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Autism: The Movement Perspective
Autism Spectrum Disorders (ASD) is portrayed as cognitive and social disorders. Undoubtedly, impairments in communication and restricted-repetitive behaviors that now define the disorders have a profound impact on social interactions. But can we go beyond the descriptive, observational nature of this definition and objectively measure that amalgamate of motions and sensations that we call behavior? In this Research Topic we bring movement and its sensation to the forefront of autism research, diagnosis, and treatment. We gather researchers across disciplines with the unifying goal of recognizing movement and sensory disturbances as core symptoms of the disorder. We also hear confirmation fro...
Autism: The Movement (Sensing) Perspective a Decade Later
A decade ago, in 2013, the Research Topic "Autism the Movement Perspective", proposed the radical idea that using movement and its sensations could help us better understand the many complex layers of autism spectrum disorders. Inspired by earlier work from other fields, the work positioned front and center approaches from neuromotor control, infusing the research with new computational ideas to study autism across the human lifespan. Through the lens of motor variability as a form of kinesthetic reafference, causal inference and predictive codes, the Research Topic brought together a group of researchers, parents, practitioners, and self-advocates to rethink autism as sensory motor differences contributing to the emergence of powerful coping mechanisms that advanced our understanding of how the human brain develops and functions. Today, with new improvements in biosensing technologies, and neuroscience, and the embodied and affective psychology on which development is based, we revisit this Research Topic, approaching autism anew through a modernized lens of precision aimed at enabling socio-motor agency.
The Clinical and Ethical Practice of Neuromodulation – Deep Brain Stimulation and Beyond
Neuromodulation is among the fastest-growing areas of medicine, involving many diverse specialties and affecting hundreds of thousands of patients with numerous disorders worldwide. It can briefly be described as the science of how electrical, chemical, and mechanical interventions can modulate the nervous system function. A prominent example of neuromodulation is deep brain stimulation (DBS), an intervention that reflects a fundamental shift in the understanding of neurological and psychiatric diseases: namely as resulting from a dysfunctional activity pattern in a defined neuronal network that can be normalized by targeted stimulation. The application of DBS has grown remarkably and more than 130,000 patients worldwide have obtained a DBS intervention in the past 30 years—most of them for treating movement disorders. This Frontiers Research Topics provides an overview on the current discussion beyond basic research in DBS and other brain stimulation technologies. Researchers from various disciplines, who are working on broader clinical, ethical and social issues related to DBS and related neuromodulation technologies, have contributed to this research topic.
Sound, Music and Movement in Parkinson’s Disease
Recent years have brought new insights to the understanding of Parkinson’s disease, impact of exercise and sound displays in rehabilitation and movement facilitation. There is growing evidence that auditory signals in the environment can provide a temporal template for movement and change the mode of motor control from intrinsic to extrinsic; habitual to goal-directed, enabling enhanced motor performance in patients. In addition, forced exercise rate studies show that exercising at the pace of healthy adults can have potential neuroprotective benefits for patients. Many research groups have explored the use of auditory cues (such as rhythmical auditory training) in improving gait and upper...
Objective Biometric Methods for the Diagnosis and Treatment of Nervous System Disorders
Objective Biometric Methods for the Diagnosis and Treatment of Nervous System Disorders provides a new and unifying methodological framework, introducing new objective biometrics to characterize patterns of sensory motor control underlying symptoms. Its goal is to radically transform the ways in which disorders of the nervous system are currently diagnosed, tracked, researched and treated. This book introduces new ways to bring the laboratory to the clinical setting, to schools and to settings of occupational and physical therapy. Ready-to-use, graphic user interfaces are introduced to provide outcome measures from wearable sensors that automatically assess in near real time the effectivenes...
The role of body and environment in cognition
Recent evidence has shown many ways in which our bodies and the environment influence cognition. In this Research Topic we aim to develop our understanding of cognition by considering the diverse and dynamic relationship between the language we use, our bodily perceptions, and our actions and interactions in the broader environment. There are already many empirical effects illustrating the continuity of mind- body-environment: manipulating body posture influences diverse areas such as mood, hormonal responses, and perception of risk; directing attention to a particular sensory modality can affect language processing, signal detection, and memory performance; placing implicit cues in the envi...
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