Your search keyword '"Singh Malik Y"' showing total 7 results

1. The Impact of COVID-19 Pandemic on Agricultural, Livestock, Poultry and Fish Sectors: COVID-19 Impact on Agriculture, Livestock, Poultry and Fish Sectors.

Author

Singh Malik Y, Ikram Ansari M, Gharieb R, Ghosh S, Kumar Chaudhary R, Gomaa Hemida M, Torabian D, Rahmani F, Ahmadi H, Hajipour P, and Salajegheh Tazerji S

Abstract

COVID-19 pandemic is considered a global crisis that adversely impacted the world economy. The virus possessed a serious threat to different sectors including agricultural, livestock, poultry and fish sectors in both developing and developed countries. COVID-19 pandemic and the associated lockdown for a long period have not only caused enormous distress to the millions of poor and marginal farmers for saving their crops and/or livestock but also affected livestock, poultry production systems and associated value chains, nutrition, health care and labour availability. In addition, COVID-19 pandemic significantly impacted the fishery sector through disruption in fish supply and value chains and had noteworthy effects on income of fish stakeholders, especially in developing countries. In this regard, the current review discussed the impact of COVID-19 pandemic on agricultural, livestock, poultry and fish sectors., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2024 Yashpal Singh Malik et al.)

Published

2024

2. Animal Wellness: The Power of Multiomics and Integrative Strategies: Multiomics in Improving Animal Health.

Author

Choudhary RK, Kumar B V S, Sekhar Mukhopadhyay C, Kashyap N, Sharma V, Singh N, Salajegheh Tazerji S, Kalantari R, Hajipour P, and Singh Malik Y

Abstract

The livestock industry faces significant challenges, with disease outbreaks being a particularly devastating issue. These diseases can disrupt the food supply chain and the livelihoods of those involved in the sector. To address this, there is a growing need to enhance the health and well-being of livestock animals, ultimately improving their performance while minimizing their environmental impact. To tackle the considerable challenge posed by disease epidemics, multiomics approaches offer an excellent opportunity for scientists, breeders, and policymakers to gain a comprehensive understanding of animal biology, pathogens, and their genetic makeup. This understanding is crucial for enhancing the health of livestock animals. Multiomic approaches, including phenomics, genomics, epigenomics, metabolomics, proteomics, transcriptomics, microbiomics, and metaproteomics, are widely employed to assess and enhance animal health. High-throughput phenotypic data collection allows for the measurement of various fitness traits, both discrete and continuous, which, when mathematically combined, define the overall health and resilience of animals, including their ability to withstand diseases. Omics methods are routinely used to identify genes involved in host-pathogen interactions, assess fitness traits, and pinpoint animals with disease resistance. Genome-wide association studies (GWAS) help identify the genetic factors associated with health status, heat stress tolerance, disease resistance, and other health-related characteristics, including the estimation of breeding value. Furthermore, the interaction between hosts and pathogens, as observed through the assessment of host gut microbiota, plays a crucial role in shaping animal health and, consequently, their performance. Integrating and analyzing various heterogeneous datasets to gain deeper insights into biological systems is a challenging task that necessitates the use of innovative tools. Initiatives like MiBiOmics, which facilitate the visualization, analysis, integration, and exploration of multiomics data, are expected to improve prediction accuracy and identify robust biomarkers linked to animal health. In this review, we discuss the details of multiomics concerning the health and well-being of livestock animals., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2024 Ratan Kumar Choudhary et al.)

Published

2024

3. Transmission of African swine fever virus to the wild boars of Northeast India.

Author

Buragohain L, Barman NN, Sen S, Bharali A, Dutta B, Choudhury B, Suresh KP, Gaurav S, Kumar R, Ali S, Kumar S, and Singh Malik Y

Subjects

Swine, Animals, Phylogeny, Sus scrofa, Disease Outbreaks, African Swine Fever Virus genetics, African Swine Fever epidemiology, Swine Diseases epidemiology

Abstract

Background: India recorded the first outbreak of African swine fever (ASF) in North-eastern region (NER) in the year 2020., Aim: The current study was undertaken to investigate the transmission of African swine fever virus (ASFV) in the wild boars of Northeast India, particularly of Assam., Material and Methods: ASF suspected mortal tissue remains and blood samples of wild boars collected from different locations of Assam were screened for molecular detection of swine viruses which includes Classical swine fever virus, Porcine Circovirus 2, Porcine reproductive and respiratory syndrome virus and ASFV., Results: One sample each from Manas and Nameri National Parks was detected positive for ASFV. Besides this, one of the samples was positive for CSFV and one of the ASFV positive samples was also positive for PCV2. Several striking gross and microscopic alterations were noticed in different organs of ASFV infected animals. Sequencing and phylogenetic analysis of B646L gene confirmed the presence of ASFV genotype-II in wild boars. Circulation of similar genotype in domestic pigs of NER in the contemporary period as well as locations near to the aforementioned national parks indicates the transmission of ASFV from domestic to wild boars., Clinical Relevance: The detection of ASFV in the wild boars of Assam is alarming as it is an impending threat to pig population and other endangered species (particularly Pygmy hog), making it increasingly daunting to control the disease., Conclusion: Chances are high for ASFV to become endemic in Assam region if stringent measures are not taken at proper time.

Published

2023

4. Special focus 'SARS-CoV-2 / COVID-19: advances in developing vaccines and immunotherapeutics'.

Author

Dhama K, Singh Malik Y, Rabaan AA, and Rodriguez-Morales AJ

Subjects

COVID-19 epidemiology, COVID-19 immunology, COVID-19 Vaccines immunology, Humans, Immunotherapy methods, SARS-CoV-2 immunology, Viral Vaccines immunology, Viral Vaccines therapeutic use, COVID-19 prevention & control, COVID-19 Vaccines therapeutic use, Global Health trends, Immunotherapy trends, SARS-CoV-2 drug effects

Published

2020

5. Transmission of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) to animals: an updated review.

Author

Salajegheh Tazerji S, Magalhães Duarte P, Rahimi P, Shahabinejad F, Dhakal S, Singh Malik Y, Shehata AA, Lama J, Klein J, Safdar M, Rahman MT, Filipiak KJ, Rodríguez-Morales AJ, Sobur MA, Kabir F, Vazir B, Mboera L, Caporale M, Islam MS, Amuasi JH, Gharieb R, Roncada P, Musaad S, Tilocca B, Koohi MK, Taghipour A, Sait A, Subbaram K, Jahandideh A, Mortazavi P, Abedini MA, Hokey DA, Hogan U, Shaheen MNF, Elaswad A, Elhaig MM, and Fawzy M

Subjects

Animal Husbandry, Animals, COVID-19, Cats, Coronavirus classification, Coronavirus genetics, Coronavirus Infections epidemiology, Coronavirus Infections transmission, Disease Reservoirs veterinary, Disease Reservoirs virology, Dogs, Genome, Viral, Humans, Mink virology, Netherlands epidemiology, Occupational Exposure, Pets virology, Phylogeny, Pneumonia, Viral epidemiology, Pneumonia, Viral transmission, SARS-CoV-2, Spike Glycoprotein, Coronavirus genetics, Translational Research, Biomedical, Zoonoses epidemiology, Betacoronavirus classification, Betacoronavirus genetics, Betacoronavirus pathogenicity, Coronavirus Infections veterinary, Pandemics veterinary, Pneumonia, Viral veterinary, Zoonoses transmission

Abstract

COVID-19 caused by a novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) originated in Wuhan (Hubei province, China) during late 2019. It has spread across the globe affecting nearly 21 million people with a toll of 0.75 million deaths and restricting the movement of most of the world population during the past 6 months. COVID-19 became the leading health, economic, and humanitarian challenge of the twenty-first century. In addition to the considerable COVID-19 cases, hospitalizations, and deaths in humans, several cases of SARS-CoV-2 infections in animal hosts (dog, cat, tiger, lion, and mink) have been reported. Thus, the concern of pet owners is increasing. Moreover, the dynamics of the disease requires further explanation, mainly concerning the transmission of the virus from humans to animals and vice versa. Therefore, this study aimed to gather information about the reported cases of COVID-19 transmission in animals through a literary review of works published in scientific journals and perform genomic and phylogenetic analyses of SARS-CoV-2 isolated from animal hosts. Although many instances of transmission of the SARS-CoV-2 have been reported, caution and further studies are necessary to avoid the occurrence of maltreatment in animals, and to achieve a better understanding of the dynamics of the disease in the environment, humans, and animals. Future research in the animal-human interface can help formulate and implement preventive measures to combat the further transmission of COVID-19.

Published

2020

6. Case Report: Management of Dead Intraocular Helminth Parasites in Asymptomatic Patients.

Author

Sah R, Khatri A, Kharel R, Kc H, Rabaan AA, Tiwari R, Dhama K, Singh Malik Y, Donovan S, Rodriguez-Morales AJ, Muigg V, and Neumayr A

Subjects

Adult, Animals, Anterior Chamber, Disease Management, Female, Humans, Male, Middle Aged, Nepal, Watchful Waiting, Angiostrongylus cantonensis, Asymptomatic Infections therapy, Cestode Infections therapy, Eye Infections, Parasitic therapy, Incidental Findings, Spirometra, Strongylida Infections therapy

Abstract

We report four asymptomatic patients from Nepal with an incidental finding of a dead intraocular helminth parasite on ophthalmological routine examination. Because the patients were asymptomatic and the intraocular helminth parasites dead without noted pathology present, it was decided to abstain from surgical removal and pursue a watch-and-wait strategy. The clinical follow-up of the four patients over two years was uneventful and showed no complications. We conclude that dead intraocular helminth parasites in asymptomatic patients without apparent pathology do not require surgical removal.

Published

2020

7. Nipah virus: epidemiology, pathology, immunobiology and advances in diagnosis, vaccine designing and control strategies - a comprehensive review.

Author

Singh RK, Dhama K, Chakraborty S, Tiwari R, Natesan S, Khandia R, Munjal A, Vora KS, Latheef SK, Karthik K, Singh Malik Y, Singh R, Chaicumpa W, and Mourya DT

Subjects

Animals, Cat Diseases epidemiology, Cat Diseases prevention & control, Cat Diseases virology, Cats, Dog Diseases epidemiology, Dog Diseases prevention & control, Dog Diseases virology, Dogs, Henipavirus Infections epidemiology, Henipavirus Infections prevention & control, Henipavirus Infections virology, Humans, Nipah Virus classification, Henipavirus Infections veterinary, Nipah Virus immunology, Viral Vaccines administration & dosage, Viral Vaccines analysis, Viral Vaccines therapeutic use, Zoonoses epidemiology, Zoonoses prevention & control, Zoonoses virology

Abstract

Nipah (Nee-pa) viral disease is a zoonotic infection caused by Nipah virus (NiV), a paramyxovirus belonging to the genus Henipavirus of the family Paramyxoviridae. It is a biosafety level-4 pathogen, which is transmitted by specific types of fruit bats, mainly Pteropus spp. which are natural reservoir host. The disease was reported for the first time from the Kampung Sungai Nipah village of Malaysia in 1998. Human-to-human transmission also occurs. Outbreaks have been reported also from other countries in South and Southeast Asia. Phylogenetic analysis affirmed the circulation of two major clades of NiV as based on currently available complete N and G gene sequences. NiV isolates from Malaysia and Cambodia clustered together in NiV-MY clade, whereas isolates from Bangladesh and India clusterered within NiV-BD clade. NiV isolates from Thailand harboured mixed population of sequences. In humans, the virus is responsible for causing rapidly progressing severe illness which might be characterized by severe respiratory illness and/or deadly encephalitis. In pigs below six months of age, respiratory illness along with nervous symptoms may develop. Different types of enzyme-linked immunosorbent assays along with molecular methods based on polymerase chain reaction have been developed for diagnostic purposes. Due to the expensive nature of the antibody drugs, identification of broad-spectrum antivirals is essential along with focusing on small interfering RNAs (siRNAs). High pathogenicity of NiV in humans, and lack of vaccines or therapeutics to counter this disease have attracted attention of researchers worldwide for developing effective NiV vaccine and treatment regimens.

Published

2019