Your search keyword '"Shetty, Ujwal"' showing total 4 results

1. Trends in influenza infections in three states of India from 2015-2021: Has there been a change during COVID-19 pandemic?

Author

Jayaram, Anup, Jagadesh, Anitha, Kumar, Ajay MV, Davtyan, Hayk, Thekkur, Pruthu, Del Rio Vilas, Victor J, Mandal, Shrawan Kumar, Sudandiradas, Robin, Babu, Naren, Varamballi, Prasad, Shetty, Ujwal, and Mukhopadhyay, Chiranjay

Published

2022

2. Rickettsia africae and other unclassified Rickettsia species of the spotted fever group in ticks of the Western Ghats, India.

Author

Babu, N Naren, Jayaram, Anup, Auti, Amogh Milind, Bhandari, Yuvraj, Shetty, Ujwal, and Arunkumar, Govindakarnavar

Subjects

BABESIOSIS, TICKS, RICKETTSIA, IXODIDAE, RHIPICEPHALUS, SPECIES, ANIMAL populations

Abstract

The spotted fever group (SFG) of Rickettsia are zoonotic disease-causing pathogens, commonly transmitted by hard ticks to a wide range of hosts, including humans. Rickettsia conorii is the common SFG recognised in India, whereas most of the infections due to other group species go undifferentiated at the species level. Hence, this study was conducted to screen host-seeking ticks in the Western Ghats region, India, for the DNA of SFG Rickettsia. The ticks were collected from Kerala, Goa, and Maharashtra states of India during a survey conducted between November 2017 and January 2018. In total, 288 tick pools were screened for Rickettsia spp. DNA using pan-Rickettsia real-time PCR, and conventional PCR targeting the gltA, OmpA and 17-kDa protein-coding genes. Nucleotide sequences were subjected to phylogenetic analysis using the NCBI BLAST tool to identify submitted sequences with higher homology. Neighbour-joining trees were constructed using the reference sequences of the GenBank database. Overall, Rickettsia spp. DNA was detected in 27.2% (62/228 pools) of host-seeking ticks across the Western Ghats region, with an estimated minimum infection rate of 0.057. Upon phylogenetic analysis, it was identified that the detected sequences were highly similar (> 99% sequence homology) to R. africae, Candidatus R. laoensis and an un-categorised Rickettsia species, and they were widely carried by Haemaphysalis ticks. The current study is the first report of R. africae and Candidatus R. laoensis in ticks in India. Although the pathogenicity of these species is not well documented, they may pose a potential threat to both animal and the human population in this geographical region. [ABSTRACT FROM AUTHOR]

Published

2023

3. Current Status of Chikungunya in India.

Author

Jagadesh, Anitha, Jayaram, Anup, Babu, Naren, Mudgal, Piya Paul, Sudandiradas, Robin, Sheik, Shahin, Shetty, Ujwal, Verma, Dileep Kumar, Mahilkar, Shakuntala, Sunil, Sujatha, Ibemgbo, Sylvester Agha, Mamidi, Prabhudutta, Singh, Sharad, Chattopadhyay, Soma, Pani, Sweta Smita, Mishra, Bijayanthimala, Ratho, R. K., Shastri, Jayanthi S., Agarwal, Sachee, and Sunil*, Sujatha

Subjects

ARBOVIRUS diseases, CHIKUNGUNYA, ENDEMIC diseases, DISEASE outbreaks, THERAPEUTICS, SYMPTOMS, MALARIA

Abstract

Chikungunya fever (CHIKF) is an arbovirus disease caused by chikungunya virus (CHIKV), an alphavirus of Togaviridae family. Transmission follows a human-mosquito-human cycle starting with a mosquito bite. Subsequently, symptoms develop after 2–6 days of incubation, including high fever and severe arthralgia. The disease is self-limiting and usually resolve within 2 weeks. However, chronic disease can last up to several years with persistent polyarthralgia. Overlapping symptoms and common vector with dengue and malaria present many challenges for diagnosis and treatment of this disease. CHIKF was reported in India in 1963 for the first time. After a period of quiescence lasting up to 32 years, CHIKV re-emerged in India in 2005. Currently, every part of the country has become endemic for the disease with outbreaks resulting in huge economic and productivity losses. Several mutations have been identified in circulating strains of the virus resulting in better adaptations or increased fitness in the vector(s), effective transmission, and disease severity. CHIKV evolution has been a significant driver of epidemics in India, hence, the need to focus on proper surveillance, and implementation of prevention and control measure in the country. Presently, there are no licensed vaccines or antivirals available; however, India has initiated several efforts in this direction including traditional medicines. In this review, we present the current status of CHIKF in India. [ABSTRACT FROM AUTHOR]

Published

2021

4. Molecular detection and genotyping of HMPV in patients with severe acute respiratory infection in India.

Author

P P, Shetty U, Parida P, Varamballi P, Mukhopadhyay C, and N S

Subjects

Humans, Retrospective Studies, Male, Female, Infant, Child, Preschool, India epidemiology, Child, Acute Disease, Real-Time Polymerase Chain Reaction, Metapneumovirus genetics, Metapneumovirus isolation & purification, Respiratory Tract Infections epidemiology, Respiratory Tract Infections virology, Respiratory Tract Infections diagnosis, Genotype, Paramyxoviridae Infections epidemiology, Paramyxoviridae Infections virology, Phylogeny

Abstract

Background: Human metapneumovirus (HMPV) is a common respiratory pathogen that causes respiratory tract infections. In India, HMPV has been identified as one of the leading causes of morbidity and mortality in infants and young children with respiratory tract infections. The most reported sublineages of HMPV in India are B1, B2, A2b and A2c., Objective: A retrospective study was conducted to determine the circulating genotypes of HMPV among SARI cases from January 2016 to December 2018., Materials and Methods: Positive throat swab samples were confirmed with real-time RT-PCR. Subsequently, these samples were analysed using semi-nested conventional RT-PCR targeting the G gene, followed by sequencing and phylogenetic analysis. Clinical data analysis was also performed using SPSS 15.0 software., Results: All 20 samples from the SARI cases were classified under the A2c sublineage of HMPV. Phylogenetic analysis indicated that these strains were genetically related to those circulating in Japan, China, and Croatia. Among the samples, ten showed 111-nucleotide duplications, while the other ten had 180-nucleotide duplications., Conclusion: Clinical analysis showed that four cases had coinfections with other pathogens. Our extensive analysis of patient samples determined that HMPV, especially the A2c genotype, significantly contributed to SARI cases within our study population, which signifies the importance of considering HMPV as a probable aetiological agent when investigating SARI outbreaks.

Published

2024