Neurotechnology and Brain Stimulation in Pediatric Psychiatric and Neurodevelopmental Disorders
Coordonnateurs : Oberman Lindsay M., Enticott Peter G.
Neurotechnology and Brain Stimulation in Pediatric Psychiatric and Neurodevelopmental Disorders provides a comprehensive overview of neurotechnological devices as potential treatments for psychiatric and neurodevelopmental disorders in children and adolescents. Many neuropsychiatric disorders are covered such as Autism Spectrum Disorder, ADHD, Depression, Tourette?s Syndrome, and OCD. Different device-based treatments are discussed such as Transcranial Magnetic Stimulation, Transcranial Direct Current Stimulation, Deep Brain Stimulation, Chronotherapy, and Neurofeedback.
1. Introduction to Device-Based treatments in Neuropsychiatric Disorders 2. The developing brain – relevance to pediatric neurotechnology 3. Neuropathophysiology of Pediatric Neuropsychiatric Disorders 4. Ethics of Device Based Treatments in Pediatric Neuropsychiatric Disorders 5. TMS in Autism Spectrum Disorder 6. Transcranial Magnetic Stimulation in Attention Deficit Hyperactivity Disorder 7. TMS in child/adolescent major depression 8. TMS in Tourette Syndrome and OCD 9. tDCS in Pediatric Neuropsychiatric Disorders 10. Deep Brain Stimulation for Pediatric Neuropsychiatric Disorders 11. Neurofeedback for neurodevelopmental disorders 12. Neurofeedback for emotion regulation 13. Chronotherapy for child/adolescent major depression 14. Conclusions and Future Directions for the field of Device-Based treatments in Neuropsychiatric Disorders
clinicians, researchers, students, and fellows in the fields of Child Neurology, Child Psychiatry, Neuroscience, Pediatrics, and Psychology
Dr. Enticott is a Professor of Psychology (Cognitive Neuroscience) and Director of the Cognitive Neuroscience Unit (CNU) in the School of Psychology, at Deakin University (Melbourne, Australia). Dr. Enticott’s work examines the neurobiological basis of social brain development and autism spectrum disorder (ASD) using a combination of neuroscience techniques (e.g., functional neuroimaging, electroencephalography, non-invasive brain stimulation). Dr. Enticott also conducts clinical trials assessing whether non-invasive brain stimulation (TMS, tDCS) can be used to improve both clinical and neurobiological aspects of ASD.
- Provides an overview of neuromodulatory devices as potential treatments for psychiatric and neurodevelopmental disorders in children and adolescents
- Gives evidence-based recommendations for non-drug interventions that may be effective for treatment options
- Discusses different neuromodulatory treatment options, including TMS, tDCS, DBS, chronotherapy and neurofeedback
Date de parution : 12-2018
Ouvrage de 368 p.
15x22.8 cm
Thèmes de Neurotechnology and Brain Stimulation in Pediatric... :
Mots-clés :
ADHD; Adolescents; Attention deficit hyperactivity disorder; Attention deficit–hyperactivity disorder; Autism; Autism spectrum disorder; Behavioral disorders; Brain–computer interface; Bright light therapy; Child; Child and adolescent depression; Children; Chronotherapy; Compulsive disorder; Cortical facilitation; Cortical inhibition; Deep brain stimulation; Depression; Dosing; Dystonia; EEG; Eating disorders; Environmental enrichment; Epilepsy; Evidence-Based; Excitation; Exercise; Fragile X syndrome; GABA; GABAergic signaling; Gene–environment interactions; Glutamate; Inhibition; Innovation; Juvenile parkinsonism; Learning disabilities; Limitations; Long-term depression; Long-term potentiation; Major depressive disorder; Maturation; Mirror neuron system; Motor cortex; Mouse models; Multidisciplinary; Network connectivity analysis; Neurodevelopment; Neurodevelopmental disorders; Neuroethics; Neurofeedback; Neurophysiology; Neuroplasticity; Noninvasive brain stimulation; Obsessive; Obsessive compulsive disorder; Obsessive–compulsive disorder; Pediatric brain stimulation; Phase advance; Physical activity; Rett syndrome; Schizophrenia; Sleep; Social cognition; TDCS; TMS; Targeting; Theta burst stimulation; Tourette; Tourette syndrome; Transcranial direct current stimulation; Transcranial magnetic stimulation; Vascular diseases; Wake therapy