In this study we investigated maternal Helicobacter felis (H. felis) infection status to determine the potential of maternal transmission. Pregnant Beagle dogs were infected experimentally with H. felis. Following the experimental design, the stools of the mother and litters were isolated and assessed for transmission of H. felis at parturition day, 1-week old age and 6-week old age respectively. Polymerase chain reaction (PCR) was used to examine the presence of transmitted H. felis. All litters showed no transmission of H. felis at parturition day. However, they revealed 14.3% and 100% at 1-week old age and 6-week old age respectively by PCR. These results suggested that vertical infection during prenatal period or delivery procedure is unlikely as a route of mother-to-child H. felis infection. It might be acquired H. felis through breast-feeding, contaminating saliva and fecal-oral during co-habitat.
Animals ; Cats ; Dogs ; Felis ; Helicobacter ; Helicobacter felis ; Humans ; Mothers ; Parturition ; Polymerase Chain Reaction ; Postpartum Period ; Research Design ; Saliva

In this study we investigated maternal Helicobacter felis (H. felis) infection status to determine the potential of maternal transmission. Pregnant Beagle dogs were infected experimentally with H. felis. Following the experimental design, the stools of the mother and litters were isolated and assessed for transmission of H. felis at parturition day, 1-week old age and 6-week old age respectively. Polymerase chain reaction (PCR) was used to examine the presence of transmitted H. felis. All litters showed no transmission of H. felis at parturition day. However, they revealed 14.3% and 100% at 1-week old age and 6-week old age respectively by PCR. These results suggested that vertical infection during prenatal period or delivery procedure is unlikely as a route of mother-to-child H. felis infection. It might be acquired H. felis through breast-feeding, contaminating saliva and fecal-oral during co-habitat.
Animals ; Cats ; Dogs ; Felis ; Helicobacter ; Helicobacter felis ; Humans ; Mothers ; Parturition ; Polymerase Chain Reaction ; Postpartum Period ; Research Design ; Saliva

In this study, we examined a colony of 20 beagle dogs in a laboratory animal facility. Mycoplasma was detected by consensus PCR assay in 1 dog with respiratory and constitutional symptoms. None of the other dogs were affected. The dog was euthanized and necropsied. In postmortem examinations, gray or plum-colored gross lesions were found on the lung, most commonly in the apical and cardiac lobes. Some lesions showed clear demarcation and consolidation. Microscopic examination showed peribronchiolar lymphoid hyperplasia and interstitial thickening, lesions pathognomonic for mycoplasma pneumonia. To identify canine Mycoplasma species, we used species-specific PCR reactions for M. arginini, M. canis, M. cynos, M. edwardii, M. felis, M. gateae, M. maculosum, M. molare, M. opalescens, M. spumans, Mycoplasma sp. HRC 689, and M. collis. As the result, we identified Mycoplasma cynos by amplification of DNA extracted from lung tissue of the laboratory beagle dog with respiratory disease.
Animals ; Animals, Laboratory ; Autopsy ; Cats ; Consensus ; DNA ; Dogs ; Felis ; Hyperplasia ; Lung ; Molar ; Mycoplasma ; Pneumonia, Mycoplasma ; Polymerase Chain Reaction

Recently, several companies have released H. pylori stool antigen (HpSA) test kits. However, there is little information about the usefulness of HpSA testing for Helicobacter felis, which is the major Helicobacter species in cats. The aim of the present study was to compare diagnostic methods for diagnosis of H. felis with HpSA tests and PCR assay using cat stools or gastric mucosa. Male cats (n=6) were infected with H. felis ATCC 49179 (1.0 x 10(9) CFU /cat) by intragastric inoculation two times at 3-day intervals, and stool specimens of cats were collected 1, 3, 5, 7, 14, and 21 days after infection for HpSA testing and H. felis-specific PCR. For the results, sensitivities of the HpSA test and PCR analysis were 50.0% and 83.3% respectively. Cats were sacrificed 21 days after H. felis inoculation, and gastric tissues were homogenized. All gastric biopsy specimens were positive based on a rapid urease test (RUT) (6/6, 100%) and PCR (6/6, 100%). Based on these results, the HpSA kit is useful and effective for monitoring H. felis infection using stool specimens. If an HpSA test could be made with H. felis antibodies in the future, its sensitivity could be increased further. Further, PCR assay could be successfully used to detect H. felis in stools. Application of this HpSA kit and PCR assay can be utilized as a non-invasive strategy to identify H. felis in cats.
Animals ; Antibodies ; Biopsy ; Cats* ; Diagnosis ; Felis ; Gastric Mucosa ; Helicobacter felis* ; Helicobacter* ; Humans ; Male ; Natural Resources ; Polymerase Chain Reaction ; Urease

Cronobacter sakazakii (C. sakazakii), formerly Enterobacter sakazakii, is an emerging pathogen associated with the ingestion of contaminated reconstituted formula that causes serious illnesses such as bacteremia, septicemia, necrotizing enterocolitis, meningitis and death in low-birth-weight preterm neonatal infants. The objective of this study was to develop an animal model for human neonatal C. sakazakii infections. We acquired timed-pregnant ICR mice and allowed them to give birth naturally. On postnatal day 3.5, each pup was administered orally a total dose of approximately 107 CFU C. sakazakii strain 3439. Mice were observed twice daily for morbidity and mortality. At postnatal day 10.5, the remaining pups were euthanized, and brain, liver, and cecum were excised and analyzed for the presence of C. sakazakii. C. sakazakii was isolated from cecum and other tissues in inoculated mice. In the tissues of C. sakazakii infected mice, meningitis and gliosis were detected in brain. In this study, we confirmed the neonatal ICR mice may be used a very effective animal model for human neonatal C. sakazakii infections.
Animals ; Bacteremia ; Brain ; Cecum ; Cronobacter ; Cronobacter sakazakii ; Eating ; Enterocolitis, Necrotizing ; Gliosis ; Humans ; Infant ; Liver ; Meningitis ; Mice ; Mice, Inbred ICR ; Models, Animal ; Parturition ; Sepsis ; Sprains and Strains

Canine respiratory coronavirus (CRCoV) is commonly associated with canine kennel cough worldwide. Clinically infected dogs present coughing, sneezing, and nasal discharge. Severe infections may progress to pneumonia. Through serological surveys, CRCoV has been identified as a worldwide pathogen found in the respiratory tracts of dogs suffering from mild or severe respiratory disease. In this study, three dogs were obtained from a dog kennel. Over the previous 5 days, the dogs showed coughing, sneezing, and nasal discharge. To detect the etiologic pathogen, we performed multiplex RT-PCR (mRT-PCR) to amplify the genes encoding canine influenza virus matrix protein, canine distemper virus nucleocapsid protein, and CRCoV spike protein. Dot blotting was achieved with a CRCoV-specific probe. Nasal-secreting CRCoV was detected by the 442 bp CRCoV-positive PCR reaction in the nasal swabbing samples from dogs. Further, CRCoV-positive reactions by dot blot hybridization were detected in the nasal swabbing samples from dogs. In conclusion, we detected CRCoV in kenneled dogs with respiratory disease in Korea. Multiplex RT-PCR was able to detect successfully CRCoV infection in dogs. We suggest that mRT-PCR would be useful and effective for monitoring CRCoV infection in various kinds of dogs.
Animals ; Coronavirus* ; Cough ; Distemper Virus, Canine ; Dogs* ; Korea ; Nucleocapsid Proteins ; Orthomyxoviridae ; Pneumonia ; Polymerase Chain Reaction ; Respiratory System ; Sneezing

Cell culture systems for the protozoan Eimeria are not yet available. The present study was conducted to develop an animal model system by inoculating animals with a live Eimeria vaccine. This study was conducted on 3-day-old chickens (n = 20) pretreated with cyclophosphamide. The chickens were divided into 2 groups: the control group (n = 10) and the inoculated group that received the live Eimeria vaccine (n = 10). During the study period, we compared the clinical signs, changes in body weight, and number of oocysts shed in the feces of the control and inoculated group. This study showed that oocyst shedding was significantly higher in the chickens inoculated with live Eimeria oocysts than in the control chickens. Moreover, body weight gain was lesser in the animals in the inoculated group than in the control animals. Fecal oocyst shedding was observed in the inoculated animals. On the basis of these findings, we suggest that live Eimeria vaccination with cyclophosphamide pretreatment may be used to obtain an effective animal model for studying protozoan infections. This animal study model may eliminate the need for a tedious continuous animal inoculation process every 6 months because the live coccidiosis vaccine contains live oocysts.
Animals ; Body Weight ; Cell Culture Techniques ; Chickens ; Coccidiosis ; Cyclophosphamide ; Eimeria ; Feces ; Models, Animal ; Oocysts ; Protozoan Infections ; Vaccination

A male one year-old beagle dog with unilateral cryptorchism was presented for investigation of reduced appetite. Abdominal sonography and radiography demonstrated abnormal enlargement of the left testicle in the abdominal cavity. Both the retroperitoneal cryptorchid testicle and the other contralateral testicle were removed surgically. The retroperitoneal cryptorchid testicle was an enlarged, firm and bulging sphere mass. The cut surface revealed a homogeneous white color. The contralateral testicle in the scrotum showed an almost normal appearance. Histopathologically, the retroperitoneal cryptorchid testicle was diagnosed as a Sertoli cell tumor. This report describes a case of Sertoli cell tumor with cryptorchism in a beagle dog.
Abdominal Cavity ; Animals ; Appetite ; Cryptorchidism ; Dogs ; Humans ; Male ; Scrotum ; Sertoli Cell Tumor ; Testis

Mycoplasmas are highly fastidious bacteria, difficult to culture and slow growing. Many species of mycoplasmas are important pathogens that cause respiratory infection in laboratory animals and that are known to affect experimental results obtained with contaminated animals. The aim of the present study was to develop a sensitive and specific assay for the detection of mycoplasma species. To this end, we developed a polymerase chain reaction and dot blot hybridization assay (PCR/DBH) for detecting mycoplasma DNA and evaluated it for its sensitivity and specificity. Mycoplasma consensus primer pairs were used for the amplification of target DNA. When PCR product was visually detected, the limit of detection of the PCR test was 10(2) pg of mycoplasma purified DNA. For DBH, the amplified DNA was labeled by incorporation of digoxigenin (DIG). This DIG-labeled probe was capable of detecting 10(4) pg of purified mycoplasma DNA by DBH. PCR/DBH was more sensitive than PCR or DBH alone and was also very specific. Our PCR/DBH assay can be applied efficiently to confirm the presence of mycoplasma species on clinical samples and to differentiate between mycoplasma species infection and other bacterial infections.
Animals ; Animals, Laboratory ; Bacteria ; Bacterial Infections ; Chimera ; Consensus ; Digoxigenin ; DNA ; Limit of Detection ; Mycoplasma ; Polymerase Chain Reaction ; Sensitivity and Specificity

Eimeria tenella and Eimeria maxima are important pathogens causing intracellular protozoa infections in laboratory avian animals and are known to affect experimental results obtained from contaminated animals. This study aimed to find a fast, sensitive, and efficient protocol for the molecular identification of E. tenella and E. maxima in experimental samples using chickens as laboratory avian animals. DNA was extracted from fecal samples collected from chickens and polymerase chain reaction (PCR) analysis was employed to detect E. tenella and E. maxima from the extracted DNA. The target nucleic acid fragments were specifically amplified by PCR. Feces secreting E. tenella and E. maxima were detected by a positive PCR reaction. In this study, we were able to successfully detect E. tenella and E. maxima using the molecular diagnostic method of PCR. As such, we recommended PCR for monitoring E. tenella and E. maxima in laboratory avian facilities.
Animals ; Chickens ; DNA ; Eimeria ; Eimeria tenella ; Feces ; Oocysts ; Pathology, Molecular ; Polymerase Chain Reaction