OBJECTIVETo investigate the serologic type, phage-biotype and toxic factor of Vibrio cholerae isolated from different sea products, analyze the relation between the Vibrio cholerae in sea products and cholera epidemiology, and provide references for forecasting cholera epidemic situation and drawing out a preventing plan.

METHODThe biotype of strains isolated was analyzed by using type and phage-biotype serological methods. The toxic gene was detected by PCR.

RESULTSThe constituent ratio of V. cholerae O139, Ogawa and Inaba were, respectively, 48.44%, 20.31% and 31.25% in 64 strains of V. cholerae. The result of phage-biotype showed that the 26 strains of V. cholerae O1 were all non-epidemic strains. The result of toxic gene detecting showed that positive rate of V. cholerae O139 was higher than those of Ogawa and Inaba.

CONCLUSIONThe positive rate of toxic gene in V. cholerae O139 was high and the V. cholerae O139 was mainly in turtle, breed aquatics water and crustacean, so these sea products were the important sectors in cholera prevention and control.

Animals ; Bacteriophage Typing ; DNA, Bacterial ; genetics ; Seafood ; microbiology ; Serotyping ; Vibrio cholerae ; classification ; genetics ; isolation & purification ; Vibrio cholerae O1 ; isolation & purification ; Vibrio cholerae O139 ; isolation & purification

OBJECTIVEThrough systematic monitoring of the number and strain types of O1 and O139 Vibrio cholerae in the Pearl River estuary waters to analyze it's relevance with the temperature of environment, and the relevance between strains in water and isolates during outbreaks and epidemics as well as to estimate the methods used for environmental water detection and the potential role in cholera surveillance program.

METHODSTwenty-four stations along the Pearl River were selected and the water samples were collected monthly from March 2006 to February 2007. V. cholerae O1 and O139 strains were isolated from the samples. Real-time PCR established in our laboratory was used to detect V. cholerae O1 and O139. Air temperature and water temperature were collected during sampling. Pulsed field gel electrophoresis (PFGE) was applied in molecular typing of the isolates.

RESULTS862 water samples were collected during the study period. A total number of 77 O1 and O139 V. cholerae were isolated in 67 water samples and the positive rates were 7.77% for isolation and 26.33% for real-time PCR. Seasonal trend of positive rates by month were approximately coincident with the change of water temperature. The positive rates in the stations in urban area were higher than those in other areas. Toxigenic O139 strains were found in one station located in downstream of a marine market. Most of the O1 and O139 isolates were non-toxigenic. No trend of seasonal variation of the strains was noticed. Within these 75 isolates, 49 PFGE patterns were identified and the patterns differed widely with the similarity of 57.4% - 100%.

CONCLUSIONV. cholerae existed as the natural habitat in estuary water of the Pearl River and showed obvious genetic diversity. Data from monitoring waters might show the separation of strains with certain seasonal association. But the crowd did not show the relationship between the infections. Results from water surveillance program might provide indicators on the appearance of cholera pathogen which might be used in assessing the environmental risk of cholera epidemics as well as the alert of cholera.

Electrophoresis, Gel, Pulsed-Field ; Environmental Monitoring ; Phylogeny ; Polymerase Chain Reaction ; Seasons ; Temperature ; Vibrio cholerae O1 ; classification ; genetics ; isolation & purification ; Vibrio cholerae O139 ; classification ; genetics ; isolation & purification

OBJECTIVETo establish a duplex nested PCR assay system which is capable for detecting O1 and O139 groups of Vibrio cholerae simultaneously, and is applicable to environmental specimens from routine cholera surveillance.

METHODSBased on nucleic acid sequences available in GenBank, six sets of primers were designed by PrimerSelect program of DNAStar, targeting the rfb gene that encodes the O antigens of O1 and O139 V. cholerae, respectively. The specificity of several primer combinations was tested. A duplex nested PCR assay system for simultaneously detecting O1 and O139 V. cholerae was established, subsequently, its sensitivity, specificity, reproducibility and field evaluation were tested. The sensitivity of this assay was evaluated by comparing detection limits of nested PCR and conventional PCR. Its reproducibility was tested by 32 positive samples (11 samples positive for O1, 21 samples positive for O139) from environmental surveillance. In addition, the selected amplicons from positive samples were sequenced and analyzed with relevant sequences.

RESULTSThis newly-established duplex nested PCR assay might distinguish O1 V. cholerae from O139 V. cholerae, based on fragment lengths of amplicons, with reliable reproducibility, and no specific amplification was observed as compared with other vibrio species. The sensitivity of this nested PCR was (15 000) higher than conventional PCR, and there was no interference observed with multiple primers and complicated templates in the same vial. In its field evaluation, 32 positive DNA samples were detected and be further confirmed with double or triple tests, implying reliable reproducibility and consistency of this system. These results indicated that this assay had reliable reproducibility. No amplification was observed in all negative specimens and also suggested the acceptable specificity of this assay. Sequence analysis of the selected amplification products revealed 100% homogeneous with relevant genes from V.cholerae, indicating that these amplicons were originated from V. cholerae.

CONCLUSIONThis duplex nested PCR assay system should be rapid, sensitive and especially applicable to small laboratories, and be suitable for dynamic environmental surveillance.

DNA, Bacterial ; Environmental Monitoring ; methods ; Polymerase Chain Reaction ; methods ; Sequence Analysis, DNA ; Vibrio cholerae O1 ; genetics ; isolation & purification ; Vibrio cholerae O139 ; genetics ; isolation & purification

OBJECTIVETo develop a real-time SYBR Green polymerase chain reaction (PCR) for detection of Vibrio cholerae serogroups O1 and O139, and to evaluate its reliability through detection of estuary water samples.

METHODSO antigen rfb genes specific for O1 and O139 were used for the design of PCR primers. The real-time SYBR Green PCR system in detecting O1 and O139 specific rfb genes in one tube was developed, and its sensitivity, specificity and reproducibility were evaluated. The ability of the real-time PCR in detection of estuary water samples was compared with the routine PCR and bacteria isolation.

RESULTSThe amplification of O1 or O139 specific target gene could be detected according to the melt curve temperature of amplicons. No amplification was observed in the templates of other 10 non-cholerae vibrios. When comparing to the real-time PCR to bacteria isolation in detection of 524 estuary water samples, it showed high sensitivity, plus also positive in real-time PCR detection among all the samples in which bacteria of O1 or O139 were isolated.

CONCLUSIONThe real-time SYBR Green PCR could be used as the first step of rapid environment screen of V. cholerae in water samples thus might enhance the efficiency of isolation in screening of large amount of water samples.

Environmental Monitoring ; methods ; Genes, Bacterial ; Polymerase Chain Reaction ; methods ; Reproducibility of Results ; Rivers ; microbiology ; Sensitivity and Specificity ; Vibrio cholerae O1 ; isolation & purification ; Vibrio cholerae O139 ; isolation & purification

Two strains of non-O group 1 Vibrio cholerae (non-0:1V. cholerae) were isolated from blood of a woman who had undergone a gastrectomy and from peritoneal fluid of a man with an impaired liver function. Microbiology laboratories in countries where raw fish and shellfish are frequently consumed should consider the possibility of non-0:1 V. cholerae when they identify vibrios from extraintestinal sources.
Adult ; Cholera/complications* ; Female ; Human ; Male ; Middle Age ; Peritonitis/etiology* ; Septicemia/etiology* ; Vibrio cholerae/isolation & purification

Animals ; China ; epidemiology ; Cholera ; epidemiology ; prevention & control ; Environmental Monitoring ; Vibrio cholerae ; genetics ; isolation & purification

OBJECTIVETo examine vibrio cholera (V.C) in aquatic products of littoral area, Zhejiang Province and to provide scientific evidence for administration of aquatic products and cholera epidemic control.

METHODSAll 990 samples of aquatic products collected from local markets, eateries and aquafarms in three chosen areas. Samples were proliferated in alkaline liquid medium, and purified in NO: 4 medium, the isolations were identified biochemically, and phenotype of strains were defined by phagocyte and coagulation with V.C. diagnostic serum. Three virulence genes (ctx, ace, zct) of the isolated strains were detected by polymerase chain reaction (PCR).

RESULTSThere were 1.41% samples caught by V.C., having a carrying rate highest in turtles of 8.9%. 14 strains were defined as three serogroups, and the numbers of Inaba, Ogawa, and Hikojima types were 2, 2, 10 respectively. Virulence genes had detected in 9 of 12 stains. All genes were detected in 5 strains, only ZOT genes in 3 strains, and both CTX and ACE genes in 1 strain.

CONCLUSIONSAquatic products from inshore in Zhejiang Province caught with V.C. strains might be divided into three serogroups. Most of them should be virulence genes. Cholera epidemic outbreak might be caused by those contaminated products.

China ; Food Microbiology ; Genes, Bacterial ; Seafood ; microbiology ; Vibrio cholerae ; genetics ; isolation & purification ; Virulence Factors ; genetics

OBJECTIVETo understand the epidemic condition, distribution and biological characteristics of non-O1/non-O139 Vibrio cholerae from 2001 to 2009 in Haizhu District, to provide a scientific basis for the prevention and control of acute diarrhea.

METHODSReferring to the detecting method written in "Cholera control handbook" in the fifth edition, 764 specimens from outside environment (including the water in the Pearl River, drinking water, water for breeding fish, aquatic products and delicatessen foods), 189 specimens of healthy population and 3398 intestinal samples of patients with diarrhea, summing up to 4351 specimens for non-O1/non-O139 Vibrio cholerae test.

RESULTS4,351 specimens were detected of 101 strains of non O1/non O139 Vibrio cholerae, the total detection rate was 2.32%; 66 strains were identified by serotyping and grouped into 26 different serotypes, the typing rate was 65.3%. The strains VBO9, VBO38 and VBO76 were the dominant bacteria.Nine strains of the same type of non-O1/non-O139 Vibrio cholerae were found from external environments also from patients with diarrhea, suggesting that there might be a correlation between the two.

CONCLUSIONNon-O1/non-O139 Vibrio cholerae have diversified serotypes, causing certain infection rate among the population in this region. These bacteria exist extensively in external environment and they are the potential hazard to the citizens.

China ; epidemiology ; Cholera ; epidemiology ; microbiology ; Humans ; Serotyping ; Vibrio cholerae ; classification ; isolation & purification

OBJECTIVEA novel method of Nano-Immunomagnetic Separation (Nano-IMS) plus Real-time PCR was established for detecting Vibrio cholerae.

METHODSThe Nano-Immunomagnetic Beads were created by using the monoclonal antibody of Vibrio cholerae, which was named Nano-IMB-Vc. Nano-IMB-Vc has specific adsorption of Vibrio cholerae, combined with Real-time PCR technology, a method for rapid detection of Vibrio cholerae was established. The capture specificity of Nano-IMB-Vc was tested by using 15 bacteria strains. The specificity of Real-time PCR method was tested by using 102 targets and 101 non-targets bacteria strains. The sensitivity of Nano-IMS plus Real-time PCR were tested in pure culture and in artificial samples and compared with NMKL No.156.

RESULTSThe capture ratio of Nano-IMB-Vc was reached 70.2% at the level of 10(3) CFU/ml. In pure culture, the sensitivity of Nano-IMS plus Real-time PCR was reached at 5.4×10(2) CFU/ml. The specific of Real-time PCR method was tested by using 102 targets and 101 non-targets bacteria. The results showed that 102 strains of Vibrio cholerae test results were all positive, and the rest of the 101 strains of non-target bacteria test results were negative. No cross-reaction was founded. Add 1 CFU vibrio cholerae per 25 g sample, it could be detect with Nano-IMS plus Real-time PCR method after 8 hours enrichment.

CONCLUSIONSThe Nano-IMS plus Real-time PCR method of Vibrio cholerae established in this study has good specificity and sensitivity, which could be applied to the rapid detection of Vibrio cholerae.

Food Microbiology ; methods ; Immunomagnetic Separation ; methods ; Nanotechnology ; Real-Time Polymerase Chain Reaction ; methods ; Seafood ; analysis ; microbiology ; Vibrio cholerae ; genetics ; isolation & purification ; Vibrio parahaemolyticus ; genetics ; isolation & purification

We isolated non-O1, non-O139 Vibrio cholerae from pleural effusion in a patient with recurred advanced gastric caner after total gastrectomy. We also recovered the organism from the patient's stool culture. The patient did not experience gastrointestinal symptoms such as diarrhea except heartburn and epigastric discomfort from stomach cancer before admission. The suspected route of infection is directly from the gastrointestinal tract through the previous surgical wounds. After antibiotic treatment, no more V. cholerae was isolated and the patient was well discharged from the hospital. This is the first report of V. cholerae infection associated with pleural effusion in a long-term latent carrier of the organism.
Vibrio cholerae non-O1/*isolation & purification ; Stomach Neoplasms/microbiology/surgery ; Pleural Effusion/*microbiology ; Middle Aged ; Male ; Humans ; *Gastrectomy ; Carrier State