Sashwati Roy mostly deals with Biochemistry, Wound healing, Cell biology, Glutathione and Angiogenesis. His work in Biochemistry addresses issues such as Pharmacology, which are connected to fields such as Subarachnoid hemorrhage. His study with Wound healing involves better knowledge in Immunology.
His Cell biology research is multidisciplinary, incorporating elements of Endothelial stem cell and Inflammation. Sashwati Roy combines subjects such as Oxidative stress, Cystine, Lipoic acid and Thiol with his study of Glutathione. His Angiogenesis research is multidisciplinary, relying on both Hypoxia, Kinase insert domain receptor, Vascular endothelial growth factor, Tube formation and Resveratrol.
His primary areas of study are Wound healing, Cell biology, Biochemistry, Internal medicine and Inflammation. His Wound healing research includes themes of Angiogenesis, Wound care, Hypoxia and Pathology. His Cell biology study combines topics from a wide range of disciplines, such as microRNA and Gene knockdown.
Many of his studies on Biochemistry apply to Pharmacology as well. He has included themes like Endocrinology and Cardiology in his Internal medicine study. His study in Glutathione is interdisciplinary in nature, drawing from both Oxidative stress, Cystine and Antioxidant.
Sashwati Roy focuses on Wound healing, Biofilm, Microbiology, Inflammation and Cell biology. His studies deal with areas such as Wound care and Keratinocyte as well as Wound healing. His research integrates issues of Antimicrobial and Neuroscience in his study of Biofilm.
His Inflammation study is concerned with Immunology in general. His research in Cell biology intersects with topics in Cell culture, microRNA, Programmed cell death and In vivo. His study on Efferocytosis also encompasses disciplines like
His scientific interests lie mostly in Cell biology, Microbiology, Wound healing, Inflammation and Biofilm. His Cell biology research is multidisciplinary, relying on both Viability assay, Cell culture, microRNA and Stroke. His work carried out in the field of Microbiology brings together such families of science as Pseudomonas aeruginosa, Immune system and Staphylococcus aureus.
The various areas that he examines in his Wound healing study include Efferocytosis, Macrophage and Cancer research, Angiogenesis. The study incorporates disciplines such as Microrna 146a, Diabetic wound healing, Effective treatment and Urology in addition to Inflammation. In Ex vivo, Sashwati Roy works on issues like Pharmacology, which are connected to Biochemistry.
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Human skin wounds: a major and snowballing threat to public health and the economy.
Chandan K. Sen;Gayle M. Gordillo;Sashwati Roy;Robert Kirsner.
Wound Repair and Regeneration (2009)
MicroRNA expression in response to murine myocardial infarction: miR-21 regulates fibroblast metalloprotease-2 via phosphatase and tensin homologue
Sashwati Roy;Savita Khanna;Syed-Rehan A. Hussain;Sabyasachi Biswas.
Cardiovascular Research (2009)
Tocotrienols: Vitamin E Beyond Tocopherols
Chandan K. Sen;Savita Khanna;Sashwati Roy.
Life Sciences (2006)
Macrophage dysfunction impairs resolution of inflammation in the wounds of diabetic mice.
Savita Khanna;Sabyasachi Biswas;Yingli Shang;Eric Collard.
PLOS ONE (2010)
Monocyte and Macrophage Plasticity in Tissue Repair and Regeneration
Amitava Das;Mithun Sinha;Soma Datta;Motaz Abas.
American Journal of Pathology (2015)
Copper-induced vascular endothelial growth factor expression and wound healing.
Chandan K. Sen;Savita Khanna;Mika Venojarvi;Prashant Trikha.
American Journal of Physiology-heart and Circulatory Physiology (2002)
Lipoic acid increases de novo synthesis of cellular glutathione by improving cystine utilization
Derick Han;Garry Handelman;Lucia Marcocci;Lucia Marcocci;Chandan K. Sen;Chandan K. Sen.
Dermal Wound Healing Is Subject to Redox Control
Sashwati Roy;Savita Khanna;Kishore Nallu;Thomas K. Hunt.
Molecular Therapy (2006)
TOCOTRIENOLS IN HEALTH AND DISEASE: THE OTHER HALF OF THE NATURAL VITAMIN E FAMILY
Chandan K. Sen;Savita Khanna;Sashwati Roy.
Molecular Aspects of Medicine (2007)
Molecular Basis of Vitamin E Action TOCOTRIENOL POTENTLY INHIBITS GLUTAMATE-INDUCED pp60c-Src KINASE ACTIVATION AND DEATH OF HT4 NEURONAL CELLS
Chandan K. Sen;Savita Khanna;Sashwati Roy;Lester Packer.
Journal of Biological Chemistry (2000)
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