Browsing by Author "Aditi Pandey"
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PublicationErratum RETRACTED ARTICLE: Long-Term Safety Analysis of the BBV152 Coronavirus Vaccine in Adolescents and Adults: Findings from a 1-Year Prospective Study in North India (Drug Safety, (2024), 47, 12)(Adis, 2024) Upinder Kaur; Aakanksha Jaiswal; Ayushi Jaiswal; Kunal Singh; Aditi Pandey; Mayank Chauhan; Mahek Rai; Sangeeta Kansal; Kishor Patwardhan; Vaibhav Jaisawal; Sankha Shubhra ChakrabartiThe Editor has retracted this article as he no longer has confidence in the conclusions as stated in the article. Post-publication review concluded that the reported adverse events of special interest (AESIs) were presented in a way that could lead to ambiguous or incorrect interpretations regarding the relationship with the BBV152 vaccine. Given these findings, the editor and the publisher have decided that this article should be removed on public health grounds. The authors disagree with this retraction. © The Author(s)PublicationArticle Tracing the concerted modulations in the metabolome and related metabolic pathways of tree species under simulated particulate matter stress through high-resolution NMR spectroscopy(Elsevier Masson s.r.l., 2025) Harshita P. Singh; Aditi Pandey; Shahibhushan Agrawal; Bikash Baishya; Madhoolika AgrawalParticulate matter (PM) pollution presents a significant environmental challenge for urban vegetation. Trees have increasingly been used for remediation as a sink for PM which has harmful effects on their foliage. It is essential to trace and understand the effect of PM on the metabolomics of trees and related pathways to screen trees for efficient urban greening. In this study, we exposed three dominant tree species from the Indo-Gangetic Plains to varying levels of PM over three years. Using Nuclear Magnetic Resonance (NMR) spectroscopy-based metabolomics and partial least squares-discriminant analysis (PLS-DA), we found that rising PM concentrations altered the metabolite levels in these species, with metabolic alteration having higher similarity between P. guajava and F. religiosa. All the tree species experienced disruptions in carbon metabolism (starch and sucrose & TCA cycle) due to increasing PM stress, along with impacts on glutamine metabolism, which helps mitigate oxidative stress. The most significant changes in Ficus religiosa > Psidium guajava > Dalbergia sissoo. The findings could provide insights into the metabolic resilience and vulnerability of tree species to particulate pollution. © 2025 Elsevier Masson SAS