第 1 到 24 筆結果,共 24 筆。
英文姓名 | 全名 | 單位系所 | 研究領域 |
---|---|---|---|
CHIA-LIN LEE | 李佳霖 | Brain and Mind Sciences Linguistics | Neural Basis of Language; Psychology of Language |
CHIH-CHIANG CHAN | 詹智強 | Brain and Mind Sciences Physiology | Neurogenetics |
CHIH-MIN LIU | 劉智民 | Brain and Mind Sciences Psychiatry Psychiatry-NTUH | Affective disorder; Molecular genetics; Schizophrenia; Depression |
CHIH-YUNG TANG | 湯志永 | Brain and Mind Sciences Physiology | Physiology and cell biology of synaptic networks in cultured neurons; Biophysics and cell biology of ion channels; Molecular mechanisms of channelopathies |
CHUNG-CHIN KUO | 郭鐘金 | Neurology-NTUH Brain and Mind Sciences Physiology | |
FAN-LU KUNG | 孔繁璐 | Pharmacy School of Pharmacy Brain and Mind Sciences | Protein Chemistry; Biochemistry |
HAU-JIE YAU | 姚皓傑 | Brain and Mind Sciences | Research Outline:My research interests lie in the field of neurophysiology to investigate how brain circuits connect to each other, what physiological function these connections bridge to and how these connections and neuronal activities are adapted to learning or disease progression. Conventionally, to study functional circuits, locally electrical stimulation or pharmacological manipulation has the limitation to characterize defined connections. Optogenetic approach is the combination of genetic and optical methods to reversibly control neuronal activity in targeted cells or circuits of living brain in the millisecond timescale. The advances of optogenetic technologies enable us to selectively manipulate targeted neural projections and examine their functional roles. Currently my research aims to uncover distinct neural functions attributed to selective neural circuits underlying learning and memory, as well as pain representation and modulation. To this end, my research integrates mouse models of instrumental/classical conditioning and neuropathic pain with in vitro slice electrophysiology, in vivo multi-optetrode recordings or in vivo calcium imaging in freely moving mice and optogenetic technology. |
HSIEN-SUNG HUANG | 黃憲松 | Brain and Mind Sciences | Neuroepigenetics; Neurodevelopment; Synaptic function; Neurodevelopmental disorders; Genomic imprinting |
I-WEN SU | 蘇以文 | Brain and Mind Sciences Linguistics | Discourse Analysis; Cognitive Linguistics; Pragmatics |
JOSHUA GOH | 吳恩賜 | Center for Artificial Intelligence and Advanced Robotics Brain and Mind Sciences | Information Theory; Cognitive Neuroscience; Aging; Brain Imaging; Decision-Making; Culture |
KEVIN CHIEN-CHANG WU | 吳建昌 | Medical Education and Bioethics Health Policy and Management Brain and Mind Sciences Interdisciplinary Legal Studies Psychiatry-NTUH | Pharmaceutical policy; Neuroethics and neurolaw; Bioethics (including medical ethics); Public health ethics and law; Science and technology ethics; Health care law and policy |
LI-JEN LEE | 李立仁 | Anatomy and Cell Biology Brain and Mind Sciences | Early sensory experiences; Cortical subplate neurons; Animal models of neuropsychiatric diseases |
LIH-CHU CHIOU | 邱麗珠 | Pharmacology Brain and Mind Sciences | Psychopharmacology (Schizophrenia, Addiction, Depression, ADHD, Tourette syndrome); Orexins/Cannabinoids/Opioids; Neuropharmacology (Migraine, Pain, learning memory); Electrophysiology; GABA-A receptor pharmacology |
MING-TSUNG TSENG | 曾明宗 | Brain and Mind Sciences | Pain; Cognitive neuroscience; Functional MRI; Clinical neuroscience |
PEI-FANG TANG | 湯佩芳 | Physical Therapy Center for Artificial Intelligence and Advanced Robotics Brain and Mind Sciences | Neurological physical therapy and neural plasticity in neurodegeberative diseases; Neurological physical therapy and neural plasticity in stroke; Neueoscieneces associated with motor contrl and motor learning |
PEI-YU WANG | 王培育 | Brain and Mind Sciences | 1. Calorie restriction and the aging brain--Understanding aging is a major challenge of our time, given demographic trends and the predicted burdens of an elder society. Studies investigating age-related diseases such as neurodegenerative diseases have already yielded significant insights into human senescence. Calorie restriction (CR) has emerged as the most effective intervention prolonging healthy lifespan across species, from yeast to flies to mammals. Although understanding of the role of CR in brain functions is still in its infancy, recent studies have provided some enlightenment. In a number of epidemiological studies, CR has been shown to decrease the risk for both Parkinson’s and Alzheimer’s disease. In animal models, CR is able to reduce the cognitive decline associated with Alzheimer’s disease and improve toxin-induced motor and memory dysfunctions. These observations highlight the potential for using CR-related molecules/pathways as targets for treating age-related disease. In my lab, we undertake a systematic study of the action of CR on the aging brain. Understanding the molecular basis of the effects of CR on cognition will help us to protect neurons from insults and promote mental fitness.; 2. Development of anti-aging interventions--We have previously used high throughput gene expression profiling to explore the underlying mechanism of CR-induced lifespan extension. Several novel longevity genes were identified and they were potential targets for developing CR mimetics. In addition to the genetic approach, we also screened natural products (Chinese herbs) for their ability to delay the aging process and to treat neurodegenerative disease. The anti-aging effects were evaluated in mutant mice and flies having Alzheimer’s disease-, Parkinson’s disease- and Huntington’s disease-like phenotypes. These newly developed interventions are likely to benefit people with not only a longer lifespan, but also a healthier lifespan. |
RUEY-MEEI WU | 吳瑞美 | Neurology-NTUH Psychology Brain and Mind Sciences The Clinical Center for Neuroscience and Behavior Neurology | Parkinson's disease and Movement disorders; Neuropharmacology and Neurochemistry |
SUSAN SHUR-FEN GAU | 高淑芬 | Brain and Mind Sciences Psychiatry Psychiatry-NTUH | Developmental neuropsychology and psychiatry; Biostatistic; Psychiatric, pharmacological, and genetic epidemiology; Clinical, neuropsychological, neuroimaging, treatment, genetic, and microbiome studies on attention-deficit hyperactivity disorder and autism spectrum disorder |
TZUNG-JENG HWANG | 黃宗正 | Center for Integrated Dementia Care Brain and Mind Sciences Psychiatry Psychiatry-NTUH Neurobiology and Cognitive Science Center | Mild cognitive impairment and dementia; Schizophrenia research: studies on magnetic resonance imaging, clinical symptomatology and neurocognitive function in schizophrenia; Psychopharmacology: especially on antipsychotics and hypnosedatives |
WANG-TSO LEE | 李旺祚 | Pediatrics Brain and Mind Sciences Pediatrics-NTUH | Pediatric Neurology |
WEI J. CHEN | 陳為堅 | Public Health Epidemiology and Preventive Medicine Brain and Mind Sciences | Clinical Medicine; Genetic; Epidemiology; Psychiatric |
WEI-ZEN SUN | 孫維仁 | Oncology-NTUH Anesthesiology Anesthesiology-NTUH Medical Device and Imaging Brain and Mind Sciences Biomedical Electronics and Bioinformatics | chronic non-malignant pain management; neuralgia; consultation for narcotic drug long term use |
WEN-YIH TSENG | 曾文毅 | Medical Device and Imaging Medical Imaging-NTUH Brain and Mind Sciences Biomedical Engineering | Radiation Physics; Diffusion Spectrum Imaging; Solid Mechanics; Imanging Analysis; Cardiovascular Imaging; Flow Mechanics; Cardiac MRI; Nuclear Medicine; Biophysics |
YEE-JEAN FON | 馮怡蓁 | Center for Artificial Intelligence and Advanced Robotics Brain and Mind Sciences Linguistics | Speech Corpus; Phonetics; Psycholinguistics |