Fecal Parasite Research Articles

Exploring winter diet, gut microbiota and parasitism in caribou using multi-marker metabarcoding of fecal DNA.

In conservation strategies, getting precise and repeatable information on the species' diet and health without relying on invasive or laborious methods is challenging. Here, we developed an efficient and non-invasive workflow for the sequencing and analysis of four taxonomic markers from fecal DNA to characterize the gut microbiota, parasites, and plants and lichens composing the winter diet of caribou (Rangifer tarandus), Canada's most iconic endangered species. Sequencing of the 18S rRNA gene of eukaryotes from seven locations in Manitoba and Saskatchewan, Canada, allowed for the detection of five genera of parasites in caribou feces (including Nematodirella and Parelaphostrongylus) with variable frequency of occurrence depending on sampling location and sex. Our workflow also revealed a rich winter plant and lichen diet in caribou, with respectively 29 and 18 genera identified across all samples through plant and fungal ITS2 sequencing. Relationships between the gut microbiota and both the diet and parasite richness were also identified. Of note, the Central Saskatchewan sampling location was characterized by a clearly distinct gut microbiota which could be linked to an epiphytic lichen-rich diet. Overall, our results showed the potential of this multi-marker DNA metabarcoding workflow as an efficient tool to provide insights into the species biology and ecology.

Validation of Vetscan Imagyst®, a diagnostic test utilizing an artificial intelligence deep learning algorithm, for detecting strongyles and Parascaris spp. in equine fecal samples.

Current methods for obtaining fecal egg counts in horses are often inaccurate and variable depending on the analyst's skill and experience. Automated digital scanning of fecal sample slides integrated with analysis by an artificial intelligence (AI) algorithm is a viable, emerging alternative that can mitigate operator variation compared to conventional methods in companion animal fecal parasite diagnostics. Vetscan Imagyst is a novel fecal parasite detection system that uploads the scanned image to the cloud where proprietary software analyzes captured images for diagnostic recognition by a deep learning, object detection AI algorithm. The study describes the use and validation of Vetscan Imagyst in equine parasitology. The primary objective of the study was to evaluate the performance of the Vetscan Imagyst system in terms of diagnostic sensitivity and specificity in testing equine fecal samples (n = 108) for ova from two parasites that commonly infect horses, strongyles and Parascaris spp., compared to reference assays performed by expert parasitologists using a Mini-FLOTAC technique. Two different fecal flotation solutions were used to prepare the sample slides, NaNO3 and Sheather's sugar solution. Diagnostic sensitivity of the Vetscan Imagyst algorithm for strongyles versus the manual reference test was 99.2% for samples prepared with NaNO3 solution and 100.0% for samples prepared with Sheather's sugar solution. Sensitivity for Parascaris spp. was 88.9% and 99.9%, respectively, for samples prepared with NaNO3 and Sheather's sugar solutions. Diagnostic specificity for strongyles was 91.4% and 99.9%, respectively, for samples prepared with NaNO3 and Sheather's sugar solutions. Specificity for Parascaris spp. was 93.6% and 99.9%, respectively, for samples prepared with NaNO3 and Sheather's sugar solutions. Lin's concordance correlation coefficients for VETSCAN IMAGYST eggs per gram counts versus those determined by the expert parasitologist were 0.924-0.978 for strongyles and 0.944-0.955 for Parascaris spp., depending on the flotation solution. Sensitivity and specificity results for detecting strongyles and Parascaris spp. in equine fecal samples showed that Vetscan Imagyst can consistently provide diagnostic accuracy equivalent to manual evaluations by skilled parasitologists. As an automated method driven by a deep learning AI algorithm, VETSCAN IMAGYST has the potential to avoid variations in analyst characteristics, thus providing more consistent results in a timely manner, in either clinical or laboratory settings.

The evaluation of the Theraputic Effect of Aqueous Extract of Aloe Vera on Entamoeba histolytica in Vivo

Ameobiasis caused by Entameoba spp. It is a zoonotic disease that is the most prevalent. Thus, the study was conducted to evaluate the anti-ameobiasis efficacy of aqueous Aloe vera extracts in comparison with metronidazole in laboratory mice. Stool samples were collected from patients attending in Al-karamah teching Hospital suffering from diarrhea from November 1, 2022 to February 29, 2023, and 15samples were examined for both sexes microscopic by using the lugols iodine Stain to detect infected the parasite's cysts , Isolation and purification by flotation with normal solution and preserved in potassium dichromate for the purpose of using it in causing infection in laboratory mice. The experimental study was conducted on groups of 35 mice by oral administration of parasite cysts within the range of 95 cyst / ml except for the negative control group that was drenched with physiological saline. The feces of mice inoculated with cysts of parasites were microscopically examined using the modified lugols iodine Stain, After the mice were divided into seven groups with the uninfected and untreated group kept as a healthy negative control. The first group which included 21 mice was treated after it was divided into three subgroups A, B, C for each secondary group 7 mice they were treated with aqueous extract of A.vera at different concentrations 50, 100, 150 mg/ml on the respectively, while the second group which included 21 mice on three groups A, B, and C was treated with aqueous extract of A.vera at the previous concentrations for three consecutive days for each concentration. The third group was treated with metronidazole at a concentration of mg/ ml, and the positive control group remained infected with the parasite and was not treated. After treatment a microscopic examination was performed by evaluating the excretion average of parasite cysts using a hematocytometer slide. There was a decrease in the shedding of fecal cysts in the groups treated with aqueous extract at different concentrations, reaching a complete stop when treating with the highest concentrations at the end of the treatment period. Where, the average of shedding of fecal parasite cysts of groups of mice at concentrations 50, 100, 150 mg/ml reached 18.20, 0.200, 0 cyst/ml respectively. while the avrage of shedding of cysts in the group treated with metronidazole reached 60.20 cyst/ml in comparison with the infected positive control group in which the number of cysts continued to increase to 14.863 cyst/ml at the end of the treatment period. The results of the therapeutic efficacy of A.vera extract showed percentages of 82%, 90%, 100% for the aqueous extract at concentrations 50, 100, 150 mg/ml, respectively, while the therapeutic efficacy of metranidazol reached 84% at the end of the treatment period

Study of fecal elimination parasites and associated risk factors in sheep

Study of fecal elimination parasites and associated risk factors in sheep

Meta-analysis of the Cetacea gut microbiome: Diversity, co-evolution, and interaction with the anthropogenic pathobiome

Despite their critical roles in marine ecosystems, only few studies have addressed the gut microbiome (GM) of cetaceans in a comprehensive way. Being long-living apex predators with a carnivorous diet but evolved from herbivorous ancestors, cetaceans are an ideal model for studying GM-host evolutionary drivers of symbiosis and represent a valuable proxy of overall marine ecosystem health. Here, we investigated the GM of eight different cetacean species, including both Odontocetes (toothed whales) and Mysticetes (baleen whales), by means of 16S rRNA-targeted amplicon sequencing. We collected faecal samples from free-ranging cetaceans circulating within the Pelagos Sanctuary (North-western Mediterranean Sea) and we also included publicly available cetacean gut microbiome sequences. Overall, we show a clear GM trajectory related to host phylogeny and taxonomy (i.e., phylosymbiosis), with remarkable GM variations which may reflect adaptations to different diets between baleen and toothed whales. While most samples were found to be infected by protozoan parasites of potential anthropic origin, we report that this phenomenon did not lead to severe GM dysbiosis. This study underlines the importance of both host phylogeny and diet in shaping the GM of cetaceans, highlighting the role of neutral processes as well as environmental factors in the establishment of this GM-host symbiosis. Furthermore, the presence of potentially human-derived protozoan parasites in faeces of free-ranging cetaceans emphasizes the importance of these animals as bioindicators of anthropic impact on marine ecosystems.

IDENTIFICATION OF PARASITES FROM POULTRY FAECES BY WET MOUNT METHOD AND CONCENTRATION TECHNIQUES

Background: Poultry faeces may contain many harmful parasites, which may pose significant health risks to the consumer. These parasites may then be transmitted to man by contaminated soil, drinking water supply or by mechanical vectors like flies and rodents. This is a neglected area of public health and deserves more scientific attention. We explored Scientific literature and also assessed our findings. Methods: One hundred (100) poultry faeces samples were assessed for viewing parasites by wet mount method. A concentration technique was performed in saturated saline solution, followed by slide preparation and microscopic identification. Results: In our experiment, coccidian oocysts, Entamoeba oocysts and rarely some Giardia oocysts, larvae of Strongyloides spp. and trematode eggs were found. Conclusion: Keeping in view the public health importance of parasites in poultry faeces, open poultry shops should be cleaned and properly sanitized to mitigate health risks to humans and also the environment.

Evaluation of current practices for dogs engaged in assistance and therapy support programs within Australia

Evaluation of current practices for dogs engaged in assistance and therapy support programs within Australia

Exploring the potential of phenolic and antioxidant compounds identified and quantified of Caesalpinia coriaria fruits and their impacts on lambs’ performance and health

Abstract This study aimed to assess the impact of the identified phenolic, flavonoid, and fat-soluble vitamin compounds found in Caesalpinia coriaria fruits (EC) aqueous extract on growth performance, helminth parasitic load, feeding behavior, and physiological variables in lambs. The fruits were extracted using water, and three doses of the extract as no extract (EC0 mL/lamb/day), 30 mL of aqueous extract of Caesalpinia coriaria fruits (EC30 mL/lamb/day), or 60 mL of aqueous extract of Caesalpinia coriaria fruits (EC60 mL/lamb/day) were orally administered to 24 growing crossbred lambs weighing 18-20 kg for 60 days. The HPLC analysis revealed that ferulic acid, ellagic acid, syringic acid, quercetin, and hesperidin were the predominant compounds in Caesalpinia coriaria fruits. Additionally, water-soluble vitamin compounds such as thiamine, pantothenic acid, and niacin were detected in the Caesalpinia coriaria fruit extract. The dietary administration of EC improved (P < 0.05) average daily gain and feed and water intake. EC30 lambs spent more time (P < 0.03) eating and less time ruminating. The aqueous extract also showed a dose-dependent reduction (P = 0.048) in fecal parasite egg count, with a steady decrease (P = 0.0001) as the extract was applied. EC0 lambs exhibited the highest (P < 0.0001) respiratory frequency and EC30 the lowest. A strong positive correlation was identified between rectal and abdomen temperature in the morning and afternoon measurements. The presence of phenolic and antioxidants in the aqueous extract of C. coriaria, up to 60 mL, demonstrated beneficial effects, including improved productivity, anti-parasitic activity, and mitigation of body temperature. Thus, farmers without access to synthetic drugs can use this plant extract to treat their animals during fattening to reduce gastrointestinal parasites, improve growth rate, and reduce drug residue in animal products. Further studies need to be carried out on the individual components of Caesalpinia coriaria fruits to ascertain their effect on body temperature/physiology and to know if the effects are individualistic or synergistic.

Detection of Parasites in the Field: The Ever-Innovating CRISPR/Cas12a.

The rapid and accurate identification of parasites is crucial for prompt therapeutic intervention in parasitosis and effective epidemiological surveillance. For accurate and effective clinical diagnosis, it is imperative to develop a nucleic-acid-based diagnostic tool that combines the sensitivity and specificity of nucleic acid amplification tests (NAATs) with the speed, cost-effectiveness, and convenience of isothermal amplification methods. A new nucleic acid detection method, utilizing the clustered regularly interspaced short palindromic repeats (CRISPR)-associated (Cas) nuclease, holds promise in point-of-care testing (POCT). CRISPR/Cas12a is presently employed for the detection of Plasmodium falciparum, Toxoplasma gondii, Schistosoma haematobium, and other parasites in blood, urine, or feces. Compared to traditional assays, the CRISPR assay has demonstrated notable advantages, including comparable sensitivity and specificity, simple observation of reaction results, easy and stable transportation conditions, and low equipment dependence. However, a common issue arises as both amplification and cis-cleavage compete in one-pot assays, leading to an extended reaction time. The use of suboptimal crRNA, light-activated crRNA, and spatial separation can potentially weaken or entirely eliminate the competition between amplification and cis-cleavage. This could lead to enhanced sensitivity and reduced reaction times in one-pot assays. Nevertheless, higher costs and complex pre-test genome extraction have hindered the popularization of CRISPR/Cas12a in POCT.

Alternativa para el incremento de la actividad enzimática y liberación de azúcares en residuos sólidos orgánicos durante un proceso de degradación aerobia

The impact of inoculum (mature compost) was assessed in an aerobic system for the rapid degradation of organic solid waste, with a focus on the release of reducing sugars. Isothermal (35 and 55 °C) and non-isothermal (35-55 °C) treatments were conducted. Key indicators, including the rate of oxygen consumption (O2) and carbon dioxide production (CO2), were measured to assess microbial activity. Additionally, the concentration of reducing sugars, pH, enzymatic activity, and the presence of pathogens were evaluated. Treatments with inoculum at 35 °C and without inoculum at 55 °C exhibited an increase in oxygen consumption and CO2 production, indicating heightened microbial activity and, consequently, greater mineralization of organic matter. The treatment without inoculum at 35-55 °C presented the highest concentration of reducing sugars (160 mg/g dry weight), suggesting its potential as a pretreatment for bioconversion processes aimed at generating value-added products. At a temperature of 55 °C, there was a reduction of 84.4, 87.28, and 67.33 % in the concentrations of fecal coliforms, Escherichia coli, and parasites, respectively. This result suggests that elevated temperature contributes to the effectiveness of pathogen elimination.

Diversity, prevalence and risk factors associated to gastrointestinal tract parasites in wild and domestic animals from Pakistan.

The gastrointestinal tract (GIT) of animals contains various helminth parasites, responsible for subclinical and clinical parasitism. The health situation of animals is seriously affected by these parasites and leads massive financial losses for the livestock trade. The present study was conducted to determine the prevalence and associated risk factors of GIT parasites in small and large ruminants of Mardan district and zoo animals of Golden Life Safari Park Khyber Pakhtunkhwa. A total of 419 fecal samples were collected including 117 from goats, 110 from cattle, 80 from sheep, 66 from buffaloes, 40 from birds, four from deer, and two from leopards. The fecal samples were subjected to sedimentation and floatation to identify parasite eggs. Of a total of 419 fecal samples, 215 (51.31%) were found positive for GIT parasites eggs. The prevalence of GIT parasites was high in sheep (65%), followed by goats (62.39%), cattle (42.70%), and buffaloes (37.87%). In birds, GIT parasite eggs were identified in 11 (45.83%) and 7 (43.75%) fecal samples of Pheasant and Peacock, respectively. However, an absence of infection was noted in fecal samples from deer and leopards. Eggs of GIT Parasites belonging to one superfamily and four different genera were recognized in fecal samples of domestic animals and buffaloes, which were Trichostrongyloidea (19.81%), Strongyloides (9.31%), Trichuris (7.77%), Monezia (6.44%), and Fasciola (4.53%). For bird, the coccidia group comprises the highest representation of parasites (2.63%), followed by the Trichuris genus (1.67%). Settlement, management system, anthelminthic medications and body condition score were significantly associated with the occurrence of GIT parasites in feces (P < 0.05). Animals from rural settlements, rearing under poor management systems, with thin (poor) body condition and under warmed were more affected by GIT parasites. The diversity and the high prevalence of GIT parasites reported in this study highlights the urgent need for intervention through treatment and modification of management practices in the investigated areas of Pakistan.

Zoonotic Parasites in Artiodactyls with Emphasis on the Feral Boar in the Atlantic Forest, State of Rio de Janeiro, Brazil

Background: The purpose of this study was to identify the species of artiodactyl host related to the fecal matter collected in a forest area in Rio de Janeiro state and carry out a parasitological investigation. Methods: Artiodactyl feces were collected between 2020 and 2021. The fecal samples were examined to identify the host through macroscopic and molecular analysis. The remaining samples were subjected to a fecal parasite analysis using microscopic techniques, and feces containing cysts of the phylum Ciliophora underwent a molecular analysis. Results: Of the 101 samples collected, 71.3% were found in Pavão Valley, the most anthropized area of the park. In the molecular analysis, 79 samples were identified as belonging to Sus scrofa and 2 as Mazama gouazoubira. The most frequently detected forms were cysts of the phylum Ciliophora (39.6%), followed by eggs of Ascaris spp. (11.8%) and Metastrongylus spp. (5.9%). Nucleotide sequences of Balantioides coli were characterized in 26 samples, and in 13 samples variants of type B0 and in 11 type A0 were identified. Conclusions: It should be noted that this is the first study in the Americas that has identified B. coli in free-living S. scrofa feces, citing this bioinvader as one of the reservoirs of this parasite.

Evaluation of the seroprevalence and the demographic and clinical findings of fascioliasis patients in the Dicle River Basin in Turkey: a nine-year experience at a university hospital.

Fasciola hepatica and Fasciola gigantica are liver trematodes that cause fascioliasis in humans and animals. In Turkey, the medical importance of fascioliasis has been increasing in humans, and it continues to cause great economic loss in the field of animal husbandry. Therefore, it is important to diagnose fascioliasis quickly and reliably. The aim of this study is to show that the ELISA test is a reliable and specific method for diagnosing fascioliasis both in the early stage and in the acute stage. In this study, 640 individuals aged 7-75 years who showed one or more symptoms of fascioliasis, such as abdominal pain, fever, weight loss, weakness, fatigue, headache, sweating, nausea, vomiting, allergic urticaria, liver mass, hypereosinophilia, or liver enzyme elevation, were recruited from the Dicle University Research and Application Hospital in southeastern Turkey. Serum and fecal samples were taken from them to investigate if the Fasciola hepatica IgG antibody was present in the serum and if eggs were present in the feces. To detect the IgG antibodies, an enzyme-linked immunosorbent assay (ELISA) kit was used. The stool samples were analyzed for three consecutive days in mini Parasep fecal parasite concentrator tubes using the native-lugol and sedimentation methods. Abdominal ultrasonography and computed tomography were performed in all the patients. Among the subjects of this study, 90 (14%) were positive for fascioliasis, of whom 85 (94.4%) were adults and 5 (5.5%), children; 73 (81.1%) were women and 17 (18.8%), men; 57 (63.3%) lived in the rural areas and 33 (36.6%), in the city center; 90 (14%) were positive for Fasciola hepatica IgG antibodies; (20%) had helminth eggs in their stools; and 85 (94.4%) had a history of eating watercress. According to the epidemiological classification for fascioliasis by Mas-Coma, the Dicle Basin, which is the setting of this study, is indeed a hyperendemic region. Thus, ELISA is a reliable and specific method of diagnosing fascioliasis, both in the early phase and in the acute phase, when the eggs are no longer seen in the stool.

Social behavior impacts parasite infection risk in equid groups

Among the various costs of gregarious behaviors, proximity highly contributes to facilitating parasite transmission. However, the intensity of parasite infection varies between individuals of a social group. It is then of high interest to identify the causes of such inequality for parasite management. In this study, we investigated the impact of individual social behaviors on parasite distribution in the largest European group of captive plains zebras (Equus quagga boehmi) and the consequences of anthelmintic treatment. For six months, 22 plains zebras were kept in a safari enclosure and observed for 10 minutes each by focal sampling for a total of 44 days over three months. Strongyle and coccidia individual infections were estimated monthly with a commercial OVATEC® Plus fecal analysis kit provided to veterinarians for fecal egg/oocyst count. Then, we used GLMM models with age, sex and time until or since anthelmintic treatment as fixed factors and with social factors (degree of connection and dominance) as predictors of individual variation in fecal parasite eggs and oocyst shedding. The social structure observed in captive plains zebras is comparable to that of wild plains zebras and horses. Before treatment, females were more infected than males. Then, we observed an increase in coccidia infection after anthelmintic treatment, and approximately 20% of zebras carried 70% of the total strongyle infection. Dominance, and degree were strong predictors of an individual’s strongyle infection intensity after anthelmintic treatment. Further investigation is needed to identify new treatment strategies based on social behaviors and to improve anthelmintics administration in large groups of equids.

Comparative study of a broad qPCR panel and centrifugal flotation for detection of gastrointestinal parasites in fecal samples from dogs and cats in the United States

BackgroundFor decades, zinc sulfate centrifugal fecal flotation microscopy (ZCF) has been the mainstay technique for gastrointestinal (GI) parasite screening at veterinary clinics and laboratories. Elsewhere, PCR has replaced microscopy because of generally increased sensitivity and detection capabilities; however, until recently it has been unavailable commercially. Therefore, the primary aim of this study was to compare the performance of real-time PCR (qPCR) and ZCF for fecal parasite screening. Secondary aims included further characterization of markers for hookworm treatment resistance and Giardia spp. assemblages with zoonotic potential and qPCR optimization.MethodsA convenience sampling of 931 canine/feline fecal samples submitted to a veterinary reference laboratory for routine ZCF from the Northeast US (11/2022) was subsequently evaluated by a broad qPCR panel following retention release. Detection frequency and agreement (kappa statistics) were evaluated between ZCF and qPCR for seven GI parasites [hookworm/(Ancylostoma spp.), roundworm/(Toxocara spp.), whipworm/(Trichuris spp.), Giardiaduodenalis, Cystoisospora spp., Toxoplasmagondii, and Tritrichomonasblagburni] and detections per sample. Total detection frequencies were compared using a paired t-test; positive sample and co-infection frequencies were compared using Pearson’s chi-squared test (p ≤ 0.05 significant) and qPCR frequency for hookworm benzimidazole (BZ) resistance (F167Y) and zoonotic Giardia spp. assemblage markers calculated. Confirmatory testing, characterization, and qPCR optimization were carried out with Sanger sequencing.ResultsqPCR detected a significantly higher overall parasite frequency (n = 679) compared to ZCF (n = 437) [p = < 0.0001, t = 14.38, degrees-of-freedom (df) = 930] and 2.6 × the co-infections [qPCR (n = 172) vs. ZCF (n = 66)], which was also significant (p = < 0.0001, X2 = 279.49; df = 1). While overall agreement of parasite detection was substantial [kappa = 0.74; (0.69–0.78], ZCF-undetected parasites reduced agreement for individual and co-infected samples. qPCR detected markers for Ancylostomacaninum BZ resistance (n = 5, 16.1%) and Giardia with zoonotic potential (n = 22, 9.1%) as well as two parasites undetected by ZCF (T.gondii/T.blagburni). Sanger sequencing detected novel roundworm species, and qPCR optimization provided detection beyond ZCF.ConclusionsThese results demonstrate the statistically significant detection frequency advantage offered by qPCR compared to routine ZCF for both single and co-infections. While overall agreement was excellent, this rapid, commercially available qPCR panel offers benefits beyond ZCF with detection of markers for Giardia assemblages with zoonotic potential and hookworm (A.caninum) BZ resistance.Graphical

Comparison of deworming strategies for pre-weaned beef calves

While anthelmintic treatment in young calves at first vaccination has not proven repeatedly effective in improving weight gain, there is evidence that treatment 90 day prior to weaning can enhance weight gain. This is difficult in most California cow/calf operations as after initial vaccination, calves are not again handled until preconditioning just prior to weaning. In an attempt to increase weight gain without the need for anthelmintic retreatment prior to preconditioning, 130 cow/calf pairs were stratified and assigned to three treatments of eprinomectin extended release injection (150 d efficacy), doramectin conventional injection, and an untreated control. Dams and calves received the same treatment. All treatments were commingled on irrigated pasture in Northern California. Sampling included weight (d 0, 75, and 145), fecal parasite (d 0, 14, 75, and 145), cow body condition score (d 0, 75, and 145), and cow pregnancy detection (days bred). Calf weight gain was not impacted by anthelmintic treatment (P = 0.44). However, cow weight gain was impacted by treatment (P < 0.01), with eprinomectin extended release showing higher weight gain than both doramectin conventional and the control (ADG kg 0.29, 0.23, 0.22, respectively). Cow weight gain differences were expressed greater toward the end of the trial than early on. Fecal egg count sampling failed to explain the difference in cow weight gain. Cow body condition score (P = 0.15) and days bred (P = 0.50) were not significantly affected by treatment. Although cow weight gain increased with an extended release anthelmintic treatment, this effect did not seem to be evident in suckling calves on high quality irrigated pastures in Northern California when compared to a conventional injectable and control treatments. Neither anthelmintic treatment appeared beneficial over a control when administered to suckling calves during initial vaccination at approximately 90 days of age.

Fecal microbiota of the synanthropic golden jackal (Canis aureus)

The golden jackal (Canis aureus), is a medium canid carnivore widespread throughout the Mediterranean region and expanding into Europe. This species thrives near human settlements and is implicated in zoonoses such as rabies. This study explores for the first time, the golden jackal fecal microbiota. We analyzed 111 fecal samples of wild golden jackals using 16S rRNA amplicon sequencing the connection of the microbiome to animal characteristics, burden of pathogens and geographic and climate characteristics. We further compared the fecal microbiota of the golden jackal to the black-backed jackal and domestic dog. We found that the golden jackal fecal microbiota is dominated by the phyla Bacteroidota, Fusobacteriota and Firmicutes. The golden jackal fecal microbiota was associated with different variables, including geographic region, age-class, exposure to rabies oral vaccine, fecal parasites and toxoplasmosis. A remarkable variation in the relative abundance of different taxa was also found associated with different variables, such as age-class. Linear discriminant analysis effect size (LEfSe) analysis found abundance of specific taxons in each region, Megasphaera genus in group 1, Megamonas genus in group 2 and Bacteroides coprocola species in group 3. We also found a different composition between the fecal microbiota of the golden jackal, blacked-backed jackal and the domestic dog. Furthermore, LEfSe analysis found abundance of Fusobacterium and Bacteroides genera in the golden jackal, Clostridia class in blacked-backed jackal and Megamonas genus in domestic dog. The golden jackal fecal microbiota is influenced by multiple factors including host traits and pathogen burden. The characterization of the microbiota of this thriving species may aid in mapping its spread and proximity to human settlements. Moreover, understanding the jackal microbiota could inform the study of potential animal and human health risks and inform control measures.

Diversity of fecal parasitomes of wild carnivores inhabiting Korea, including zoonotic parasites and parasites of their prey animals, as revealed by 18S rRNA gene sequencing.

Consisting of diverse groups of organisms, parasites are among the least studied pathogens despite their enormous impacts on humans, livestock, and wildlife. In particular, little is known about their host specificity and diversity in wildlife. Here, using multiple primer pairs and sequencing 18S rRNA genes of diverse groups of parasites, we aimed to investigate fecal parasitomes of carnivorous wildlife in Korea, namely, the raccoon dog (Nyctereutes procyonoides), the leopard cat (Prionailurus bengalensis), and the Eurasian otter (Lutra lutra). A total of 5 host-specific parasite species were identified, including 2 from raccoon dogs, 2 from leopard cats, and 1 from Eurasian otters. In addition, numerous parasite species of their prey animals were detected in their feces. It was found that the parasitome composition varied between host animals, and it was thought that the difference was attributed to the difference in prey animals, as numerous small mammal parasites were detected from feces of leopard cats inhabiting inland areas and fish parasites from feces of Eurasian otters and raccoon dogs inhabiting waterside areas. Furthermore, 5 zoonotic parasites known to infect humans were identified at the species level. Wildlife-associated zoonoses are expected to increase as the proximity between humans and wildlife increases due to urbanization. Vigilance may be necessary, such as by monitoring parasites in wildlife feces, as was done in this study.

Survey on the quality of outlet biosolids and sludge heavy metals in the wastewater treatment plants of Mazandaran province

Background: Sewage sludge is rich in fecal coliforms, Salmonella, parasite eggs, and heavy metals that can cause disease in humans. The aim of this study was to evaluate the quality of outlet biosolids and sludge heavy metals in the wastewater treatment plants (WWTP) in Mazandaran province and to compare them with the Environmental Protection Agency (EPA) standards. Methods: This study was carried out on the sludge of the treatment plants of Sari, Joybar, Babol, Babolsar, Nowshahr, and Nowshahr-Chalus sludge compost plants. In this study, physical, chemical, and biological properties of sludge samples including retention time, pH, total solids (TS), color, heavy metals (copper, zinc, nickel, cadmium, and chromium) as well as the density of fecal coliform, Salmonella and parasite eggs were determined and reported. Results: Biosolids of Joybar, Babol, Babolsar, and Nowshahr-Chalus WWTP in terms of parasite eggs were in class A. Biosolids of Sari WWTP in summer after drying off naturally were located in Class A, and in summer and spring, were located in Class B based on the US EPA criteria. The average concentration of heavy metals (copper, zinc, nickel, cadmium, and chromium) was lower than the EPA standard. Conclusion: The results showed that mostly the treated sewage sludge in Mazandaran WWTPs were in Class B of the EPA guideline. The concentration of heavy metals in the biosolids of these WWTPs is lower than the EPA regulation and the use of these biosolids in agriculture is not limited for these metals.

BI27 Strongyloides stercoralis screening in dermatology

Abstract Strongyloidiasis is a major neglected tropical disease and chronic parasitic infection caused by Strongyloides stercoralis. An estimated 30–100 million people are infected worldwide, with acquisition via contact with contaminated soil. Accurate data for the UK are unavailable, but there is a prevalence of &amp;gt; 20% in certain immigrant populations. Many cases are asymptomatic; without therapy, the infection may be lifelong. Testing is more common in dermatology since the advent of dupilumab as infection can be life-threatening in the immunocompromised. Symptoms reported with strongyloidiasis include not only pruritus and urticaria but also abdominal and respiratory issues. Standard diagnostic testing of strongyloidiasis relies on demonstration of the parasite in faeces, body fluids or tissue samples, although serology is most often used in dermatology. The aim of our study was to assess why dermatologists are ordering Strongyloides serology and whether the results could identify features of infection. All Strongyloides serology tests sent by dermatology from two centres from January 2021 to December 2022 were analysed. Data collected included demographics, reason for testing, symptoms, foreign travel, test results and treatment. In total, 187 tests were sent. Patient demographics are provided in Table 1. The reasons for testing were before starting dupilumab in 57.2% (n = 107), pruritus in 13.4% (n = 25) and urticaria in 3.2% (n = 6/187). There was a recorded history of other symptoms of strongyloidiasis in five patients, and a recorded history of foreign travel in four. Twelve per cent of results were positive (n = 23/187), 6.9% (n = 13) were borderline and 80.7% (n = 151) were negative. There was no major skew toward a reason for testing in those who were positive/borderline. Eight per cent (n = 3/36) of those with positive/borderline results had other recorded symptoms. Of the positive/borderline results, 31% (n = 11/36) were not treated (mostly because they did not go on to have immunosuppression), 28% (n = 10) were treated with a single dose of ivermectin, 31% (n = 11) with two doses and 8% (n = 3) with four doses. The main reason for Strongyloides testing in dermatology is before starting dupilumab. A low proportion of the patients with positive/borderline results had symptoms, although often this was not recorded. A higher proportion of individuals of Asian or African ancestry had positive/borderline results. We shall also discuss evidence behind the methods of and reasons for Strongyloides testing.Table 1Patient demographicsDemographicAll tests (n = 187)Positive/borderline tests (n = 36)Male115 (61.5)22 (61)Female72 (38.5)14 (39)White52 (27.8)5 (14)Asian95 (50.8)22 (61)Black21 (11.2)5 (14)Other/not stated19 (10.2)5 (14)Data are presented as n (%).