Search Results (729)

Background: Genus Dirofilaria consists of 27 species of parasitic nematodes, 7 of which have been reported to cause disease in humans. The transmission of the parasitic larva to humans and other mammals occurs through the bite of an infected mosquito, which, in this case, in addition to being the intermediate host, acts also as a disease transmission vector. The initial diagnosis of a patient with dirofilariasis is almost always incorrect, and in a large number of cases, the final diagnosis is only achieved retrospectively, thanks to the findings of the histopathological examination. Therefore, the purpose of the present review is to collect, analyze, summarize and present the relevant epidemiological, clinical, diagnostic, parasitological, therapeutic and prognostic data concerning the aforementioned localization of dirofilariasis in a systematic manner. Methods: An electronic search was performed in PubMed, the Scopus and Ovid databases and in Google Scholar, with them being accessed for the last time on 2 August 2025. This was followed by a manual search, and references were used to identify relevant articles. Results: The present review retrieved 32 publications discussing 43 cases of human intraoral dirofilariasis. As per the study design, the records were published in 2015–2025, and the cases presented by them were observed in 1951–2024. Conclusions: The aim of the present review is to summarize the relevant epidemiological, clinical, diagnostic, parasitological, therapeutic and prognostic data regarding the oral localization of dirofilariasis, a zoonotic helminthiasis which is transmitted by mosquitoes. Even though its manifestation in the oral cavity appears to be extremely rare, dentists and other clinicians should be familiar with this entity and should include it in the differential diagnosis of any solitary nodule with submucous localization, especially in patients living in endemic regions or who have a history of recent travel to an endemic region. Climate change on the one hand and the increase in international travel on the other are estimated to make dirofilariasis more common in countries from which it used to be absent. Full article

The chemical composition of leaf essential oil of the harmful invasive species Chromolaena odorata collected in Vietnam was analyzed by GC/MS and chiral GC. All three essential oil samples (O1, O2 and O3) in this study fell into chemotype I characterized by α-pinene/geigerene/germacrene D/(E)-β-caryophyllene from a total of six different chemotypes. Chemotype I demonstrated larvicidal effects against Aedes aegypti (Linnaeus, 1762), Aedes albopictus Aedes albopictus (Skuse, 1894), Culex fuscocephala (Theobald, 1907) and Culex quinquefasciatus (Say, 1823), with 24 h LC₅₀ values ranging from 11.73 to 69.87 µg/mL. In contrast, its microemulsion formulation exhibited enhanced toxicity, yielding 24 h LC₅₀ values between 11.16 and 32.43 µg/mL. This chemotype also showed repellent efficacy against Ae. aegypti, with protection times ranging from 70.75 to 122.7 min. Fumigant toxicity was observed against Aedes aegypti, with LC₅₀ values of 40.27% at 0.5 h and 0.34% at 24 h. Molluscicidal activity was recorded with 48 h LC₅₀ values between 3.82 and 54.38 µg/mL against Indoplanorbis exustus (Deshayes, 1833), Pomacea canaliculate (Lamarck, 1822), Physa acuta (Draparnaud, 1805). Additionally, the chemotype exhibited acetylcholinesterase inhibitory activity, with an IC₅₀ value of 70.85 µg/mL. Antimicrobial potential was also demonstrated, with MIC values ranging from 2.0 to 128.0 µg/mL against Enterococcus faecalis, Staphylococcus aureus, Bacillus cereus, Escherichia coli, Salmonella enterica, and Candida albicans. The C. odorata essential oil can be considered as a potential bioresource for human health protection strategies. Full article

Sarcocystis is a genus of heteroxenous, globally distributed coccidian parasites. Limited research has been conducted on the natural infection of Sarcocystis in rodents in the Middle East. In this study, the Libyan jird (Meriones libycus) was identified as the natural intermediate host of the new species Sarcocystis meriones, based on morphological and molecular data. Microscopic sarcocysts were detected in the thigh muscles of 8.5% (4/47) of Libyan jirds captured from a semi-desert area in Amghara, Eastern Kuwait. Under the light microscope, sarcocysts were filamentous with blunt ends and thin walls, measuring 1550 × 89 µm. Transmission electron microscopy analysis showed the densely packed protrusions measure 1.2 × 0.5 µm and resemble thuja or a cylinder and having lateral microvilli, while the ground substance layer was 0.5–0.6 µm thick and type 22-like. Based on four genetic loci (18S rRNA, 28S rRNA, ITS1, and cox1), S. meriones was genetically most similar to S. myodes and S. ratti, infecting voles and mice of the genus Apodemus and black rats (Rattus rattus), respectively. Phylogenetic results suggest predatory mammals as potential definitive hosts of S. meriones. Further studies are needed to reveal host specificity, geographical distribution, and the impact of the parasite on the host’s health of the newly described Sarcocystis species. Full article

Mobile genetic elements such as integrons are key drivers of microbial evolution, enabling rapid adaptation to environmental pressures through the acquisition and rearrangement of gene cassettes. In this study, we explored the structural diversity and synteny of class 1 integrons (intI1) across a set of agroecosystem-related environments, including digestate, compost, and rhizosphere soils from wheat crops (Triticum durum and T. aestivum). Our results reveal distinct gene cassette architectures shaped by the origin of the samples: digestate harbored the most diverse and complex arrays, while compost displayed streamlined structures. Rhizosphere soils exhibited intermediate configurations, reflecting a dynamic balance between environmental exposure and host influence. Genes associated with resistance to antibiotics and heavy metals, such as qacEΔ1 and ebrA, were differentially distributed, suggesting site-specific selective pressures. The observed patterns of cassette organization and diversity underscore the role of integron synteny as a molecular fingerprint of microbial adaptation. These findings position class 1 integrons as promising bioindicators of soil health and functional resilience, supporting a One Health approach to sustainable agriculture and microbial risk monitoring. Full article

COVID-19 is the most widespread emerging infectious disease in humans, recently caused by the SARS-CoV-2 virus. Understanding the pathogenesis and development of efficient vaccines is crucial for the prevention and control of this emerging disease. SARS-CoV-2 viruses have widespread hosts, including humans, domesticated/companion animals (cats, dogs), specific farmed animals (minks), specific wildlife (white-tailed deer), and laboratory animal models. Bats are considered the original reservoir, and pangolins may be important intermediate hosts. Suitable animal models play an important role in studying the pathogenicity and evaluation of vaccines and antiviral drugs during the preclinical stage. In this review, we summarized the animal models and potential animal models for the research of SARS-CoV-2 pathogenesis, vaccine and antiviral drugs development, including transgenic mice, cats, hamsters, nonhuman primates, ferrets, and so on. Our summary provides the important information to select the animals used for a specific purpose and facilitates the development of novel vaccines and antivirals to prevent and control COVID-19. Full article

Background: While the Mediterranean diet is well-established for its health benefits, the specific influence of organic versus conventional food sources within this pattern remains underexplored at the systemic metabolic level. Objective: This study investigated the metabolic effects of two matched Mediterranean diets, one based on organically produced foods (IMOD) and the other on conventionally produced equivalents (IMNOD), to assess the impact of food production methods on host metabolism and immune-inflammatory balance. Methods: Twelve healthy adults completed a crossover dietary intervention including IMOD and IMNOD phases. Urinary metabolite profiles were assessed via ¹H-NMR spectroscopy across 42 compounds. Multivariate and univariate analyses evaluated metabolic responses. Results: Both interventions normalized some out-of-range urinary metabolites. However, IMOD elicited broader and more significant changes, including increased levels of tricarboxylic acid (TCA) intermediates (e.g., isocitrate, trans-aconitate), plant-derived metabolites (e.g., trigonelline), and host–microbiota co-metabolites (e.g., N-phenylacetylglutamine, 1-methylnicotinamide). Simultaneously, fermentation-associated and xenobiotic-linked metabolites such as formate, acetate, and 2-furoylglycine decreased. These shifts collectively represent a beneficial modulation of the Microbiota–Immune–Inflammation Axis (MIIA effect). Conclusions: Organic food consumption within a Mediterranean framework promotes host–microbiota metabolic interplay and enhances immune-supportive biochemical pathways. The findings provide new mechanistic insight into how food production quality contributes to systemic metabolic health and support broader efforts to make organic foods more accessible. Full article

An examination of 360 feral cats originating from three major habitats in the Dubai Emirate between 2002 and 2024 revealed the presence of 14 helminths, as follows: Joyeuxiella pasqualei, Joyeuxiella gervaisi, Diplopylidium nölleri, Diplopylidium acanthotetra, Hydatigera taeniaeformis, Taenia hydatigena, Ancylostoma braziliense, Ancylostoma ceylanicum, Ollulanus tricuspis, Toxocara cati, Toxascaris leonina, Pterygodermatites cahirensis, Centrorhynchus aluconis and Macracanthorhynchus catulinus. During the same period, a total of 66 snakes (eight species) and 68 lizards (four species) from different locations in the Dubai Emirate were examined for parasites. The larval stages of the cestode genera Joyeuxiella and Diplopylidium, as well as cystacanths of Centrorhynchus sp. and Macracanthorhynchus sp. and the larval stages of two nematodes were detected. All of the snake species except sand boas, as well as two gecko species, harbored the larval stages of cestodes of the Dipylidiidae family. The high prevalence of Joyeuxiella and Diplopylidium in the cats that originated from the city center of Dubai, where the presence of reptiles can be excluded, suggests that certain arthropods might be involved in the life cycle of these cestodes as first intermediate hosts and that reptiles are paratenic hosts. Full article

SARS-CoV and MERS-CoV are two coronaviruses that have received significant attention due to their high pathogenicity and mortality rates in human populations. In this study, we compared their evolutionary dynamics to provide a One Health perspective on their differences in terms of the results of disease control. The phylogenetic network of SARS-CoVs showed that human isolates gathered into a “super-spreader” cluster and were distinct from civet isolates. In contrast, dromedary camel- and human-isolated MERS-CoVs were clustered together. Thus, most clades of MERS-CoV can infect humans, and MERS-CoVs seem to more easily spill over the animal-to-human interface. Additionally, the civet can be easily controlled, while the intermediate host (dromedary camels) of MERS-CoV is an important livestock species, so it is impossible to eliminate all animals. This further leads to difficulties in disease control in MERS. Although MERS-CoVs are endemic to dromedary camels in both the Middle East and Africa, human infections are mainly linked to the Middle East. The nucleotide sequences of the MERS-CoV receptor gen (dipeptidyl peptidase 4 (DPP4)) from 30 Egyptians, 36 Sudanese, and 34 Saudi Arabians showed little difference. These findings suggest that the observed disparities in MERS prevalence between populations in the Middle East and Africa may be more strongly attributed to inadequate disease surveillance and the limited camel-to-human transmission of clade C MERS-CoV in Africa, rather than variations in DPP4 gene. Full article

As the second most common infectious parasitic disease in the world, schistosomiasis is present in Brazil, mainly in the Northeast and Southeast regions. Currently, the recommended form of prevention is controlling this disease’s intermediate host, mollusks of the Biomphalaria genus, using the chemical molluscicide Bayluscide WP 70^®. This synthetic molluscicide is expensive, has low selectivity for Biomphalaria glabrata species, and is toxic to the environment. In this context, the use of natural products such as molluscicides represents a sustainable control method. The objective of this study was to evaluate the molluscicidal effects of a crude ethanolic extract of the leaves and stems and fractions of the species Myrsine parvifolia on the mollusk Biomphalaria glabrata. Methods: The methodology was adapted from standards defined by the World Health Organization (WHO), where the molluscicidal activity of Myrsine parvifolia was investigated as an alternative for the population control of Biomphalaria glabrata and That’s right. environmental toxicity was evaluated using the Physella sp. The results revealed that the stem ethanolic crude extract exhibited activity after 24 h of exposure, with an LC₅₀ of 207.4 mg/L and an LC₉₀ of 256.2 mg/L. Conclusions: Myrsine parvifolia can be used as a sustainable biological alternative for the population control of Biomphalaria glabrata snails, especially for poor populations and inaccessible regions. Full article

The metastrongyloid nematodes Angiostrongylus vasorum, Aelurostrongylus abstrusus, and Crenosoma vulpis can cause severe cardiopulmonary and respiratory symptoms in domestic dogs and cats and free-ranging canids and felids (e.g., foxes, wolves, wild cats, lynxes). Recent data on the prevalence of A. vasorum infections in dogs and foxes and on the prevalence of Ae. abstrusus and Troglostrongylus brevior infections in free-ranging lynxes and wild cats revealed several endemic and hyperendemic foci in Germany. Nonetheless, long-term investigations on the prevalence of metastrongyloid larvae infecting gastropod intermediate hosts are still scarce for Germany. To fill this gap, we conducted an epidemiological survey on native slugs and snails in a selected meadow close to Obrigheim, previously identified as a hyperendemic focus for canine angiostrongylosis. To re-evaluate this location as a ‘hotspot’ of canine angiostrongylosis, terrestrial slugs and snails (n = 533) were collected in all seasons, artificially digested, and microscopically and molecularly analyzed for the presence of metastrongyloid lungworm larvae. Here, the prevalence ranged greatly between seasons. In summer, 27.46% (59/215) of gastropods were infected with metastrongyloid larvae. In fall, the prevalence dropped to 10.00% (16/160) and lowest infection rates were observed in both winter (5.65%) and spring (1.47%). In total, A. vasorum was detected in 12.01% (64/533), Crenosoma sp. in 0.94% (5/533), and Ae. abstrusus in 0.38% (2/533) of gastropod samples. Even though total A. vasorum infection levels were revealed to be considerably lower than in the prior study, this epidemiological survey in principle reconfirms Obrigheim as a stable hyperendemic focus and thereby as a location with high metastrongyloid infection risk for domestic dogs, cats, and wildlife throughout the year. These results call for continuous epidemiological studies on gastropod populations to better understand metastrongyloid lungworm spread and infection dynamics over the years. Full article

Babesia divergens is a tick-borne apicomplexan parasite that causes human babesiosis, a malaria-like disease. B. divergens metabolism remains poorly characterized. Here, we employed a multiplatform mass spectrometry-based metabolomics approach (using CE-TOF/MS, GC-QTOF/MS, LC-QTOF/MS, and LC-QqQ/MS) to profile intra- and extracellular metabolic changes in B. divergens-infected and uninfected red blood cells (RBCs) and their supernatants. Our results indicate alterations in the metabolome caused by B. divergens infection and proliferation within RBCs. These findings are consistent with the major metabolic dependencies of B. divergens, including extracellular glucose, glutamine, and arginine, accompanied by the accumulation of glycolytic and TCA cycle intermediates. We identified altered nucleotide metabolism, pentose phosphate pathway activity, and redox imbalance. Depletion of lysoglycerophospholipids, glucose, arginine, and glutamine, and accumulation of free heme and sphingolipids suggested pathogenic effects. Growth experiments indicate that glucose and glutamine, but not hypoxanthine, are required for parasite growth. We additionally discovered a phosphorylated HEPES derivative (PEPES) produced upon B. divergens infection of RBCs in vitro. Collectively, these findings and their global interpretation provide insights into B. divergens metabolism and metabolic dependencies and host–parasite metabolic interactions and outline potential directions for future studies on human babesiosis diagnosis, prognosis assessment, and treatment. Full article

The presence of Active Galaxy Nuclei (AGN) can affect the morphological classification of galaxies. This work aims to determine how the contribution of AGN affects the most-used morphological parameters down to the redshift of z ∼ 2 in COSMOS-like conditions. We use a sample of >2000 local non-active galaxies, with a well-known visual morphological classification, and add an AGN as an unresolved component that contributes to the total galaxy flux with 5–75%. We moved all the galaxies to lower magnitudes (higher redshifts) to map the conditions in the COSMOS field, and we measured six morphological parameters. The greatest impact on morphology occurs when considering the combined effect of magnitude, redshift, and AGN, with spiral galaxies being the most affected. In general, all the concentration parameters change significantly if the AGN contribution is >25% and the magnitude > 23. We find that the GINI coefficient is the most stable in terms of AGN and magnitude/redshift, followed by the moment of light (M20), Conselice–Bershady (CCON), and finally the Abraham (CABR) concentration indexes. We find that, when using morphological parameters, the combination of CABR, CCON, and asymmetry is the most effective in classifying active galaxies at high-redshift, followed by a combination of CABR and GINI. Full article

Host genetic variability is relevant to understanding how parasites modulate natural selection in wild fish populations. Coastal lagoons are transitional ecosystems where knowledge lacks on relationships between genotypic diversity with parasitism. The aim of this study was to assess the effect of genetic diversity on host health and parasitological traits in fish inhabiting a Mediterranean lagoon. Black-striped pipefish Syngnathus abaster were collected in August 2023 and 2024 from the Mar Menor (Iberian lagoon, SE Spain). Genetic diversity was measured as Internal Relatedness (IR: a homozygosity index from microsatellite markers). Population frequency was lower for the medium IR level. For this same category, both health indices (external body condition and internal organs) indicated a worse status. Parasite prevalence, abundance and an index of life-cycle complexity (heteroxenous species) were greater for the medium level of genetic diversity. Such results are explained under a scenario of parasite-mediated disruptive selection: a higher disease pressure against the phenotypically intermediate individuals. Two contrasting strategies were detected to better control parasitism at the host genotypic level: (1) high homozygosity, and (2) high heterozygosity, which probably reflects better immuno-competence as a phenotypic trait. From an evolutionary perspective, parasites play a crucial role in shaping genetic diversity within host populations. Full article

Background/Objectives: An increasing number of apparently healthy individuals are adhering to a gluten-free lifestyle without any underlying medical indications, although the evidence for the health benefits in these individuals remains unclear. Although it has already been shown that a low- or gluten-free diet alters the gut microbiota, few studies have examined the effects of this diet on healthy subjects. Therefore, our aim was to evaluate whether and how a prolonged low-gluten diet impacts gut microbiota composition and function in healthy adults, bearing in mind its intimate link to the host’s health. Methods: Forty healthy volunteers habitually consuming a gluten-containing diet (HGD, high-gluten diet) were included in a randomised control trial consisting of two successive 8-week dietary intervention periods on a low-gluten diet (LGD). After each 8-week period, gut microbiota composition was assessed by 16S rRNA gene sequencing, molecular quantification by qPCR, and a cultural approach, while its metabolic capacity was evaluated through measuring faecal fermentative metabolites by ¹H NMR. Results: A prolonged period of LGD for 16 weeks reduced gut microbiota richness and decreased the relative abundance of bacterial species with previously reported potential health benefits such as Akkermansia muciniphila and Bifidobacterium sp. A decrease in certain plant cell wall polysaccharide-degrading species was also observed. While there was no major modification affecting the main short-chain fatty acid profiles, the concentration of the intermediate metabolite, ethanol, was increased in faecal samples. Conclusions: A 16-week LGD significantly altered both composition and metabolic production of the gut microbiota in healthy individuals, towards a more dysbiotic profile previously linked to adverse effects on the host’s health. Therefore, the evaluation of longer-term LDG would consolidate these results and enable a more in-depth examination of its impact on the host’s physiology, immunity, and metabolism. Full article

Cyclopes, the smallest of all known anteaters, has an insectivorous diet and is arboreal, rarely descending to the ground. There are scarce reports on diseases and pathogenic agents affecting this taxon. Hemopathogens are pathogenic agents that inhabit the blood of various vertebrate species. Protozoa such as Trypanosoma spp., Leishmania spp., Hepatozoon spp., and members of the order Piroplasmida, as well as hemoplasmas and Rickettsial bacteria of the genera Anaplasma and Ehrlichia, are among the most important in this group. The transmission of these pathogens generally occurs through arthropod vectors, which act as intermediate hosts. In addition, infections caused by hemopathogens can have adverse effects on host health, contributing to population declines in susceptible species. This study investigated infection by protozoa and hemotropic bacteria in blood samples from free-ranging silky anteaters from Brazil, Peru, and Colombia using molecular detection methods. Sixteen samples were obtained during expeditions conducted in these countries. DNA was extracted from blood samples, and PCR assays were performed to detect parasites from the order Piroplasmida, Hepatozoon spp., trypanosomatid agents including Leishmania spp., Trypanosoma evansi, T. cruzi, and T. vivax, as well as hemotropic bacteria of the genera Ehrlichia, Anaplasma, and Mycoplasma sp. Nucleotide sequencing was performed on positive samples. Of the total samples analyzed, 62.5% (10/16) tested positive for hemotropic Mycoplasma, 50% (8/16) for T. evansi, and 6.2% (1/16) for T. cruzi. There is a significant gap in knowledge regarding the diversity of hemopathogens affecting the genus Cyclopes, and future studies are needed to understand how these infections may impact the health of individuals. Full article