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Department of Neurology, School of Medicine, Keio University | 論文
- Altered levels of serotonin in lymphoblasts derived from migraine patients
- Antithrombolytic Therapy for Sclerotic Diseases 1) Antithrombotic Treatment in Ischemic Cerebrovascular Disease
- Distinguishing Patients with Senile Dementia of Alzheimer Type and Normal Elderly Subjects Utilizing Xenon CT-CBF and Multivariate Analysis
- Is Nitric Oxide Really Important for Regulation of the Cerebral Circulation? Yes or No?
- Regulation of Cerebral Microcirculation-Update
- Inhibition of nitric oxide production during global ischemia ameliorates ischemic damage of pyramidal neurons in the hippocampus
- Local Cerebral Hemodynamic Changes through the Angiographic Stages of Moyamoya Disease
- Recovery of Decreased Local Cerebral Blood Flow Detected by the Xenon/CT CBF Method in a Patient with Eclampsia
- Novel Etiological and Therapeutic Strategies for Neurodiseases : RNA Editing Enzyme Abnormality in Sporadic Amyotrophic Lateral Sclerosis
- Uncoupling of cerebral blood flow and glucose utilization in the regenerating facial nucleus after axotomy
- Post-Ischemic Hyperperfusion Does Not Necessarily Indicate Good Recovery of Brain Tissue : From the Viewpoint of PKA-Mediated Intracellular Signal Transduction
- Effect of Sympathetic Stimulation on Cerebral Circulation
- Effect of Sympathetic Nervous System Stimulation on Cerebrovascular CO_2 Responsiveness
- Retinopathy : An Overlooked Adverse Effect of Interferon-beta Treatment of Multiple Sclerosis
- Ischemic Blood Flow Values in the Brain as Influenced by the m Factor
- ACTIVATED PLATELETS ADHERE TO HUMAN BRAIN MICROVASCULAR ENDOTHELIAL CELLS IN VITRO - OBSERVATION BY VIDEO ENHANCED CONTRAST MICROSCOPY
- SOLUBLE P-SELECTIN IN THE PLASMA OF PATIENTS WITH CEREBRAL INFARCTION
- ROLE OF VOLTAGE-SENSITIVE Na^+/Ca^ CHANNELS IN THE ISCHEMIC DAMAGE OF PKA-MEDIATED SIGNAL TRANSDUCTION - THE EFFECT OF A NOVEL CHANNEL BLOCKER NS-7
- INTERLEUKIN-6 PROTEIN EXPRESSION DURING REPERFUSION AFTER FOCAL CEREBRAL ISCHEMIA IN RATS
- Role of Nitric Oxide in Autoregulation of Cerebral Blood Flow