Rhythm, Music, and the Brain: Scientific Foundations and Clinical ApplicationsWith the advent of modern cognitive neuroscience and new tools of studying the human brain "live," music as a highly complex, temporally ordered and rule-based sensory language quickly became a fascinating topic of study. The question of "how" music moves us, stimulates our thoughts, feelings, and kinesthetic sense, and how it can reach the human experience in profound ways is now measured with the advent of modern cognitive neuroscience. The goal of Rhythm, Music and the Brain is an attempt to bring the knowledge of the arts and the sciences and review our current state of study about the brain and music, specifically rhythm. The author provides a thorough examination of the current state of research, including the biomedical applications of neurological music therapy in sensorimotor speech and cognitive rehabilitation. This book will be of interest for the lay and professional reader in the sciences and arts as well as the professionals in the fields of neuroscientific research, medicine, and rehabilitation. |
Contents
The Essence of Time in Music | 1 |
2 Aesthetics and Psychobiology | 19 |
3 The Neural Dynamics of Rhythm | 39 |
4 Biomedical Research in Music | 61 |
5 Rhythmdriven Optimization of Motor Control | 85 |
From Social Science to Neuroscience | 113 |
7 Neurologic Music Therapy in Sensorimotor Rehabilitation | 137 |
8 Neurologic Music Therapy in Speech and Language Rehabilitation | 165 |
9 Neurologic Music Therapy in Cognitive Rehabilitation | 179 |
Appendices | 203 |
219 | |
235 | |
Other editions - View all
Rhythm, Music, and the Brain: Scientific Foundations and Clinical Applications Michael Thaut No preview available - 2008 |
Common terms and phrases
acceleration activation aesthetic applications areas attention auditory rhythm auditory system basic beat behavior brain function cerebellum client clinical cognitive neuroscience cognitive rehabilitation communication complex cuing disorders duration dysarthria elements emotional enhance entrainment example executive function exercises expressive aphasia facilitate frequency gait goals hemiola human brain instruments interval isochronous kinematic learning Mateer mechanisms melodic memory ment meter metric metronome modulation motor control motor learning motor response movement patterns muscle music and rhythm music cognition music in therapy neural neurologic music therapy neuronal neuroscience nonmusical optimization Parkinson’s disease patients perception performance physiological polyphony psychotherapy pulse R-SMM rhythmic modes rhythmic patterns rhythmic synchronization role sensorimotor sensory sequence singing skills spatial specific speech and language step stimulus period strategies tapping target techniques tempo Thaut therapist TIMP tion traumatic brain injury underlying velocity voice disorders