Nady Hoyek scite author profile

Motor imagery (MI, the mental representation of an action without engaging in its actual execution) is a therapeutically relevant technique to promote motor recovery after neurologic disorders. MI shares common neural and psychological bases with physical practice. Interestingly, both acute and progressive neurologic disorders impact brain motor networks, hence potentially eliciting changes in MI capacities. How experimental neuroscientists and medical practitioners should assess and take into account these changes in order to design fruitful interventions is largely unresolved. Understanding how the psychometric, behavioral and neurophysiological correlates of MI are impacted by neurologic disorders is required. To address this brain-behavior issue, we conducted a systematic review of MI data in stroke, Parkinson's disease, spinal cord injury, and amputee participants. MI evaluation methods are presented. Redundant MI profiles, primarily based on psychometric and behavioral evaluations, emerged in each clinical population. When present, changes in the psychometric and behavioral correlates of MI were highly congruent with the corresponding motor impairments. Neurophysiological recordings yielded specific changes in cerebral activations during MI, which mirrored structural and functional reorganizations due to neuroplasticity. In this view, MI capacities may not be deteriorated per se by neurologic diseases resulting in chronic motor incapacities, but adjusted to the current state of the motor system. Literature-driven orientations for future clinical research are provided.

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Effectiveness of three‐dimensional digital animation in teaching human anatomy in an authentic classroom context

Hoyek

Collet

Rienzo

et al. 2014

Anatomical Sciences Ed

123

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Three-dimensional (3D) digital animations were used to teach the human musculoskeletal system to first year kinesiology students. The purpose of this study was to assess the effectiveness of this method by comparing two groups from two different academic years during two of their official required anatomy examinations (trunk and upper limb assessments). During the upper limb section, the teacher used two-dimensional (2D) drawings embedded into PowerPoint(®) slides and 3D digital animations for the first group (2D group) and the second (3D group), respectively. The same 3D digital animations were used for both groups during the trunk section. The only difference between the two was the multimedia used to present the information during the upper limb section. The 2D group surprisingly outperformed the 3D group on the trunk assessment. On the upper limb assessment no difference in the scores on the overall anatomy examination was found. However, the 3D group outperformed the 2D group in questions requiring spatial ability. Data supported that 3D digital animations were effective instructional multimedia material tools in teaching human anatomy especially in recalling anatomical knowledge requiring spatial ability. The importance of evaluating the effectiveness of a new instructional material outside laboratory environment (e.g., after a complete semester and on official examinations) was discussed.

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How spatial abilities and dynamic visualizations interplay when learning functional anatomy with 3D anatomical models

Berney

Bétrancourt

Molinari

et al. 2015

Anatomical Sciences Ed

122

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The emergence of dynamic visualizations of three-dimensional (3D) models in anatomy curricula may be an adequate solution for spatial difficulties encountered with traditional static learning, as they provide direct visualization of change throughout the viewpoints. However, little research has explored the interplay between learning material presentation formats, spatial abilities, and anatomical tasks. First, to understand the cognitive challenges a novice learner would be faced with when first exposed to 3D anatomical content, a six-step cognitive task analysis was developed. Following this, an experimental study was conducted to explore how presentation formats (dynamic vs. static visualizations) support learning of functional anatomy, and affect subsequent anatomical tasks derived from the cognitive task analysis. A second aim was to investigate the interplay between spatial abilities (spatial visualization and spatial relation) and presentation formats when the functional anatomy of a 3D scapula and the associated shoulder flexion movement are learned. Findings showed no main effect of the presentation formats on performances, but revealed the predictive influence of spatial visualization and spatial relation abilities on performance. However, an interesting interaction between presentation formats and spatial relation ability for a specific anatomical task was found. This result highlighted the influence of presentation formats when spatial abilities are involved as well as the differentiated influence of spatial abilities on anatomical tasks.

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Understanding the timing of motor imagery: recent findings and future directions

Guillot¹,

Hoyek²,

Louis³

et al. 2012

International Review of Sport and Exercise Psychology

107

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The Use of the Vandenberg and Kuse Mental Rotation Test in Children

Hoyek

Collet

Fargier

et al. 2012

Journal of Individual Differences

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Previous studies found that children are able to perform mental rotation (MR) tasks with a gender difference from the age of 4. More recently, gender differences in MR were also reported in infancy. However, different kinds of paradigms and stimuli were used. The present study investigates whether the Vandenberg and Kuse Mental Rotation Test (VMRT; Vandenberg & Kuse, 1978 ) as well as another similar 2-dimensional stimuli test may be used with elementary and middle-school children, and whether gender differences are evidenced. Results show that boys outperform girls in the middle-school group only. Elementary school children encountered difficulties solving both the VMRT and 2D MR tests. The data confirmed recent results showing that gender differences in the VMRT performance were found at age 10. We further concluded that the VMRT and 2D MR tests may not be well-designed for elementary-school children. Further investigations should focus on gender differences in MR for children younger than 9 years old as well as on the underlying causes of such difference, using other experimental paradigms.

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The therapeutic role of motor imagery during the acute phase after total knee arthroplasty: a pilot study

Moukarzel

Rienzo

Lahoud

et al. 2017

Disability and Rehabilitation

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Implementing motor imagery practice into the course of physical therapy enhanced various physical outcomes during acute postoperative recovery after total knee arthroplasty. According to this pilot study, motor imagery might be relevant to promote motor relearning and recovery after total knee arthroplasty.Partial effect-sizes should be conducted in the future. Implications for rehabilitation Adding motor imagery to physical therapy sessions during the acute period following total knee arthroplasty: • Enhances quadriceps strength. • Alleviates pain. • Enhances range of motion. • Does not have any effect on basic functional mobility. • Does not have any effect on knee girth.

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Autonomic nervous system correlates in movement observation and motor imagery

Collet

Rienzo

Hoyek

et al. 2013

Front. Hum. Neurosci.

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The purpose of the current article is to provide a comprehensive overview of the literature offering a better understanding of the autonomic nervous system (ANS) correlates in motor imagery (MI) and movement observation. These are two high brain functions involving sensori-motor coupling, mediated by memory systems. How observing or mentally rehearsing a movement affect ANS activity has not been extensively investigated. The links between cognitive functions and ANS responses are not so obvious. We will first describe the organization of the ANS whose main purposes are controlling vital functions by maintaining the homeostasis of the organism and providing adaptive responses when changes occur either in the external or internal milieu. We will then review how scientific knowledge evolved, thus integrating recent findings related to ANS functioning, and show how these are linked to mental functions. In turn, we will describe how movement observation or MI may elicit physiological responses at the peripheral level of the autonomic effectors, thus eliciting autonomic correlates to cognitive activity. Key features of this paper are to draw a step-by step progression from the understanding of ANS physiology to its relationships with high mental processes such as movement observation or MI. We will further provide evidence that mental processes are co-programmed both at the somatic and autonomic levels of the central nervous system (CNS). We will thus detail how peripheral physiological responses may be analyzed to provide objective evidence that MI is actually performed. The main perspective is thus to consider that, during movement observation and MI, ANS activity is an objective witness of mental processes.

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Nady Hoyek

Enhancement of Mental Rotation Abilities and Its Effect on Anatomy Learning

Impact of Neurologic Deficits on Motor Imagery: A Systematic Review of Clinical Evaluations

Effectiveness of three‐dimensional digital animation in teaching human anatomy in an authentic classroom context

How spatial abilities and dynamic visualizations interplay when learning functional anatomy with 3D anatomical models

Understanding the timing of motor imagery: recent findings and future directions

The Use of the Vandenberg and Kuse Mental Rotation Test in Children

The therapeutic role of motor imagery during the acute phase after total knee arthroplasty: a pilot study

Autonomic nervous system correlates in movement observation and motor imagery

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