Araceli Lucio-Forster

Minimal zoonotic risk of cryptosporidiosis from pet dogs and cats.

The role of dogs and cats in human cryptosporidiosis has been the focus of much attention. Studies in which genotyping of Cryptospiridium oocysts in feces of dogs and cats have been successful and have demonstrated that most infections in these animals are caused by host-specific C. canis and C. felis, respectively. Most human cases of cryptosporidiosis are associated with C. hominis and C. parvum; C. canis and C. felis are responsible for only a small number of cases. Thus, molecular epidemiologic studies support the contention that the risk of zoonotic transmission of Cryptosporidium spp. from pet cats and dogs is low. Veterinarians can inform their clients of this minimal risk, but nevertheless advise them to minimize contact with pet cat and dog feces.

Cryptosporidiosis and giardiasis in dogs and cats: Veterinary and public health importance

Dogs and cats are the only domestic animals that still routinely reside in the same domicile as their owners around the world, and hence the interest in their role as reservoirs of potentially zoonotic agents. In the case of cryptosporidiosis and giardiasis, current data suggests that dogs and cats do not routinely share their infections with healthy people. Dogs are hosts of Cryptosporidiumcanis and Giardiaduodenalis Assemblages C and D. Cats are hosts to Cryptosporidiumfelis and G. duodenalis Assemblage F. Dogs and cats (and other animals) are sometimes infected with sub-Assemblage AI, an Assemblage also found in people, but people usually have sub-Assemblage AII. Unfortunately, severely immunocompromised individuals and malnourished children can be made ill by infections with C. canis and C. felis. People should practice good sanitation and hygiene to minimize environmental contamination and contact with the infectious (oo)cysts that may be shed by their pets.

Prevalence of fecal-borne parasites detected by centrifugal flotation in feline samples from two shelters in upstate New York:

Over a 3.5-year period, fecal samples from 1322 cats from two shelters and affiliated foster homes in upstate New York were processed for parasite detection by both 1.18 spg zinc sulfate and 1.3 spg sugar double centrifugal flotation. In 50.9% of the samples at least one parasite was detected. Overall, 18 different parasites ranging in prevalence from 0.2% to 21% were recovered. The most prevalent parasites of foster and shelter cats in this study were Cystoisospora species and Toxocara cati (21% prevalence, each). In order of percentage of positive samples, other findings were: Giardia species (8.9%), Aelurostrongylus abstrusus (6.2%), taeniid eggs (3.9%), Cryptosporidium species (3.8%), Aonchotheca species (3.7%), Eucoleus species (2.3%), Ancylostoma species (2.2%), Cheyletiella species (2.0%), Dipylidium caninum (1.1%), Otodectes species, Toxoplasma-like oocysts and Sarcocystis species (0.8% each), Demodex and Spirometra species (0.4% each), and Alaria species and Felicola subrostratus (0.2% each).

Serological survey of Toxoplasma gondii, Dirofilaria immitis, Feline Immunodeficiency Virus (FIV) and Feline Leukemia Virus (FeLV) infections in pet cats in Bangkok and vicinities, Thailand

The seroprevalence of Toxoplasma gondii, Dirofilaria immitis (heartworm), feline immunodeficiency virus (FIV) and feline leukemia virus (FeLV) infections was examined using serum or plasma samples from 746 pet cats collected between May and July 2009 from clinics and hospitals located in and around Bangkok, Thailand. The samples were tested for heartworm, FIV, and FeLV using a commercial ELISA. Of the 746 samples, 4.6% (34/746) were positive for heartworm antigen, 24.5% (183/746) had circulating FeLV antigen, and 20.1% (150/746) had antibodies against FIV. In addition, the first 348 submitted samples were tested for T. gondii antibodies using a modified agglutination test (MAT, cut off 1:25); 10.1% (35/348) were seropositive. Of the 348 cats sampled for all four pathogens, 11, 10, and 1 were positive for T. gondii antibodies and FIV antibodies, FeLV antigen, or D. immitis antigen, respectively. Of the 35 T. gondii-seropositive cats, 42.9% (15/35) were co-infected with at least one of the other three pathogens. The presence of antibodies to FIV was significantly associated with both age and gender, while FeLV antigen presence was only associated with age. In the case of FIV, males were twice as likely to be infected as females, and cats over 10 years of age were 13.5 times more likely to be infected than cats less than 1 year of age. FeLV antigen was more common in younger cats, with cats over 10 years of age being 10 times less likely to be FeLV positive than cats under 1 year of age. This is the first survey for these four pathogens affecting feline health in Thailand.

Evaluation of a new in-clinic method for the detection of canine heartworm antigen.

Canine heartworm is endemic in many parts of the world, and veterinarians rely on rapid in-clinic antigen tests to screen for this infection. Recently, an in-clinic, instrument-based rotor employing a colloidal gold agglutination immunoassay was launched in the marketplace (VetScan VS2(®) Canine Heartworm (HW) Antigen Test Kit; Abaxis, Inc.). Because of the widespread use of heartworm prevention and possible false negative test results in dogs with low heartworm burdens, the performance of the VetScan VS2(®) HW test and a commercially available in-clinic, membrane-based ELISA test (SNAP(®) Heartworm RT Test; IDEXX Laboratories) was compared using samples from dogs with low heartworm burdens and/or low levels of circulating antigen. Ninety serum samples were evaluated using the two methods. Testing was performed according to the manufacturers product insert by personnel blinded to sample status. The samples were derived from two populations: dogs with necropsy-confirmed heartworm status (40 with 1-4 female worms, 30 with no worms), and field dogs (20) confirmed positive for antigen by microtiter plate ELISA (PetChek(®) Heartworm PF Antigen Test; IDEXX Laboratories). All 40 dogs with heartworms on necropsy were also confirmed to have circulating antigen by the PetChek HW ELISA. In necropsy-negative dogs (n=30), neither the VetScan VS2 HW nor SNAP HW tests detected heartworm antigen. Of the samples testing positive for antigen by PetChek HW (n=60), the VetScan VS2 HW and SNAP HW tests detected antigen in 15 and 56 samples, respectively. Percent agreement (plus 95% confidence interval) for each test relative to the PetChek HW qualitative result was 50% (40-60%) for VetScan VS2 HW and 96% (89-98%) for SNAP HW. Relative to the presence or absence of female worms at necropsy, agreement was 61% (50-72%) for VetScan VS2 HW and 99% (92-99.6%) for SNAP HW tests. It is clinically important that dogs with low heartworm burdens and/or low levels of circulating heartworm antigen be correctly identified by veterinarians in order to ensure prompt treatment, and the VetScan(®) VS2 HW test does not appear to be as accurate as the SNAP HW or PetChek HW tests when performed on this subset of patients.

Investigation of anti-Toxoplasma gondii antibodies in cats of the Ankara region of Turkey Using the Sabin-Feldman dye test and an indirect fluorescent antibody test.

Blood samples from 99 cats from the Ankara province of Turkey were examined for the presence of anti–Toxoplasma gondii antibody with the use of both the Sabin–Feldman dye test (DT) and an indirect fluorescent antibody test (IFAT). Forty of the 99 sera (40.3%) were positive for antibodies against T. gondii with the DT, whereas the IFAT assay detected antibodies in 34 (34.3%). The study also evaluated 3 factors for their potential association with the presence of T. gondii antibody: age (<1 yr, 1–2 yr, and >2 yr), gender (female vs. male), and outdoor access (stray, owned with outdoor access, or indoor only). The DT detected antibodies in 3 cats under 1 yr of age, 22 cats between 1 and 2 yr, and 15 cats older than 2 yr, whereas the IFAT found 1, 18, and 15 cats positive for antibodies, respectively, in each of these categories. Of 61 female cats, 27 (44.2%) were positive by the DT; and of 38 male cats, 13 (34%) were positive by the DT. For the IFAT, 24 female cats (39.3%) and 10 male cats (26.3%) were positive. The percent seropositivity in indoor cats was 30.8% by the DT and 23.1% by the IFAT. In stray cats, the percent seropositivity was 52.8% by the DT and 41.7% by the IFAT. Antibody presence was significantly associated with age, but not with outdoor access.

Morphological Differentiation of Eggs of Ancylostoma caninum, Ancylostoma tubaeforme, and Ancylostoma braziliense From Dogs and Cats in the United States

Abstract: The establishment of cat- and dog-derived laboratory strains of Ancylostoma braziliense allowed for a morphological comparison of the eggs of A. braziliense, Ancylostoma caninum, and Ancylostoma tubaeforme. The length, width, and perimeter were determined for images of 10 eggs each of A. braziliense from the feces of a dog infected with a canine isolate and a cat infected with a feline isolate, A. caninum from dog feces, and A. tubaeforme from cat feces. The specific identity of the eggs was verified by polymerase chain reaction and restriction fragment length polymorphism by using HinfI and RsaI restriction digests followed by gel electrophoresis and sequencing. The mean (±SD) length, width, and perimeter and the length-to-width ratio (±SD) (all measurements are in micrometers) for the eggs of each species were as follows: A. braziliense eggs (combined cat and dog source), 53.03 ± 2.33, 36.37 ± 1.35, 140.43 ± 2.56, and 1.46 ± 0.11; A. caninum eggs, 63.92 ± 5.28, 39.21 ± 1.52, 161.99 ± 9.30, and 1.63 ± 0.13; and A. tubaeforme eggs, 61.44 ± 3.05, 39.14 ± 1.40, 157.98 ± 5.81, and 1.57 ± 0.08. The eggs of A. braziliense were significantly (P < 0.001) smaller than the eggs of A. caninum and A. tubaeforme in all dimensions. Thus, the eggs seem to be readily distinguishable using light microscopy, thereby aiding in species identification in fecal samples for a more comprehensive clinical picture and assessment of zoonotic risk.

Detecting Aelurostrongylus abstrusus-specific IgG antibody using an immunofluorescence assay

Diagnosis of feline lungworm, Aelurostrongylus abstrusus, is typically achieved by identifying larvae in feces following concentration through flotation or using the Baermann technique. This work presents observations on the usefulness of an indirect immunofluorescence antibody assay for detection of antibodies to this parasite in the sera of infected cats. Using first-stage larvae of A abstrusus and sera from both experimentally and naturally infected cats, it was determined that the test was fairly sensitive and did not cross-react with serum from an Ancylostoma braziliense (hookworm)-infected cat.

Surgical extraction of an intraocular infection of Parelaphostrongylus tenuis in a horse

CASE DESCRIPTIONnA 4-year-old Hanoverian gelding was evaluated because of a mobile worm-like structure in the right eye.nnnCLINICAL FINDINGSnOphthalmologic examination of the right eye revealed a white, thin, coiled, mobile parasite, which was presumed to be a nematode, located in the ventral portion of the anterior chamber of the eye; there also were vitreal strands located temporally and inferiorly near the margin of the pupil. Results of ophthalmologic examination of the left eye were unremarkable.nnnTREATMENT AND OUTCOMEnThe horse was treated with a neomycin-polymyxin B-dexamethasone ophthalmic solution applied topically (1 drop, q 8 h) to the right eye and penicillin V potassium (22,000 U/kg [10,000 U/lb], IV, q 6 h). The horse was anesthetized. A stab incision was made in the cornea, and a viscoelastic agent was infused around the parasite. The parasite was extracted via the incision by use of an iris hook and tying forceps. The horse had an uncomplicated recovery from the procedure and retained vision in the right eye. Gross and microscopic examination was used to identify the parasite as an adult metastrongyloid nematode consistent with a fully developed male Parelaphostrongylus tenuis.nnnCLINICAL RELEVANCEnTo the authors knowledge, this is the first report of intraocular parelaphostrongylosis in a horse. This report provided evidence that vision could be retained after treatment for intraocular P tenuis infection in a horse.

Enzyme-linked immunosorbent assay for coproantigen detection of Trichuris vulpis in dogs:

Infections with Trichuris vulpis, the canine whipworm, may be challenging to diagnose even though characteristic bipolar eggs are shed by mature worms and may be recovered from feces. Decreased detection sensitivities because of using flotation solutions with specific gravities <1.3 and a lengthy prepatent period can lessen the diagnostician’s ability to detect infection. Coproantigen detection in feces is becoming an accepted form of diagnosing parasitic infections and can circumvent some of the factors that affect egg recovery. The development of an enzyme-linked immunosorbent assay (ELISA) for the detection of whipworm-specific coproantigens in the feces of dogs with experimental and natural T. vulpis infections is reported herein. Whipworm-specific coproantigens were evidenced in feces from experimentally infected dogs using the newly developed ELISA starting as early as day 23 postinfection, while eggs were not detected in feces until day 69. In addition, 1,156 field fecal samples were tested using fecal flotation methods and the newly developed whipworm ELISA. Of these, 27 samples were found by flotation to be whipworm egg positive, while 35 had detectable antigen on the ELISA. Discrepant results were obtained in 12 samples; 2 egg-positive samples tested ELISA negative, and 10 ELISA-positive samples did not contain detectable egg levels. Using the fecal ELISA for the detection of whipworms in dogs should allow for earlier detection of infection, aid the identification of cases in the face of low egg shedding, and increase detection sensitivity as most commercial laboratories are using flotation solutions not optimal for T. vulpis egg detection.