Hemal H. Patel

What is he best known for?

The fields of study he is best known for:

• Gene
• Internal medicine
• Enzyme

His main research concerns Cell biology, Caveolae, Signal transduction, Lipid raft and Caveolin. The concepts of his Cell biology study are interwoven with issues in Receptor, Biochemistry and Ischemic preconditioning. His Caveolae research incorporates elements of Myocyte and Cell signaling.

Hemal H. Patel interconnects Ischemia, Cardiology, Immunology, Caveolin 3 and Opioid in the investigation of issues within Myocyte. His Signal transduction study incorporates themes from Transforming growth factor, Endocrinology, Hepatic stellate cell, Fibroblast and Caveolin 1. The various areas that Hemal H. Patel examines in his Caveolin study include Cell physiology, Endoplasmic reticulum and Intracellular.

His most cited work include:

• Caveolae as Organizers of Pharmacologically Relevant Signal Transduction Molecules (363 citations)
• Interaction of membrane/lipid rafts with the cytoskeleton: impact on signaling and function: membrane/lipid rafts, mediators of cytoskeletal arrangement and cell signaling. (311 citations)
• Microtubules and Actin Microfilaments Regulate Lipid Raft/Caveolae Localization of Adenylyl Cyclase Signaling Components (227 citations)

What are the main themes of his work throughout his whole career to date?

Hemal H. Patel mainly focuses on Cell biology, Internal medicine, Endocrinology, Caveolae and Caveolin. Signal transduction, Caveolin 1, Lipid raft, Caveolin 3 and Myocyte are the primary areas of interest in his Cell biology study. His work deals with themes such as Neuroplasticity, Neuroscience and Neuron, which intersect with Caveolin 1.

His Internal medicine study combines topics from a wide range of disciplines, such as Diabetes mellitus and Cardiology. His Caveolae study integrates concerns from other disciplines, such as Cell signaling and Mitochondrion. His Cardioprotection course of study focuses on Pharmacology and Isoflurane, Apoptosis and Biochemistry.

He most often published in these fields:

• Cell biology (47.81%)
• Internal medicine (39.37%)
• Endocrinology (29.37%)

What were the highlights of his more recent work (between 2016-2021)?

• Internal medicine (39.37%)
• Endocrinology (29.37%)
• Cell biology (47.81%)

In recent papers he was focusing on the following fields of study:

Hemal H. Patel mainly investigates Internal medicine, Endocrinology, Cell biology, Neuroscience and Caveolin 1. His studies deal with areas such as Diabetes mellitus and Cardiology as well as Internal medicine. His Endocrinology research is multidisciplinary, incorporating perspectives in Lineage, Cardioprotection, Calcium metabolism, Calcium and Mitochondrion.

His study in Cell biology concentrates on Signal transduction, Function, Lipid raft, Caveolae and Caveolin. His work on Hippocampal formation and Neuron as part of his general Neuroscience study is frequently connected to Synapsin, thereby bridging the divide between different branches of science. His research in Caveolin 1 intersects with topics in Neuroplasticity and Rett syndrome.

Between 2016 and 2021, his most popular works were:

• The NASA Twins Study: A multidimensional analysis of a year-long human spaceflight. (186 citations)
• Caveolins and cavins in the trafficking, maturation, and degradation of caveolae: implications for cell physiology. (47 citations)
• Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition) (38 citations)

In his most recent research, the most cited papers focused on:

• Gene
• Internal medicine
• Enzyme

Hemal H. Patel mostly deals with Neuroscience, Cell biology, Caveolin 1, Hippocampal formation and Neuron. His Neuroscience research incorporates themes from Synaptic plasticity, Neurotrophic factors, Long-term potentiation and Synaptic scaling. His Cell biology research focuses on Lipid raft and Ventricular myocytes.

His Lipid raft research includes themes of Neurotrophin and Spinal cord. Hemal H. Patel combines subjects such as Hippocampus and Tropomyosin receptor kinase B with his study of Neuron. His work in Tropomyosin receptor kinase B addresses issues such as Scaffold protein, which are connected to fields such as Caveolin, Cell physiology, Caveolae and Cavin.

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