Nitish Katoch
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View article: <scp>MR</scp> Electrical Properties Tomography Acquisitions: A Guideline From the <scp>ISMRM</scp> Electro‐Magnetic Tissue Properties Study Group
<span>MR</span> Electrical Properties Tomography Acquisitions: A Guideline From the <span>ISMRM</span> Electro‐Magnetic Tissue Properties Study Group Open
View article: AI for Biophysical Phenomena: A Comparative Study of ChatGPT and Gemini in Explaining Liquid–Liquid Phase Separation
AI for Biophysical Phenomena: A Comparative Study of ChatGPT and Gemini in Explaining Liquid–Liquid Phase Separation Open
Recent advancements in artificial intelligence (AI), notably through generative pretrained transformers, such as ChatGPT and Google’s Gemini, have broadened the scope of research across various domains. Particularly, the role of AI in unde…
View article: Evaluation of the Possible Ameliorative Effects of Anemarrhena asphodeloides Extract on Liver Cirrhosis by Combining Biochemical Analysis and Electrical Tissue Conductivity
Evaluation of the Possible Ameliorative Effects of Anemarrhena asphodeloides Extract on Liver Cirrhosis by Combining Biochemical Analysis and Electrical Tissue Conductivity Open
Anemarrhena asphodeloides extract (AAE) has been used for the treatment of inflammatory diseases and its anti-inflammatory effects have been reported. In this feasibility study, the hepato-protective effect of AAE was evaluated in a rat li…
View article: Estimation of brain tissue response by electrical stimulation in a subject-specific model implemented by conductivity tensor imaging
Estimation of brain tissue response by electrical stimulation in a subject-specific model implemented by conductivity tensor imaging Open
Electrical stimulation such as transcranial direct current stimulation (tDCS) is widely used to treat neuropsychiatric diseases and neurological disorders. Computational modeling is an important approach to understand the mechanisms underl…
View article: Measurement of extracellular volume fraction using magnetic resonance-based conductivity tensor imaging
Measurement of extracellular volume fraction using magnetic resonance-based conductivity tensor imaging Open
Conductivity tensor imaging (CTI) using MRI is an advanced method that can non-invasively measure the electrical properties of living tissues. The contrast of CTI is based on underlying hypothesis about the proportionality between the mobi…
View article: Measurement of extracellular volume fraction using magnetic resonance-based conductivity tensor imaging
Measurement of extracellular volume fraction using magnetic resonance-based conductivity tensor imaging Open
Conductivity tensor imaging (CTI) using MRI is an advanced method that can non-invasively measure the electrical properties of living tissues. The contrast of CTI is based on underlying hypothesis about the proportionality between the mobi…
View article: Effects of Irradiation on Brain Tumors Using MR-Based Electrical Conductivity Imaging
Effects of Irradiation on Brain Tumors Using MR-Based Electrical Conductivity Imaging Open
Ionizing radiation delivers sufficient energy inside the human body to create ions, which kills cancerous tissues either by damaging the DNA directly or by creating charged particles that can damage the DNA. Recent magnetic resonance (MR)-…
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NItish katoch - Blank pages Open
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View article: Image-Based Evaluation of Irradiation Effects in Brain Tissues by Measuring Absolute Electrical Conductivity Using MRI
Image-Based Evaluation of Irradiation Effects in Brain Tissues by Measuring Absolute Electrical Conductivity Using MRI Open
Radiation-induced injury is damage to normal tissues caused by unintentional exposure to ionizing radiation. Image-based evaluation of tissue damage by irradiation has an advantage for the early assessment of therapeutic effects by providi…
View article: Comparison of Five Conductivity Tensor Models and Image Reconstruction Methods Using MRI
Comparison of Five Conductivity Tensor Models and Image Reconstruction Methods Using MRI Open
Imaging of the electrical conductivity distribution inside the human body has been investigated for numerous clinical applications. The conductivity tensors of biological tissue have been obtained from water diffusion tensors by applying s…
View article: High‐frequency electrical properties tomography at 9.4T as a novel contrast mechanism for brain tumors
High‐frequency electrical properties tomography at 9.4T as a novel contrast mechanism for brain tumors Open
Purpose To establish high‐frequency magnetic resonance electrical properties tomography (MREPT) as a novel contrast mechanism for the assessment of glioblastomas using a rat brain tumor model. Methods Six F98 intracranial tumor bearing rat…
View article: Evaluation of electrical conductivity and anisotropy in muscle tissues using conductivity tensor imaging (CTI)
Evaluation of electrical conductivity and anisotropy in muscle tissues using conductivity tensor imaging (CTI) Open
Low-frequency conductivity of an anisotropic tissue is associated with its cellular structure. Imaging of the conductivity tensor inside the human body could prove invaluable to analyses of interactions between electromagnetic fields and b…
View article: Validation of conductivity tensor imaging using giant vesicle suspensions with different ion mobilities
Validation of conductivity tensor imaging using giant vesicle suspensions with different ion mobilities Open