Trang Thi Hong Ung scite author profile

Trang Thi Hong Ung

5Publications

45Citation Statements Received

73Citation Statements Given

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145

Affiliations

National Institute Of Hygiene And Epidemiology

Publications

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Antibiotic-resistant <i>Escherichia coli</i> isolated from urban rodents in Hanoi, Vietnam

Huy

Koizumi

Ung

et al. 2020

The Journal of Veterinary Medical Science

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Antimicrobial resistance (AMR) is a global public health concern for both clinical and veterinary medicine. Rodent feces are one of the major infectious sources of zoonotic pathogens including AMR bacteria. So far, there are limited studies reported focused on Escherichia coli isolated in rodent feces from rural and suburban areas in Vietnam. In this study, we investigated the prevalence of antimicrobial resistance in E. coli isolated from feces samples of 144 urban rodents caught in Hanoi, Vietnam. A total of 59 AMR E. coli was isolated from urban rodents of which 42 were multidrug-resistant (MDR) isolates (resistance to at least three classes of antimicrobial agents), four were extended-spectrum β-lactamase (ESBL) producing isolates and five were colistin-resistant isolates. The highest prevalence of the resistance was against

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Molecular epidemiology of Leptospira interrogans in Rattus norvegicus in Hanoi, Vietnam

et al. 2019

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Prevalence and Phylogenetic Analysis ofOrientia tsutsugamushiin Small Mammals in Hanoi, Vietnam

Hotta

Pham

Hoang

et al. 2016

Vector-Borne and Zoonotic Diseases

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Rodents are important reservoirs of many human pathogens transmitted via arthropod vectors. Arthropod-borne bacteria belonging to the family Rickettsiaceae cause acute febrile diseases in humans worldwide, but the real burdens of rickettsial diseases appear to be underestimated in Hanoi, Vietnam, because differential diagnosis on the basis of clinical signs and symptoms is confounded by the presence of other tropical infectious diseases with similar signs and symptoms. To know the prevalence of bacteria of the family Rickettsiaceae among small mammals in Hanoi, 519 animals thriving in the public places were captured and examined for the presence of bacterial sequences using duplex PCR. Nucleotide sequences specific for Orientia tsutsugamushi were detected in seven samples (1.3%). Out of seven animals, two were captured in a market, whereas five were in hospitals. None of the captured small mammals tested positive for the genus Rickettsia. The nucleotide sequence analysis of the genes encoding the 47-kDa high-temperature requirement A (47-kDa HtrA) and 56-kDa type-specific antigen (TSA) showed that these seven isolates were indistinguishable from each other. O. tsutsugamushi isolated in this study was closely related phylogenetically to the Gilliam strain, which was originally isolated at the border of Assam and Burma, rather than to those isolated in the central to southern part of Vietnam. It should be emphasized that Vietnamese hospitals were heavily infested by small rodents and some of them harbored O. tsutsugamushi. Strict hygienic control should be implemented to mitigate the potential risk posed by O. tsutsugamushi in hospital settings.

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Missed detections of influenza A(H1)pdm09 by real-time RT–PCR assay due to haemagglutinin sequence mutation, December 2017 to March 2018, northern Viet Nam

Hoang

Epidemiology

Nguyen

et al. 2019

WPSAR

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Introduction There are two methods of reverse transcription polymerase chain reaction (RT–PCR) that have been the common methods to detect influenza infections: conventional and real-time RT–PCR. From December 2017 to March 2018, several missed diagnoses of influenza A(H1)pdm09 using real-time RT–PCR were reported in northern Viet Nam. This study investigated how these missed detections occurred to determine their effect on the surveillance of influenza. Methods The haemagglutinin (HA) segments of A(H1N1)pdm09 from both real-time RT–PCR positive and negative samples were isolated and sequenced. The primer and probe sets in the HA gene were checked for mismatches, and phylogenetic analyses were performed to determine the molecular epidemiology of these viruses. Results There were 86 positive influenza A samples; 32 were A(H1)pdm09 positive by conventional RT–PCR but were negative by real-time RT–PCR. Sequencing was conducted on 23 influenza (H1N1)pdm09 isolates that were recovered from positive samples. Eight of these were negative for A(H1)pdm09 by real-time RT–PCR. There were two different mismatches in the probe target sites of the HA gene sequences of all isolates ( n = 23) with additional mismatches only at position 7 (template binding site) identified for all eight negative real-time RT–PCR isolates. The prime target sites had no mismatches. Phylogenetic analysis of the HA gene showed that both the positive and negative real-time RT–PCR isolates were grouped in clade 6B.1; however, the real-time RT–PCR negative viruses were located in a subgroup that referred to substitution I295V. Conclusion Constant monitoring of genetic changes in the circulating influenza A(H1N1)pdm09 viruses is important for maintaining the sensitivity of molecular detection assays.

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Antibody survey on avian influenza viruses using egg yolks of ducks in Hanoi between 2010 and 2012

Hotta

Takakuwa

Yabuta

et al. 2013

Veterinary Microbiology

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23In Vietnam, numerous surveillance programs are conducted to monitor the 24 prevalence of avian influenza (AI) viruses. Three serological methods-the 25 agar-gel immunodiffusion test, hemagglutination inhibition (HI) test, and 26 enzyme-linked immunosorbent assay-are well established for detection of 27 AI virus antibodies in poultry sera. Several recent reports have validated egg 28 yolk as an alternative source for detection of AI virus antibodies. In this 29 study, we investigated AI virus antibodies in ducks by HI testing using egg 30

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