Your search keyword '"Avinash Aggarwal"' showing total 3 results

1. 1H NMR based serum metabolic profiling reveals differentiating biomarkers in patients with diabetes and diabetes-related complication

Author

Atul Rawat, Madhukar Saxena, Gunjan Misra, Sukanya Tripathi, Anand Prakash, M. Y. Khan, Durgesh Dubey, Sulekha Saxena, Varsha Gupta, and Avinash Aggarwal

Subjects

0301 basic medicine, education.field_of_study, Methionine, Arginine, business.industry, Endocrinology, Diabetes and Metabolism, Population, 030209 endocrinology & metabolism, General Medicine, Pharmacology, medicine.disease, Comorbidity, Citric acid cycle, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, Metabolomics, chemistry, Diabetes mellitus, Internal Medicine, medicine, Biomarker (medicine), business, education

Abstract

Background Diabetes is among the most prevalent diseases worldwide, of all the affected individuals a significant proportion of the population remains undiagnosed due to lack of specific symptoms early in this disorder and inadequate diagnostics. Diabetes and its associated sequela, i.e., comorbidity are associated with microvascular and macrovascular complications. As diabetes is characterized by an altered metabolism of key metabolites and regulatory pathways. Metabolic phenotyping can provide us with a better understanding of the unique set of regulatory perturbations that predispose to diabetes and its associated complication/comorbidities. Methodology The present study utilizes the analytical platform NMR spectroscopy coupled with Random Forest statistical analysis to identify the discriminatory metabolites in diabetes (DB = 38) vs. diabetes-related complication (DC = 35) along with the healthy control (HC = 50) subjects. A combined and pairwise analysis was performed to identify the discriminatory metabolites responsible for class separation. The perturbed metabolites were further rigorously validated using t-test, AUROC analysis to examine the statistical significance of the identified metabolites. Results The DB and DC patients were well discriminated from HC. However, 15 metabolites were found to be significantly perturbed in DC patients compared to DB, the identified panel of metabolites are TCA cycle (succinate, citrate), methylamine metabolism (trimethylamine, methylamine, betaine), -intermediates; energy metabolites (glucose, lactate, pyruvate); and amino acids (valine, arginine, glutamate, methionine, proline, and threonine). Conclusion The 1H NMR metabolomics may prove a promising technique to differentiate and predict diabetes and its complication on their onset or progression by determining the altered levels of the metabolites in serum.

Published

2019

2. 1H NMR Based Serum Metabolic Profiling Reveals Differentiating Biomarkers in Patients with Diabetes and Diabetes Comorbidity

Author

Atul Rawat, Mohd Yusuf Khan, Madhukar Saxena, Sulekha Saxena, Varsha Gupta, Durgesh Dubey, Gunjan Misra, Avinash Aggarwal, Anand Prakash, and Sukanya Tripathi

Subjects

Oncology, medicine.medical_specialty, business.industry, medicine.disease, Comorbidity, Metabolomics, Diabetes mellitus, Internal medicine, Proton NMR, biochemistry, Medicine, Biomarker (medicine), Profiling (information science), In patient, business

Abstract

Background: Diabetes is among the most prevalent diseases worldwide, of all the affected individuals a significant proportion of the population remains undiagnosed because of a lack of specific symptoms early in this disorder and inadequate diagnostics. Diabetes and its associated sequela, i.e., comorbidity are associated with microvascular and macrovascular complications. As diabetes is characterized by an altered metabolism of key metabolites and regulatory pathways. Metabolic phenotyping can provide us with a better understanding of the unique set of regulatory perturbations that predispose to diabetes and its associated comorbidities. Methodology: The present study utilizes the analytical platform NMR spectroscopy coupled with Random Forest statistical analysis to identify the discriminatory metabolites of diabetes (DB) and diabetes-related comorbidity (DC) along with the healthy control (HC) subjects. A combined and pairwise analysis was performed, between the serum samples of HC (n=50), and DB (n=38), and DC (n=35) individuals to identify the discriminatory metabolites responsible for class separation. The perturbed metabolites were further rigorously validated using t-test, AUROC analysis to examine the statistical significance of the identified metabolites. Results: The DB and DC patients were well discriminated from HC. However, 15 metabolites were found to be significantly perturbed in DC patients compared to DB, the identified panel of metabolites are TCA cycle (succinate, citrate), methylamine metabolism (trimethylamine, methylamine, betaine), -intermediates; energy metabolites (glucose, lactate, pyruvate); and amino acids (valine, arginine, glutamate, methionine, proline and threonine). The metabolites were further used to identify the perturbed metabolic pathway and correlation of metabolites in DC patients. Conclusion: The 1H NMR metabolomics may prove a promising technique to differentiate and predict diabetes and its comorbidities on their onset or progression by determining the altered levels of the metabolites in serum.

Published

2018

3. A reversible paralytic syndrome with anti-GD1b antibodies following influenza immunization

Author

David Lacomis, Michael J. Giuliani, and Avinash Aggarwal

Subjects

Male, Pathology, medicine.medical_specialty, Electrodiagnosis, Physiology, Diagnostico diferencial, Influenza immunization, Cellular and Molecular Neuroscience, Physiology (medical), Gangliosides, Influenza, Human, Paralysis, medicine, Humans, Motor Neuron Disease, biology, medicine.diagnostic_test, business.industry, Antibody titer, Syndrome, Middle Aged, Virology, Antibodies, Anti-Idiotypic, Influenza Vaccines, biology.protein, Neurology (clinical), medicine.symptom, Antibody, business

Published

1995