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Understanding how humans cope in extreme environments has expanded our knowledge of the physiological and psychological challenges involved and helped us to quit our comfortable paradigms built on “steady states”. Furthermore, measuring our reactions to intermittent stressors and determining the oscillations of our coping mechanisms has led us to unexpected understandings. This methodology has also directly improved our translational or multidisciplinary approach to the subject. Studying healthy individuals in extreme environments could improve our understanding of patients with impaired physiological capacities (who are coping with an environment that becomes extreme to them) and also improve our understanding of physiology and psychology in the elderly.This eBook collects articles that address this translational multidisciplinary approach in an integrative way. As a whole, this Research Topic aims to better understand human/animal physiology and psychology.
Since the beginning of life, all plant and animal kingdoms have been developed or modified based on gravity along with atmospheric composition and solar radiation existing on Earth. Gravity is mainly encoded by the otolithic sensors of the vestibular system but its role has been largely underestimated in favor of the vestibular semicircular canals and reduced to oculomotor and postural coordination. Over the last decade, it has been demonstrated that sensory information provided by the vestibular system is crucial in spatial-memory processes in rats and humans. More recently a role in attention processes has been raised. This topic aims to report and demonstrate the role and integration of vestibular information in cognitive processes in rodent models and human at the behavioral, imaging and electrophysiological levels.
In this 2nd edition, the following article has been added: Fricker D, Beraneck M, Tagliabue M and Jeffery KJ (2020) Editorial: Coding for Spatial Orientation in Humans and Animals: Behavior, Circuits and Neurons. Front. Neural Circuits 14:619073. doi: 10.3389/fncir.2020.619073
The control of balance by the central nervous system is crucial to maintain our posture and perform efficiently our daily motor tasks. This control requires the development of dynamical phenomena sub-served by highly-coordinated patterns of muscle activation/deactivation disseminated throughout the whole-body and called “postural adjustments”. Establishing the interaction between balance control, locomotion and cognition has important clinical implication, especially in term of falls prevention, and will improve our knowledge on the underlying neural correlates. This Research Topic provides an up-to-date picture of the relationship between postural adjustments, body balance and motor per...
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An innovative somatic and attachment-based treatment for working with children and adolescents who suffer from complex trauma and neglect "[This] is a ground-breaking new approach to treating traumatized children, based on the combination of keen clinical observation, sensory integration, and a deep understanding of the latest advances in the neuroscience of trauma."—Bessel van der Kolk, MD, best-selling author of The Body Keeps the Score The SMART (Sensory Motor Arousal Regulation Treatment) program addresses three key processes that can be derailed by developmental trauma--somatic regulation, trauma processing, and attachment-building--and uses movement and sensation to target the neurol...