Development of real-time RT-PCR systems for detection and quantitation of bovine enteric viral pathogens
In conclusion, real time PCR developed for these viruses are highly specific and sensitive technique for the detection of diarrheic viral pathogens of cattle and buffalo.PMID:38347693 | DOI:10.1080/10495398.2023.2182314 (Source: Animal Biotechnology)
Source: Animal Biotechnology - February 13, 2024 Category: Biotechnology Authors: Monika Punia Sushila Maan Kanisht Batra Deepika Chaudhary Bhanita Devi Aman Kumar Suresh Kumar Gahlawat Narender Singh Maan Source Type: research
Development of real-time RT-PCR systems for detection and quantitation of bovine enteric viral pathogens
In conclusion, real time PCR developed for these viruses are highly specific and sensitive technique for the detection of diarrheic viral pathogens of cattle and buffalo.PMID:38347693 | DOI:10.1080/10495398.2023.2182314 (Source: Animal Biotechnology)
Source: Animal Biotechnology - February 13, 2024 Category: Biotechnology Authors: Monika Punia Sushila Maan Kanisht Batra Deepika Chaudhary Bhanita Devi Aman Kumar Suresh Kumar Gahlawat Narender Singh Maan Source Type: research
Development of real-time RT-PCR systems for detection and quantitation of bovine enteric viral pathogens
In conclusion, real time PCR developed for these viruses are highly specific and sensitive technique for the detection of diarrheic viral pathogens of cattle and buffalo.PMID:38347693 | DOI:10.1080/10495398.2023.2182314 (Source: Animal Biotechnology)
Source: Animal Biotechnology - February 13, 2024 Category: Biotechnology Authors: Monika Punia Sushila Maan Kanisht Batra Deepika Chaudhary Bhanita Devi Aman Kumar Suresh Kumar Gahlawat Narender Singh Maan Source Type: research
Development of real-time RT-PCR systems for detection and quantitation of bovine enteric viral pathogens
In conclusion, real time PCR developed for these viruses are highly specific and sensitive technique for the detection of diarrheic viral pathogens of cattle and buffalo.PMID:38347693 | DOI:10.1080/10495398.2023.2182314 (Source: Animal Biotechnology)
Source: Animal Biotechnology - February 13, 2024 Category: Biotechnology Authors: Monika Punia Sushila Maan Kanisht Batra Deepika Chaudhary Bhanita Devi Aman Kumar Suresh Kumar Gahlawat Narender Singh Maan Source Type: research
Development of real-time RT-PCR systems for detection and quantitation of bovine enteric viral pathogens
In conclusion, real time PCR developed for these viruses are highly specific and sensitive technique for the detection of diarrheic viral pathogens of cattle and buffalo.PMID:38347693 | DOI:10.1080/10495398.2023.2182314 (Source: Animal Biotechnology)
Source: Animal Biotechnology - February 13, 2024 Category: Biotechnology Authors: Monika Punia Sushila Maan Kanisht Batra Deepika Chaudhary Bhanita Devi Aman Kumar Suresh Kumar Gahlawat Narender Singh Maan Source Type: research
Development of real-time RT-PCR systems for detection and quantitation of bovine enteric viral pathogens
In conclusion, real time PCR developed for these viruses are highly specific and sensitive technique for the detection of diarrheic viral pathogens of cattle and buffalo.PMID:38347693 | DOI:10.1080/10495398.2023.2182314 (Source: Animal Biotechnology)
Source: Animal Biotechnology - February 13, 2024 Category: Biotechnology Authors: Monika Punia Sushila Maan Kanisht Batra Deepika Chaudhary Bhanita Devi Aman Kumar Suresh Kumar Gahlawat Narender Singh Maan Source Type: research
Development of real-time RT-PCR systems for detection and quantitation of bovine enteric viral pathogens
In conclusion, real time PCR developed for these viruses are highly specific and sensitive technique for the detection of diarrheic viral pathogens of cattle and buffalo.PMID:38347693 | DOI:10.1080/10495398.2023.2182314 (Source: Animal Biotechnology)
Source: Animal Biotechnology - February 13, 2024 Category: Biotechnology Authors: Monika Punia Sushila Maan Kanisht Batra Deepika Chaudhary Bhanita Devi Aman Kumar Suresh Kumar Gahlawat Narender Singh Maan Source Type: research
Development of real-time RT-PCR systems for detection and quantitation of bovine enteric viral pathogens
In conclusion, real time PCR developed for these viruses are highly specific and sensitive technique for the detection of diarrheic viral pathogens of cattle and buffalo.PMID:38347693 | DOI:10.1080/10495398.2023.2182314 (Source: Animal Biotechnology)
Source: Animal Biotechnology - February 13, 2024 Category: Biotechnology Authors: Monika Punia Sushila Maan Kanisht Batra Deepika Chaudhary Bhanita Devi Aman Kumar Suresh Kumar Gahlawat Narender Singh Maan Source Type: research
Development of real-time RT-PCR systems for detection and quantitation of bovine enteric viral pathogens
In conclusion, real time PCR developed for these viruses are highly specific and sensitive technique for the detection of diarrheic viral pathogens of cattle and buffalo.PMID:38347693 | DOI:10.1080/10495398.2023.2182314 (Source: Animal Biotechnology)
Source: Animal Biotechnology - February 13, 2024 Category: Biotechnology Authors: Monika Punia Sushila Maan Kanisht Batra Deepika Chaudhary Bhanita Devi Aman Kumar Suresh Kumar Gahlawat Narender Singh Maan Source Type: research
Effect of COVID-19 protective measures on the epidemiology characteristics of rotavirus, adenovirus, and coinfections among pediatric patients with acute gastroenteritis in Hangzhou, China
This study highlights the epidemiological changes of rotavirus (RV), adenovirus (AdV), and coinfections in children with acute gastroenteritis (AGE) before, during, and after coronavirus disease 2019 (COVID-19) periods. There was a highly statistically significant difference in the positive rates of RV-positive, AdV-positive, and coinfection (P < 0.001), indicating that RV remains the main pathogen causing AGE. It emphasizes the importance of continuous surveillance of RV and AdV at both local and global levels. Regular surveillance of prevalent rotavirus strains will facilitate the development of new inactivated rotavi...
Source: Adv Data - February 12, 2024 Category: Epidemiology Authors: Jianming Zhou Yanhong Sun Source Type: research
Disaster after disaster: the outbreak of infectious diseases in Pakistan in the wake of 2022 floods
Ann Med Surg (Lond). 2023 Dec 8;86(2):891-898. doi: 10.1097/MS9.0000000000001597. eCollection 2024 Feb.ABSTRACTIn June 2022, Pakistan witnessed catastrophic floods, affecting millions of people. The ensuing epidemics of cholera, cryptosporidiosis, rotavirus infections, generalized diarrhoea, typhoid and paratyphoid fevers, as well as the frequency of vector-borne diseases including malaria and dengue fever, are studied in this investigation. It also explores the latest outbreak of poliomyelitis and the frequency of respiratory diseases such COVID-19, diphtheria, and tuberculosis, as well as how floods have contributed to s...
Source: Annals of Medicine - February 9, 2024 Category: Internal Medicine Authors: Marcel Alied Abdus Salam Sayed Mansoor Sediqi Patrick Amanning Kwaah Linh Tran Nguyen Tien Huy Source Type: research
Resurgent rotavirus diarrhoea outbreak five years after introduction of rotavirus vaccine in Botswana, 2018
CONCLUSION: The outbreak was caused by rotavirus G3P[8], a strain that was not common in the country prior to the outbreak. Despite the significant pressure and anxiety that outbreaks cause, the number of diarrhea cases and deaths were less compared to pre-vaccine era due to the impact of vaccination. This highlights the need for continuous implementation of high impact child survival interventions.PMID:38331661 | DOI:10.1016/j.vaccine.2024.01.084 (Source: Vaccine)
Source: Vaccine - February 8, 2024 Category: Allergy & Immunology Authors: Goitom G Weldegebriel Charles Okot Nokuthla Majingo Nesredin J Oumer Margaret Mokomane Ndibo J Monyatsi Thabo M Phologolo Lenah Visagie Kentse Moakofh Marina Seobakeng Balcha G Masresha Mapaseka Seheri Richard Mihigo Jason M Mwenda Source Type: research
Reply Letter to the Letter to the editor on cross-protection of RotaTeqTM
We would like to thank Dr. Carias et al for their knowledgeable comments about our study and supplemental information regarding cross-protection of RotaTeq against heterotypic strains of rotavirus. (Source: The Journal of Pediatrics)
Source: The Journal of Pediatrics - February 7, 2024 Category: Pediatrics Authors: Mei Zeng, Wen Jie Ma Tags: Letters to the Editor Source Type: research
Letter to the editor on cross-protection of RotaTeqTM
Ma et al estimated the effectiveness of RotaTeqTM (pentavalent rotavirus vaccine, RV5), containing human bovine reassortants G1, G2, G3, G4 and P[8], against rotavirus gastroenteritis at 97% (95% CI, 83%-100%) in a cohort of children (14 weeks to 2 years of age) predominantly infected (79%) with G8P[8], in Shanghai, China (1). RV5 has been shown to be efficacious and effective across geographic settings, time-periods, and strains, but protection of RV5 against a G8 strain had been demonstrated previously only in Africa (2-6). (Source: The Journal of Pediatrics)
Source: The Journal of Pediatrics - February 7, 2024 Category: Pediatrics Authors: Cristina Carias, Susanne Hartwig, Nabi Kanibir, Jelle Matthijnssens, Yingmei Tu Tags: Letters to the Editor Source Type: research
Reply to the Letter to the Editor regarding cross-protection of RotaTeq
We would like to thank Dr. Carias et al for their knowledgeable comments about our study and supplemental information regarding cross-protection of RotaTeq against heterotypic strains of rotavirus. (Source: The Journal of Pediatrics)
Source: The Journal of Pediatrics - February 7, 2024 Category: Pediatrics Authors: Mei Zeng, Wen Jie Ma Tags: Letters to the Editor Source Type: research
