1 ecrease infection rates and morbidity due to
Toxocara.
2 Here we review the salient background on
Toxocara and biology, summarise key aspects of the patho
3 s carried out to determine the prevalence of
Toxocara antibodies in suspected OLM patients and to des
4 Human seroprevalence for
Toxocara antibodies varies with factors such as geograph
5 Parasitic nematodes of the genus
Toxocara are socioeconomically important zoonotic pathog
6 cted of contributing to the dissemination of
Toxocara canis and helping with the parasite survival du
7 m camelid heavy-chain antibodies specific to
Toxocara canis antigens.
8 Toxocara canis dominates research attention, with Toxoca
9 Toxocara canis has a complex lifecycle including larval
10 y when compared with the prominence given to
Toxocara canis in dogs.
11 Toxocara canis is a zoonotic parasite of major socioecon
12 Toxocara canis is better recognized as a cause of human
13 eport a patient who developed CL following a
Toxocara canis parasitism.
14 The nematode
Toxocara canis survives for years in mammalian tissues,
15 Parasitic and infectious diseases (
Toxocara canis, strongyloides, filariasis, cysticercosis
16 Human toxocariasis, caused by
Toxocara canis, T. cati, and T. vitulorum of dogs, cats
17 gration of the larval stage of the roundworm
Toxocara canis.
18 icoides, and the parasitic nematode of dogs,
Toxocara canis.
19 The role of
Toxocara cati as a zoonosis is reviewed.
20 nd molecular analysis by PCR identified only
Toxocara cati in these eggs.
21 Toxocaracanis and
Toxocara cati of dogs and cats, respectively, can cause
22 ara canis dominates research attention, with
Toxocara cati relegated to the periphery.
23 gnized as a cause of human toxocariasis, but
Toxocara cati should not be overlooked.
24 Cryptosporidium, Ancylostoma, Uncinaria, and
Toxocara cati were shed.
25 Each serum sample was subjected to
Toxocara excretory - secretory antigen ELISA (TES - ELIS
26 Here, we present a method to quantify
Toxocara excretory/secretory antigen, aiming to identify
27 To detect specific monoclonal antiparasitic (
Toxocara -
IgG and Toxoplasma gondii IgM and IgG) ELISA
28 This high rate of
Toxocara seropositivity in ocular patients should alert
29 etiologies of eosinophilic meningitis (i.e.,
Toxocara sp. and Gnathostoma sp.) were negative in the R
30 agnosed coinfection with Dirofilaria repens,
Toxocara sp. and Toxoplasma gondii infection.
31 parasitic coinfection cased by Dirofilaria,
Toxocara sp. and Toxoplasma gondii.
32 However, zoonotic helminths, such as
Toxocara species (spp.), have been associated with incre
33 estimated to be exposed to or infected with
Toxocara spp, global epidemiological information on the
34 Among offspring, anti-
Toxocara spp.
35 Serum levels of total IgG4, anti-
Toxocara spp.
36 assay was used to detect antibodies against
Toxocara spp.
37 of parents and 10.3% of offspring, and anti-
Toxocara spp.
38 ectional officers were seropositive for anti-
Toxocara spp.
39 We describe the prevalence of
Toxocara spp. and Ascaris spp. seropositivity and associ
40 Systemic parasitic coinfections, such as
Toxocara spp. and Toxoplasma gondii can result in intrao
41 We found
Toxocara spp. antibodies in the sera of all four rodent
42 inmates presented higher seroprevalence for
Toxocara spp. antibodies when compared to correctional o
43 We hypothesise that the seroprevalence of
Toxocara spp. differs between forest and grassland roden
44 The presence of
Toxocara spp. eggs was observed in 10/15 (66.7%) collect
45 ate penitentiary, the One Health approach of
Toxocara spp. has highlighted the interdisciplinary natu
46 tudy was the assessment of seroprevalence of
Toxocara spp. infections in wild rodents in Poland, we a
47 Parental
Toxocara spp. seropositivity was associated with increas
48 frequent in offspring than parents; however,
Toxocara spp. seropositivity was associated with increas
49 Toxocara spp. seropositivity was associated with wheeze