Your search keyword '"Raffi M."' showing total 3 results

1. Laterality of Stance during Optic Flow Stimulation in Male and Female Young Adults

Author

Milena Raffi, Alessandro Piras, Salvatore Squatrito, Michela Persiani, Persiani, M., Piras, A., Squatrito, S., and Raffi, M.

Subjects

force platform, Adult, Male, medicine.medical_specialty, Article Subject, Posture, lcsh:Medicine, Stimulation, Optic Flow, postural control, General Biochemistry, Genetics and Molecular Biology, Lateralization of brain function, Postural control, Young Adult, Physical medicine and rehabilitation, Center of pressure (terrestrial locomotion), Postural Balance, Humans, Medicine, Force platform, Young adult, General Immunology and Microbiology, Foot, business.industry, center of pressure (COP), lcsh:R, General Medicine, Anatomy, Laterality, visual system, Female, gender differences, business, Photic Stimulation, Research Article

Abstract

During self-motion, the spatial and temporal properties of the optic flow input directly influence the body sway. Men and women have anatomical and biomechanical differences that influence the postural control during visual stimulation. Given that recent findings suggest a peculiar role of each leg in the postural control of the two genders, we investigated whether the body sway during optic flow perturbances is lateralized and whether anteroposterior and mediolateral components of specific center of pressure (COP) parameters of the right and left legs differ, reexamining a previous experiment (Raffi et al. (2014)) performed with two, side-by-side, force plates. Experiments were performed on 24 right-handed and right-footed young subjects. We analyzed five measures related to the COP of each foot and global data: anteroposterior and mediolateral range of oscillation, anteroposterior and mediolateral COP velocity, and sway area. Results showed that men consistently had larger COP parameters than women. The values of the COP parameters were correlated between the two feet only in the mediolateral axis of women. These findings suggest that optic flow stimulation causes asymmetry in postural balance and different lateralization of postural controls in men and women.

Published

2015

2. Area PEc Neurons Use a Multiphasic Pattern of Activity to Signal the Spatial Properties of Optic Flow.

Author

Raffi M, Piras A, Calzavara R, and Squatrito S

Subjects

Animals, Brain Mapping, Eye Movements physiology, Humans, Macaca fascicularis, Optic Flow physiology, Photic Stimulation, Visual Fields physiology, Neurons physiology, Parietal Lobe physiology, Visual Cortex physiology, Visual Perception physiology

Abstract

The cortical representation of visual perception requires the integration of several-signal processing distributed across many cortical areas, but the neural substrates of such perception are largely unknown. The type of firing pattern exhibited by single neurons is an important indicator of dynamic circuitry within or across cortical areas. Neurons in area PEc are involved in the spatial mapping of the visual field; thus, we sought to analyze the firing pattern of activity of PEc optic flow neurons to shed some light on the cortical processing of visual signals. We quantified the firing activity of 152 optic flow neurons using a spline interpolation function, which allowed determining onset, end, and latency of each neuronal response. We found that many PEc neurons showed multiphasic activity, which is strictly related to the position of the eye and to the position of the focus of expansion (FOE) of the flow field. PEc neurons showed a multiphasic activity comprised of excitatory phases interspersed with inhibitory pauses. This phasic pattern seems to be a very efficient way to signal the spatial location of visual stimuli, given that the same neuron sends different firing patterns according to a specific combination of FOE/eye position.

Published

2017

3. Laterality of Stance during Optic Flow Stimulation in Male and Female Young Adults.

Author

Persiani M, Piras A, Squatrito S, and Raffi M

Subjects

Adult, Female, Foot physiology, Humans, Male, Photic Stimulation, Young Adult, Optic Flow physiology, Postural Balance physiology, Posture physiology

Abstract

During self-motion, the spatial and temporal properties of the optic flow input directly influence the body sway. Men and women have anatomical and biomechanical differences that influence the postural control during visual stimulation. Given that recent findings suggest a peculiar role of each leg in the postural control of the two genders, we investigated whether the body sway during optic flow perturbances is lateralized and whether anteroposterior and mediolateral components of specific center of pressure (COP) parameters of the right and left legs differ, reexamining a previous experiment (Raffi et al. (2014)) performed with two, side-by-side, force plates. Experiments were performed on 24 right-handed and right-footed young subjects. We analyzed five measures related to the COP of each foot and global data: anteroposterior and mediolateral range of oscillation, anteroposterior and mediolateral COP velocity, and sway area. Results showed that men consistently had larger COP parameters than women. The values of the COP parameters were correlated between the two feet only in the mediolateral axis of women. These findings suggest that optic flow stimulation causes asymmetry in postural balance and different lateralization of postural controls in men and women.

Published

2015