Anusha Kashyap scite author profile

Anusha Kashyap

3Publications

21Citation Statements Received

89Citation Statements Given

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Affiliations

Nitte University, Structural Analytics (United States)

Publications

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Effect of zinc and orthophosphate corrosion inhibitors on cement‐based pipes

Parks

Kashyap

Atassi³

et al. 2012

Journal AWWA

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Many water utilities add zinc orthophosphate to treated water to reduce corrosion of plumbing materials within their distribution systems. The significance of zinc as a corrosion inhibitor was examined in bench‐scale tests of concrete corrosion. In waters with low hardness and low alkalinity, zinc orthophosphate provided better corrosion inhibition for concrete or cement‐based pipes than either zinc or orthophosphate alone. Addition of orthophosphate alone was beneficial in reducing the amount of scaling in waters with high hardness and high alkalinity.

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Molecular markers for early stratification of disease severity and progression in COVID-19

Kashyap¹,

Sebastian

Raksha

et al. 2022

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COVID-19 infections have imposed immense pressure on the healthcare system of most countries. While the initial studies have identified better therapeutic and diagnostic approaches, the disease severity is still assessed by close monitoring of symptoms by healthcare professionals due to the lack of biomarkers for disease stratification. In this study, we have probed the immune and molecular profiles of COVID-19 patients at 48-hour intervals after hospitalization to identify early markers, if any, of disease progression and severity. Our study reveals that the molecular profiles of patients likely to enter the host-immune response mediated moderate or severe disease progression are distinct even in the early phase of infection when severe symptoms are not yet apparent. Our data from 37 patients suggest that at hospitalization, IL6 (>300pg/ml) and IL8 levels (>200pg/ml) identify cytokine-dependent disease progression. Monitoring their levels will facilitate timely intervention using available immunomodulators or precision medicines in those likely to progress due to cytokine storm and help improve outcomes. Additionally, it will also help identify cytokine-independent progressive patients, not likely to benefit from immuno-modulators or precision drugs.

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Geospatial Distribution of Fluoride and Iron in Natural Water Sources in Mangalore City

Kushalan

Kashyap

Morajkar³

et al. 2023

Journal of Health and Allied Sciences NU

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Water is the most essential substance that supports life on earth. Animals and plants require water for their survival. Since water is being lost or used by our body, it is essential to replace it constantly. Humans need clean, potable water for consumption and to meet their daily hygiene needs. However, increased anthropogenic activities have caused a drastic increase in heavy metals in fresh waters. Heavy metals interfere with the normal physiology of the human body. It binds to cellular components, leading to dysfunction of the metabolic processes in our body. This study was undertaken to study the geospatial distribution of selected heavy metals in open-well waters within Mangalore City Corporation limits. Mangalore is perched strategically on the path of rapid development, heading toward becoming a smart city in India. Water samples were collected from all 60 wards in the jurisdiction of Mangalore City Corporation. The fluoride concentration was estimated using the spectrophotometric method using the Sodium 2-(parasulfophenylazo)-1,8-dihydroxy3,6-naphthalene disulfonate (SPADNS) reagent. Similarly, iron was estimated using the phenanthroline reagent. The findings report that the pH of the samples was acidic in 20 wards. Panambur, Kunjathbail North, Mannagudda, Court and Cantonment water was colored. Kunjathbail (North), Kunjathbail (South), Kambala, Kadri North, Bendoor, Bolar, Mannagudda, and Markada, showed high turbidity levels. The fluoride concentration in the samples collected from 60 wards of Mangalore city was less than 1.5 ppm, which is the permissible limit by the World Health Organization. Iron is within the permissible limit except for the wards Court and Boloor, which showed an iron concentration of 0.4 ppm and 3.08 ppm, respectively. However, arsenic was not detected in any of the 180 samples collected from the 60 wards of Mangalore City Corporation.

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Anusha Kashyap

Effect of zinc and orthophosphate corrosion inhibitors on cement‐based pipes

Molecular markers for early stratification of disease severity and progression in COVID-19

Geospatial Distribution of Fluoride and Iron in Natural Water Sources in Mangalore City

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