Angkana Tantituvanont scite author profile

Porcine deltacoronavirus (PDCoV) was detected by RT-PCR in 12 of 97 (12.4%) intestinal samples collected during 2015 from piglets with diarrhoea in Thailand, Vietnam and Lao PDR. Spike, membrane and nucleocapsid genes were characterized, and phylogenetic analyses demonstrated that PDCoV isolates from Thai and Lao PDR form a novel cluster, separated from US and China isolates, but relatively were more closely related to China PDCoV than US isolates. Vietnam PDCoVs, however, were grouped together with US PDCoV. The analyses of amino acid changes suggested that they were from different lineage.

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Genetic diversity of ORF3 and spike genes of porcine epidemic diarrhea virus in Thailand

Temeeyasen

Srijangwad

Tripipat

et al. 2014

Infection, Genetics and Evolution

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Pharmacokinetics of ceftiofur hydrochloride in pigs infected with porcine reproductive and respiratory syndrome virus

Tantituvanont

Yimprasert

Werawatganone

et al. 2008

Journal of Antimicrobial Chemotherapy

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Formulation of Microemulsion Systems for Dermal Delivery of Silymarin

2012

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Abstract. Silymarin is a standardized extract from Silybum marianum seeds, known for its many skin benefits such as antioxidant, anti-inflammatory, and immunomodulatory properties. In this study, the potential of several microemulsion formulations for dermal delivery of silymarin was evaluated. The pseudo-ternary phase diagrams were constructed for the various microemulsion formulations which were prepared using glyceryl monooleate, oleic acid, ethyl oleate, or isopropyl myristate as the oily phase; a mixture of Tween 20®, Labrasol®, or Span 20® with HCO-40® (1:1 ratio) as surfactants; and Transcutol® as a cosurfactant. Oil-inwater microemulsions were selected to incorporate 2% w/w silymarin. After six heating-cooling cycles, physical appearances of all microemulsions were unchanged and no drug precipitation occurred. Chemical stability studies showed that microemulsion containing Labrasol® and isopropyl myristate stored at 40°C for 6 months showed the highest silybin remaining among others. The silybin remainings depended on the type of surfactant and were sequenced in the order of: Labrasol®>Tween 20®>Span 20®. In vitro release studies showed prolonged release for microemulsions when compared to silymarin solution. All release profiles showed the best fits with Higuchi kinetics. Non-occlusive in vitro skin permeation studies showed absence of transdermal delivery of silybin. The percentages of silybin in skin extracts were not significantly different among the different formulations (p>0.05). Nevertheless, some silybin was detected in the receiver fluid when performing occlusive experiments. Microemulsions containing Labrasol® also were found to enhance silymarin solubility. Other drug delivery systems with occlusive effect could be further developed for dermal delivery of silymarin.

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Retrospective study, full‐length genome characterization and evaluation of viral infectivity and pathogenicity of chimeric porcine deltacoronavirus detected in Vietnam

Saeng‐chuto

Jermsutjarit

Stott

et al. 2019

Transbound Emerg Dis

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Increased evidence of porcine deltacoronavirus (PDCoV) causing diarrhoea in pigs has been reported in several countries worldwide. The virus has currently evolved into three separated groups including US, China and Southeast Asia (SEA) groups. In Vietnam, PDCoV was first reported in 2015. Based on phylogenetic analyses of spike, membrane and nucleocapsid genes, it is suggested that Vietnam PDCoV is chimeric virus. In the present study, we retrospectively investigated the presence of PDCoV in Vietnam and the full‐length genomes of six PDCoV isolates identified in 2014–2016 were further characterized. The results demonstrated that Vietnam PDCoV was first detected as early as 2014. All six Vietnam PDCoV are in the SEA group and further divided into two separated subgroups including SEA‐1 and SEA‐2. Vietnam PDCoV in SEA‐2 was closely related to Thai and Lao PDCoV. Recombination analysis demonstrated that three isolates in SEA‐1 were a chimeric virus of which P12_14_VN_0814, the first Vietnam isolate, and US PDCoV isolates were major and minor parents, respectively. The recombination was further evaluated by phylogenetic construction based on 3 recombinant fragments. The first and third fragments, closely related to P12_14_VN_0814, were associated with ORF1a/1b and N genes, respectively. The second fragment, associated with S, E, and M genes, was closely related to US PDCoV isolates. High antigenic and hydrophobic variations were detected in S1 protein. Three‐day‐old pigs challenged with the chimeric virus displayed clinical diseases and villus atrophy. In conclusion, Vietnam PDCoV is genetically diverse influenced by an external introduction from neighbouring countries. The chimeric Vietnam PDCoV can induce a disease similar to Thai PDCoV.

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