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藤田医科大学 ホーム
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臨床工学科
藤田医科大学
医療科学部
概要
フィンガープリント
ネットワーク
研究成果
(67)
フィンガープリント
臨床工学科が活動している研究トピックを掘り下げます。これらのトピックラベルは、この組織のメンバーの研究成果に基づきます。これらがまとまってユニークなフィンガープリントを構成します。
並べ替え順
重み付け
アルファベット順
Keyphrases
Hemodialysis
100%
Removal System
100%
Alzheimer's Disease
96%
Medical Training System
72%
Heart-lung Machine
54%
Troubleshooting
54%
Training System
54%
Cognitive Function
45%
Therapeutic Strategies
45%
Extracorporeal Removal
45%
Information Communication Technology
42%
Hemodialysis Patients
39%
Trunk muscle Strength
36%
Potential Therapy
36%
Efficient Removal
36%
Insertion Angle
36%
Virtual Reality Technology
36%
Adsorptive Filtration
36%
Filtration System
36%
Rotator Cuff Function
36%
Brain Amyloid
36%
Equipment Operation
36%
Sweeping Frequency
36%
Cognitive State
36%
Synthetic Glycopeptides
36%
Proprioceptive Input
36%
Lumbar Spinal Disease
36%
Backward Walking
36%
Gait Cadence
36%
Walking Exercise
36%
Immediate Effect
36%
Human Peripheral Blood Lymphocytes
36%
Nonwoven Filter
36%
Star-shaped
36%
Potential Therapeutic Strategies
36%
Insertion Force
36%
Enhanced Production
36%
Medical Equipment
36%
Resistance Training Systems
36%
Force Adjustment
36%
Control Function
36%
Chronic Nonspecific Low Back Pain
36%
Quantitative Evaluation
36%
Chronic Low Back Pain (cLBP)
36%
Paraspinal muscles
36%
Puncture Technique
36%
Teaching Effect
36%
Teaching System
36%
Teaching Practice
36%
Risk Factors for Dementia
36%
Rehabilitation Support System
36%
Shoulder Joint Function
36%
Acupuncture
36%
Music Therapy
36%
Simulation Accuracy
36%
Music Effect
36%
Virtual Reality
36%
Brain Imaging
36%
Operating Force
36%
Sensorimotor Integration
36%
Cellulose Beads
36%
Proprioception
36%
Postural Sway
36%
Therapeutic System
36%
Alkyl Ligands
36%
Force Feedback
36%
Welcome
36%
Education Training
36%
Extracorporeal System
36%
Haptic Device
36%
Training Environments for Skills
36%
Promote Wound Healing
36%
Skill Mastery
36%
Vibratory Stimulation
36%
Adsorption Mode
36%
Technical Support System
36%
Operational Practices
36%
Training Content
36%
Clinical Engineer
36%
Insertion Technique
36%
Mastery-approach
36%
Simulation System
36%
Education Environment
36%
Computer Support
36%
Cellulose Particles
33%
L1-L2
29%
Quantitative Evaluation Method
27%
Joint Movement
27%
Internal-external Rotation
27%
Computer Simulation System
24%
Circular Shape
24%
Music Stimuli
24%
Fine Movement
24%
Erector Spinae muscle
21%
Air-filled
21%
Pathological Changes
21%
Amyloid Protein
21%
Polyethylene Terephthalate
20%
Muscle Vibration
18%
Education Learning
18%