Search results for "Gravity Sensing"

showing 4 items of 4 documents

Grip Force Adjustments Reflect Prediction of Dynamic Consequences in Varying Gravitoinertial Fields

2018

International audience; Humans have a remarkable ability to adjust the way they manipulate tools through a genuine regulation of grip force according to the task. However, rapid changes in the dynamical context may challenge this skill, as shown in many experimental approaches. Most experiments adopt perturbation paradigms that affect only one sensory modality. We hypothesize that very fast adaptation can occur if coherent information from multiple sensory modalities is provided to the central nervous system. Here, we test whether participants can switch between different and never experienced dynamical environments induced by centrifugation of the body. Seven participants lifted an object …

Gravity (chemistry)object manipulationPhysiologyComputer science[SDV.MHEP.PHY] Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO]Context (language use)gravity sensing03 medical and health sciencesAcceleration0302 clinical medicinePhysiology (medical)internal-modelsmotor control[SDV.MHEP.PHY]Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO]movements[SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]uncertaintySimulationhypergravityOriginal Research030304 developmental biologybayesian integration0303 health sciencessensorimotor memoryswitchinggrip forceGRASPsize cuesrecision gripgravity[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Grip force030217 neurology & neurosurgerysensory information
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Biased postural vertical in humans with hemispheric cerebral lesions.

1998

International audience; This study was aimed at demonstrating the existence of a biased postural vertical in humans with a recent cerebral lesion. The postural vertical of patients and controls was analysed comparatively using a self-regulated balancing task, performed in sitting posture. Patients displayed a quite constant (19/22) contralesional tilt of the postural vertical (mean -2.6 degrees), varying with the severity of their spatial neglect and hemianaethesia. Eight of them showed a pathological contralesional bias (mean -5.5 degrees) as compared to normals. This result indicates an asymmetric process of somatic graviceptive information due to some cerebral lesions. When patients were…

Malemedicine.medical_specialtymedia_common.quotation_subjectMESH : MalePostureTranscutaneous electrical nerve stimulationMESH : Cerebrovascular Disorderslaw.inventionNeglectLesion[ SDV.NEU.SC ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Cognitive SciencesPhysical medicine and rehabilitationCerebral lesionMESH : Postural BalancelawOrientation (mental)MESH : Gravity SensingmedicineMESH : Transcutaneous Electric Nerve StimulationHumansMESH : FemaleMESH : Middle AgedGravity SensingPostural Balancemedia_commonCerebral CortexGeneral NeuroscienceMESH : HumansMESH : PostureMiddle AgedCerebrovascular DisordersBody schemaCerebral hemisphereTranscutaneous Electric Nerve StimulationVisual PerceptionMESH : Cerebral CortexFemalemedicine.symptomPsychologyTilt (camera)NeuroscienceMESH : Visual Perception[SDV.NEU.SC] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Cognitive Sciences
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The sensorimotor and cognitive integration of gravity.

1998

In order to demonstrate that gravity is not only a load acting locally and continuously on the body limbs, but is also used by higher levels of the nervous system as a dynamic orienting reference for the elaboration of the motor act, a review of several experiments conducted both in 1 g and 0 g are presented. During various locomotor tasks, the strategy that consists of stabilizing the head with respect to gravity illustrates one of the solutions used by the CNS to optimize the control of dynamic equilibrium. A question which remains to be solved when considering experimental results obtained in weightlessness concerns, however, the maintenance of motor schema that has evolved under normal …

Gravity (chemistry)WeightlessnessProcess (engineering)WeightlessnessGeneral NeuroscienceMovementPostureInformation processingMotor controlBody movementKinematicsCognitionControl theoryArmHumansNeurology (clinical)Gravity SensingRepresentation (mathematics)PsychologyNeuroscienceGravitationBrain research. Brain research reviews
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Kinematic and dynamic processes for the control of pointing movements in humans revealed by short-term exposure to microgravity.

2004

The generation of accurate motor commands requires implicit knowledge of both limb and environmental dynamics. The action of gravity on moving limb segments must be taken into account within the motor command, and may affect the limb trajectory chosen to accomplish a given motor task. Exactly how the CNS deals with these gravitoinertial forces remains an open question. Does the CNS measure gravitational forces directly, or are they accommodated in the motor plan by way of internal models of physical laws? In this study five male subjects participated. We measured kinematic and dynamic parameters of upward and downward arm movements executed at two different speeds, in both normal Earth grav…

AdultMaleTime FactorsWeightlessnessComputer scienceWeightlessnessGeneral NeuroscienceMovementDynamics (mechanics)Motor controlBody movementMechanicsKinematicsBiomechanical PhenomenaGravity of EarthNonlinear DynamicsTorqueTrajectoryArmTorqueHumansGravity SensingPsychomotor PerformanceNeuroscience
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