences of the detected hemotropic Mycoplasma sp. 16S and 23S rRNA genes confirmed that the animals were infected with Mycoplasma ovis. Polymorphism analysis of partial 16S rRNA sequences showed three different genotypes of M. ovis infecting sheep assessed in the present study. Mycoplasma ovis and gastrointestinal nematodes occurs in sheep from the northern region of Paraná State.

Resumo Embora a principal causa de anemia seja historicamente relacionada à infecção por Haemonchus contortus, outros agentes infecciosos, como micoplasmas hemotrópicos e patógenos transmitidos por carrapatos, também podem causar quadros anêmicos em ovinos. O presente estudo objetivou investigar infecções relacionadas à anemia em um rebanho de ovinos, na cidade de Bandeirantes, Estado do Paraná, sul do Brasil. Sete (16,6%; 95% CI: 8,32-30,6%) de 42 ovinos foram positivos para hemoplasmas pela PCR do gene 16S rRNA, enquanto todos foram negativos para A. marginale/A. ovis e Babesia/Theileria spp. por ensaios da PCR baseados nos genes msp4 e 18S rRNA, respectivamente. Dois (4,7%; 95% CI: 1,32-15,79%) animais estavam infestados por carrapatos Rhipicephalus microplus. Dos 38 animais nos quais foi realizada a contagem de ovos por grama de fezes (OPG), 24 (63,15%; 95% CI: 47,2-76,6%) apresentaram valores >500 para OPG. A análise filogenética das sequências parciais dos genes 16S rRNA e 23S rRNA de hemoplasmas confirmou a infecção por Mycoplasma ovis. A análise de polimorfismos de um fragmento do gene 16S rRNA mostrou a ocorrência de três genótipos diferentes de M. ovis nos animais. Mycoplasma ovis e nematódeos gastrointestinais ocorrem em ovinos da região nordeste do Estado do Paraná.

Occurrence and diversity of arthropod-transmitted pathogens in red foxes (Vulpes vulpes) in western Austria, and possible vertical (transplacental) transmission of Hepatozoon canis.

Red fox (Vulpes vulpes) is the most abundant wild canid species in Austria, and it is a well-known carrier of many pathogens of medical and veterinary concern. The main aim of the present study was to investigate the occurrence and diversity of protozoan, bacterial and filarial parasites transmitted by blood-feeding arthropods in a red fox population in western Austria. Blood (n = 351) and spleen (n = 506) samples from foxes were examined by PCR and sequencing and the following pathogens were identified: Babesia canis, Babesia cf. microti (syn. Theileria annae), Hepatozoon canis, Anaplasma phagocytophilum, Candidatus Neoehrlichia sp. and Bartonella rochalimae. Blood was shown to be more suitable for detection of Babesia cf. microti, whilst the spleen tissue was better for detection of H. canis than blood. Moreover, extremely low genetic variability of H. canis and its relatively low prevalence rate observed in this study may suggest that the parasite has only recently been introduced in the sampled area. Furthermore, the data presented here demonstrates, for the first time, the possible vertical transmission of H. canis from an infected vixen to the offspring, and this could explain the very high prevalence in areas considered free of its main tick vector(s).

A survey of microparasites present in adult migrating Chinook salmon (Oncorhynchus tshawytscha) in south-western British Columbia determined by high-throughput quantitative polymerase chain reaction.

Microparasites play an important role in the demography, ecology and evolution of Pacific salmonids. As salmon stocks continue to decline and the impacts of global climate change on fish populations become apparent, a greater understanding of microparasites in wild salmon populations is warranted. We used high-throughput, quantitative PCR (HT-qRT-PCR) to rapidly screen 82 adult Chinook salmon from five geographically or genetically distinct groups (mostly returning to tributaries of the Fraser River) for 45 microparasite taxa. We detected 20 microparasite species, four of which have not previously been documented in Chinook salmon, and four of which have not been previously detected in any salmonids in the Fraser River. Comparisons of microparasite load to blood plasma variables revealed some positive associations between Flavobacterium psychrophilum, Cryptobia salmositica and Ceratonova shasta and physiological indices suggestive of morbidity. We include a comparison of our findings for each microparasite taxa with previous knowledge of its distribution in British Columbia.

Prevalence of brucellosis in the human, livestock and wildlife interface areas of Serengeti National Park, Tanzania.

Between 2005 and 2006, a cross-sectional survey was carried out in domestic ruminants in agropastoral communities of Serengeti district, Tanzania to determine the seroprevalence of brucellosis in domestic-wildlife interface villages. Both the Rose Bengal Plate Test (RBPT) and Competitive Enzyme Linked-immunosorbent Assay (c-ELISA) were used to analyse 82 human and 413 livestock sera from four randomly selected villages located along game reserve areas of Serengeti National Park. Although both cattle (288) and small ruminants (125) were screened, seropositivity was detected only in cattle. The overall seroprevalence based on c-ELISA as a confirmatory test was 5.6%. In cattle both age and sex were not statistically associated with brucellosis seropositivity (P = 0.63; 95% CI = 0.03, 0.8 and 0.33; 95% CI = 0.6, 3.7, respectively). Overall herd level seropositivity was 46.7% (n = 7), ranging from 25% to 66.7% (n = 4-10). Each village had at least one brucellosis seropositive herd. None of the 82 humans tested with both RBPT and c-ELISA were seropositive. Detecting Brucella infection in cattle in such areas warrants further investigation to establish the circulating strains for eventual appropriate control interventions in domestic animals.

Dog overpopulation and burden of exposure to canine distemper virus and other pathogens on Santa Cruz Island, Galapagos.

Dog overpopulation and diseases are hazards to native island species and humans on the Galapagos. Vaccination and importation of dogs are prohibited on the Galapagos. Risk management of these hazards requires the use of science-based risk assessment and risk communication. The objectives of the study reported here were (i) to estimate the human:dog ratio and (ii) the prevalence of and identify exposure factors associated with positive antibody titers to canine distemper virus (CDV) and other pathogens, as well as infection with intestinal parasites in owned dogs on Santa Cruz Island, Galapagos in September 2014. The observed human:dog ratio was 6.148:1 which extrapolates to 2503 dogs (two times more than a recent dog count conducted by Galapagos Biosecurity Agency in March 2014). The proportion of spayed female dogs (50%) was higher, compared to neutered male dogs (30%) (p=0.04). Prevalence of dogs with positive antibody titers to CDV was 36% (95% CI=26, 46%), to canine parvovirus was 89% (95% CI=82, 95%), and to canine adenovirus was 40% (95% CI=30, 51%). The frequency of seropositive dogs to CDV was lower in urban dogs (26%), compared to rural dogs (53%) (p<0.05). A positive interaction effect between rural residence and spay/neuter status on seropositivity to CDV was observed, which we discuss in this report. Because vaccination is prohibited, the dog population on Santa Cruz is susceptible to an outbreak of CDV (particularly among urban dogs) with potential spill over to marine mammals. Dog's age (1-2 or 3-14 years old, compared to younger dogs), and residence (rural, urban) were associated with positive antibody titers to parvovirus, adenovirus, Ehrlichia spp., or Anaplasma spp., as well as infection with Ancylostoma spp., an intestinal parasite in dogs that can be transmitted to humans, particularly children. These results provide the most comprehensive assessment of dog overpopulation and exposure to CDV and other pathogens on the Galapagos to date.

The aetiology, histopathology, and ultrastructural features of perianal erythema (red anus syndrome) in the European eel (Anguilla anguilla).

The European eel (Anguilla anguilla) is a critically endangered species. Red anus syndrome (RAS) is known to be associated with parasitic infections of the eel, particularly with Anguillicola crassus, but the full range of causative pathogenic organisms has not been systematically investigated. Here we examined the infective organisms and histopathological and ultrastructural features of seventy eels with RAS. In total, nine different pathogens were detected in association with RAS: Pseudomonas aeruginosa were present in twelve specimens (17%), the metacercaria of Euclinostromum heterostomum in three cases (4%), Gastrostome (Bucephalidae family) in seven cases (10%), A. crassus in forty-five cases (64%), Bothriocephalus in seventeen cases (24%), and Proteocephalus in twenty-three cases (32%). Yeast, amoeba, and myxobolus-like pathogens were seen in the anal skin in all cases when examined in combination with electron microscopy. Histopathologically, the lesions appeared as anoproctitis of varying severity from mild anusitis to severe haemorrhagic anoproctitis, with severe perianal oedema, haemorrhage, and proctoptosis. Gut inflammation ranged from mild catarrhal enteritis to severe haemorrhagic enteritis with mucosal sloughing. RAS is associated with a range of parasitic infections, not only A. crassus, some of which we describe here for the first time. Since RAS is not associated with direct invasion by parasites, it is likely that RAS is a secondary phenomenon caused by superadded infection on a background of generalised immunosuppression, or indirect local toxic effects. RAS may be used as a non-invasive indicator of underlying parasitic infection, but further investigations are required to establish the causative organisms for effective fishery management.

Equine disease surveillance: quarterly summary.

Equine infectious anaemia in Europe Equine herpesvirus in the UK Summary of surveillance testing, July to September 2012 These are among matters discussed in the quarterly equine disease surveillance report for July to September 2012, prepared by Defra, the Animal Health Trust and the British Equine Veterinary Association.

Epidemiology of Brazilian spotted fever in the Atlantic Forest, state of São Paulo, Brazil.

The tick-borne bacterium Rickettsia rickettsii is the aetiological agent of Brazilian spotted fever (BSF). The present study evaluated tick infestations on wild and domestic animals, and the rickettsial infection in these animals and their ticks in 7 forest areas adjacent to human communities in the São Paulo Metropolitan Area (SPMA). The results were compared to ecological traits of each sampled area. Two main tick species, Amblyomma aureolatum and Rhipicephalus sanguineus, were collected from dogs. The major ticks found on small mammals and birds were Ixodes loricatus and Amblyomma longirostre, respectively. Both anti-R. rickettsii antibodies and R. rickettsii-infected ticks were detected on dogs from only 2 areas in the southern part of the SPMA, which were considered to be endemic for BSF; the remaining 5 areas were considered to be non-endemic. Ecologically, the BSF-endemic areas clearly differed from the non-endemic areas by the presence of significantly more degraded forest patches in the former. The present results corroborate historical observations that have indicated that all human cases of BSF in the SPMA were contracted in the southern part of this metropolitan area. However, not all forest patches in the southern part of the SPMA were shown to be associated with BSF endemism.

[The landscape-biocenological concept of a combination of natural foci of diseases. Environmental conditions predetermining the formation of biotic and epizootic bases for a combination of natural foci of diseases].

The potential of a combination of foci of diseases is not limited by environmental conditions. The biotic and epizootic bases for the combination of foci are formed under the influence of the environmental factors predetermining the formation of the bases for the combination of the foci. These are pathogen populations, parasitic systems of foci with forming parasitocenoses, the functional and spatial pattern of the foci, susceptibility of hosts (vectors), polyhostality of pathogens and mechanisms of their transmission. The author places emphasis on the fact that any single factor cannot serve as a basis for the combination of the foci since the combination bases form only when pairs of identical factors interact. He points to the interrelation and correlation of the considered bases for the combination of the foci. The combination of invasion foci is noted to be effected in the absence of mixed infectiousness of specimens. The coacting parasitic systems of foci are predetermined to manifest themselves as the underlying biotic bases that determines the type of the combination of foci. The level of the combination of parasitic systems of the foci is predetermined by the parasitocenoses of coacting populations of pathogens and hosts (parasitic systems). The interacting functional and spatial patterns of the foci predetermine the latter's community, by acting as biotic bases for the combination. The susceptibility of hosts (vectors) and the polyhostality predetermine a range of interacting parasitic systems. The polymorphism of the types of hosts determines the functional strength of parasitic systems, by predetermining the stability of a combination of foci. The interacting identical mechanisms of transmission act as an epizootic basis for the combination of the foci. The continuity of the biotic and epizootic bases for the combination of the foci is stated.

Overview of known non-human primate pathogens with potential to affect colonies used for toxicity testing.

The increased demand for non-human primates (NHPs) in biomedical research has resulted in alternative sources of animals being used, which has allowed for importation of animals with varying background incidences of bacterial, viral, parasitic, and fungal pathogens. This can be of minimal consequence when animals from different sources are kept isolated. However, when NHPs from different sources with varying incidences of primary and opportunistic pathogens are mixed, there can be a rapid spread of these pathogens and an increase in the seroconversion of susceptible animals. If this process occurs during the conduct of a study, interpretation of that study can be confounded. Furthermore, NHPs imported from areas enzootic for pathogens such as Plasmodium or with high incidences of human diseases such as measles and tuberculosis can introduce diseases that can be a threat to colony health, have zoonotic risk, and can severely impact study outcome. Thus, knowledge of the common primary and opportunistic NHP infections, as well as reemerging pathogens, enables the toxicologist to use information on disease status for pre-study animal selection and intelligent study design. This is particularly important when immunomodulatory compounds are being investigated. Moreover, the toxicologic pathologist well versed in the common spontaneous infections, opportunistic pathogens, and background lesions in NHPs is able to assess possible drug-related effects in drug safety studies. This review identifies the common primary and opportunistic pathogens, as well as newly emerging infections of NHPs, that can directly or indirectly affect colony health and the interpretation of drug safety studies.

Bacterial and parasitic diseases of pet fish.

Bacterial and parasitic diseases are very common problems in pet fish. Diagnostic testing for bacterial and parasitic diseases is simple to do; many tests can be done on ambulatory visits. When logical treatment strategies are initiated and supported by diagnostic testing, a successful outcome is possible. Identification of the correct pathogens also allows an educational opportunity for discussions on prevention and biosecurity practices with clients and although fish are poikilothermic, there are some bacterial and parasitic pathogens that are zoonotic.

Doenças parasitárias em ruminantes no semi-árido brasileiro / Parasitic diseases in ruminants in the Brazilian semiarid

Arquivos de fichas clínicas de ruminantes ou amostras para diagnósticos recebidos pelo Hospital Veterinário da Universidade de Campina Grande, em Patos, Paraíba, de janeiro 2000 a agosto 2007, foram revisados para avaliar alguns aspectos epidemiológicos de doenças parasitárias de ruminantes na região semi-árida da Paraíba e estados vizinhos. A região apresenta precipitações médias anuais de aproximadamente 800mm, com chuvas irregulares concentradas em um período de 3-4 meses e uma temperatura média anual de 26ºC. No período, 163 (5,31 por cento) de 3.064 ruminantes foram afetados por alguma doença parasitária clinica. A doença parasitária mais frequente em caprinos e ovinos foi a helmitose gastrointestinal, principalmente a hemonchose, e caprinos foram mais afetados (6,24 por cento dos casos diagnosticados) do que os ovinos (4,7 por cento dos casos diagnosticados). A maior freqüência da doença nos caprinos pode estar associada à maior susceptibilidade destes ou devido a erros no tratamento, como a utilização da mesma dose para as duas espécies, o que para a maioria dos anti-antihelmínticos é insuficiente para caprinos. Bovinos tiveram uma baixa freqüência de helmintoses gastrintestinais (1 de 1.113 casos). Esta baixa freqüência deveu-se, provavelmente, ao sistema de criação no semi-árido, com baixa taxa de lotação, até um animal adulto por hectare a cada 13-16 hectare, e a permanência de bezerros (suscetíveis) com as mães (resistentes) por períodos de até um ano antes da desmama. A ocorrência de eimeriose em caprinos e ovinos foi de 0,76 por cento dos casos, envolvendo apenas os animais jovens. Em bovinos a principal doença foi à tristeza parasitária com 14 surtos. Os surtos de tristeza ocorreram principalmente no final do período chuvoso em áreas de desequilíbrio enzoótico incluindo as montanhas e planaltos da região da Borborema, áreas irrigadas, e áreas das bacias do Rio do Peixe e Rio Piranhas. Nas áreas mais secas do semi-árido o...

Clinical cases and diagnostic specimens from ruminants received by the Veterinary Hospital of the University of Campina Grande in Patos, Paraíba, Brazil, from January 2000 to August 2007, were reviewed to evaluate some epidemiological aspects of parasitic diseases of ruminants in the semiarid region of Paraíba and neighboring states. The region has an annual rainfall of about 800mm, with irregular rains concentrated in a 3 to 4-month-period, and an average annual temperature of 26ºC. During those years, 163 (5.31 percent) out of 3,064 ruminants were affected by some parasitic disease. The most important parasitosis in goats and sheep was gastrointestinal helminthiasis, mainly hemonchosis; goats were more affected (6.24 percent of cases in this species) than sheep (4.7 percent of cases). The higher frequency of the disease in goats may be associated with higher susceptibility or due to treatment mistakes, i.e. use of the same dose for both species, which for most anti-antihelmintics is insufficient for goats. Cattle have a low rate of gastrointestinal helminthiasis (1 out of 1,113 cases). This low frequency is probably due to the farming system in the semiarid, with low stocking rate, up to one adult bovine for every 13-16 ha, and permanence of calves (susceptible) with their mothers (resistant) for nearly one year before weaning. The occurrence of eimeriosis in goats and sheep was observed in 0.76 percent of the cases, involving only young animals. The main cattle disease was tick fever with 14 outbreaks. Outbreaks of tick fever occur, mainly at the end of the raining season in areas of the semiarid which are marginal for tick, like plateaus and mountains of the Borborema region, irrigated areas, and areas of the basins of two rivers of the region. In the drier areas of the semiarid Rhipicephalus (Boophilus) microplus do not survive during the dry period, but tick fever can occur when cattle with ticks are introduced at the onset of the...

Phylogenetic relationships among plant and animal parasites, and saprotrophs in Aphanomyces (Oomycetes).

Molecular phylogenetic relationships among 12 species of Aphanomyces de Bary (Oomycetes) were analyzed based on 108 ITS sequences of nuclear rDNA. Sequences used in the analyses belonged to the major species currently available in pure culture and GenBank. Bayesian, maximum likelihood, and maximum parsimony analyses support that Aphanomyces constitutes a monophyletic group. Three independent lineages were found: (i) plant parasitic, (ii) animal parasitic, and (iii) saprotrophic or opportunistic parasitic. Sexual reproduction appeared to be critical in plant parasites for survival in soil environments while asexual reproduction seemed to be advantageous for exploiting specialization in animal parasitism. Repeated zoospore emergence seems to be an advantageous property for both plant and animal parasitic modes of life. Growth in unspecific media was generally faster in saprotrophs compared with parasitic species. A number of strains and GenBank sequences were found to be misidentified. It was confirmed molecularly that Aphanomyces piscicida and Aphanomyces invadans appear to be conspecific, and found that Aphanomyces iridis and Aphanomyces euteiches are closely related, if not the same, species. This study has shown a clear evolutionary separation between Aphanomyces species that are plant parasites and those that parasitize animals. Saprotrophic or opportunistic species formed a separate evolutionary lineage except Aphanomyces stellatus whose evolutionary position has not yet been resolved.

Histopathology of Antarctic krill, Euphausia superba, bearing black spots.

Small black spots have been noticed on the cephalothorax of Antarctic krill, Euphausia superba, since January, 2001. To study the nature of the black spots, the krill were sampled in the winter of 2003, 2006, and 2007 in the South Georgia region, the Antarctic Ocean. Histological observations revealed that the black spots were melanized nodules that were composed of hemocytes surrounding either bacteria or amorphous material. In the 2007 samples, 42% of the krill had melanized nodules. Most of the nodules had an opening on the body surface of the krill. A single melanized nodule often contained more than one type of morphologically distinct bacterial cell. Three bacteria were isolated from these black spots, and classified into either Psychrobacter or Pseudoalteromonas based on the sequences of 16S rRNA genes. More than three bacterial species or strains were also confirmed by in situ hybridization for 16S rRNA. The melanized nodules were almost always accompanied by a mass of atypical, large heteromorphic cells, which were not observed in apparently healthy krill. Unidentified parasites were observed in some of the krill that had melanized nodules. These parasites were directly surrounded by the large heteromorphic cells. Histological observations suggested that these heteromorphic cells were attacking the parasites. These results suggest the possibility that the krill had been initially affected by parasite infections, and the parasitized spots were secondary infected by environmental bacteria after the parasites had escaped from the host body.

Histological evidence for inoculative action of immature Linguatula serrata in lymph nodes of intermediate host.

The histopathological examination of 11 mesenteric lymph nodes from adult sheep infected with immature stages of Linguatula serrata revealed acute and chronic lesions with the presence of bacterial colonies and yeast cells. Bacteria were mainly present in acute, hemorrhagic, or necrotic lesions while yeast cells were seen mostly in the structure of chronic granulomas.

Worm infestation and anaemia among pre-school children of peasant farmers in Calabar, Nigeria.

BACKGROUND: Worm infection and anaemia are common childhood conditions in Nigeria. We assessed the status of helminthiasis and associated anaemia among pre school children of peasant farmers aged 1-5 years living in a rubber plantation near Calabar, Nigeria. DESIGN: Cross sectional. METHOD: Three hundred and fifty children were selected by multi-stage cluster sampling technique. Freshly passed stool was examined using Kato-Katz method while anaemia was estimated using haematocrit technique. RESULT: Of the 350 children, 174 (49.7%) had intestinal helminths: Ascaris lumbricoides 64.4%, hookworms 10.9% and Trichuris trichuria 1.1%. There were 41(23.6%) children with polyparasitism, 33 of them were due to Ascaris lumbricoides and hookworms. The worm load was generally light in intensity with egg per gram of stool ranging from 24-60,960. Males (28.9%) were infected more than females (20.8%). The frequency of infection increases with age. The prevalence of anaemia among the entire study population and in those infected with worms was 56.6% and 56.9% respectively. With polyparasitism there was a relative increase in the frequency of anaemia females > males. CONCLUSION: Worm infections and anaemia are common in our children. A comprehensive control strategy involving good sanitation, sinking of bore hole for clean water supply and regular deworming exercises are recommended.