Your search keyword '"Belluscio, Valeria"' showing total 19 results

1. Dynamic Stability, Symmetry, and Smoothness of Gait in People with Neurological Health Conditions.

Author

Tramontano, Marco, Orejel Bustos, Amaranta Soledad, Montemurro, Rebecca, Vasta, Simona, Marangon, Gabriele, Belluscio, Valeria, Morone, Giovanni, Modugno, Nicola, Buzzi, Maria Gabriella, Formisano, Rita, Bergamini, Elena, and Vannozzi, Giuseppe

Subjects

WALKING speed, DYNAMIC stability, NEUROLOGICAL disorders, GAIT in humans, PARKINSON'S disease, ECOLOGICAL assessment

Abstract

Neurological disorders such as stroke, Parkinson's disease (PD), and severe traumatic brain injury (sTBI) are leading global causes of disability and mortality. This study aimed to assess the ability to walk of patients with sTBI, stroke, and PD, identifying the differences in dynamic postural stability, symmetry, and smoothness during various dynamic motor tasks. Sixty people with neurological disorders and 20 healthy participants were recruited. Inertial measurement unit (IMU) sensors were employed to measure spatiotemporal parameters and gait quality indices during different motor tasks. The Mini-BESTest, Berg Balance Scale, and Dynamic Gait Index Scoring were also used to evaluate balance and gait. People with stroke exhibited the most compromised biomechanical patterns, with lower walking speed, increased stride duration, and decreased stride frequency. They also showed higher upper body instability and greater variability in gait stability indices, as well as less gait symmetry and smoothness. PD and sTBI patients displayed significantly different temporal parameters and differences in stability parameters only at the pelvis level and in the smoothness index during both linear and curved paths. This study provides a biomechanical characterization of dynamic stability, symmetry, and smoothness in people with stroke, sTBI, and PD using an IMU-based ecological assessment. [ABSTRACT FROM AUTHOR]

Published

2024

2. Multi-sensor assessment of dynamic balance during gait in patients with subacute stroke

Author

Bergamini, Elena, Iosa, Marco, Belluscio, Valeria, Morone, Giovanni, Tramontano, Marco, and Vannozzi, Giuseppe

Published

2017

3. Facilitating or disturbing? An investigation about the effects of auditory frequencies on prefrontal cortex activation and postural sway.

Author

Belluscio, Valeria, Cartocci, Giulia, Terbojevich, Tommaso, Di Feo, Paolo, Inguscio, Bianca Maria Serena, Ferrari, Marco, Quaresima, Valentina, and Vannozzi, Giuseppe

Subjects

PREFRONTAL cortex, AUDITORY perception, ACOUSTIC stimulation, NEAR infrared spectroscopy, BRAIN stimulation

Abstract

Auditory stimulation activates brain areas associated with higher cognitive processes, like the prefrontal cortex (PFC), and plays a role in postural control regulation. However, the effects of specific frequency stimuli on upright posture maintenance and PFC activation patterns remain unknown. Therefore, the study aims at filling this gap. Twenty healthy adults performed static double- and single-leg stance tasks of 60s each under four auditory conditions: 500, 1000, 1500, and 2000Hz, binaurally delivered through headphones, and in quiet condition. Functional near-infrared spectroscopy was used to measure PFC activation through changes in oxygenated hemoglobin concentration, while an inertial sensor (sealed at the L5 vertebra level) quantified postural sway parameters. Perceived discomfort and pleasantness were rated through a 0-100 visual analogue scale (VAS). Results showed that in both motor tasks, different PFC activation patterns were displayed at the different auditory frequencies and the postural performance worsened with auditory stimuli, compared to quiet conditions. VAS results showed that higher frequencies were considered more discomfortable than lower ones. Present data prove that specific sound frequencies play a significant role in cognitive resources recruitment and in the regulation of postural control. Furthermore, it supports the importance of exploring the relationship among tones, cortical activity, and posture, also considering possible applications with neurological populations and people with hearing dysfunctions. [ABSTRACT FROM AUTHOR]

Published

2023

4. Editorial: The brain meets the body: neural basis of cognitive contribution in movement for healthy and neurological populations.

Author

Belluscio, Valeria, Betti, Viviana, Martino Cinnera, Alex, and De Bartolo, Daniela

Subjects

MENTAL health of college students, ANTERIOR cruciate ligament injuries, POSTURAL muscles, PREMOTOR cortex

Published

2023

5. Vestibular Rehabilitation Improves Gait Quality and Activities of Daily Living in People with Severe Traumatic Brain Injury: A Randomized Clinical Trial.

Author

Tramontano, Marco, Belluscio, Valeria, Bergamini, Elena, Allevi, Giulia, De Angelis, Sara, Verdecchia, Giorgia, Formisano, Rita, Vannozzi, Giuseppe, and Buzzi, Maria Gabriella

Subjects

*BRAIN injuries, *CLINICAL trials, *GAIT in humans, *ACTIVITIES of daily living, *HELMETS, *REHABILITATION, *NEUROREHABILITATION, *BODY-weight-supported treadmill training

Abstract

Neurorehabilitation research in patients with traumatic brain injury (TBI) showed how vestibular rehabilitation (VR) treatments positively affect concussion-related symptoms, but no studies have been carried out in patients with severe TBI (sTBI) during post-acute intensive neurorehabilitation. We aimed at testing this effect by combining sensor-based gait analysis and clinical scales assessment. We hypothesized that integrating VR in post-acute neurorehabilitation training might improve gait quality and activity of daily living (ADL) in sTBI patients. A two-arm, single-blind randomized controlled trial with 8 weeks of follow-up was performed including thirty sTBI inpatients that underwent an 8-week rehabilitation program including either a VR or a conventional program. Gait quality parameters were obtained using body-mounted magneto-inertial sensors during instrumented linear and curvilinear walking tests. A 4X2 mixed model ANOVA was used to investigate session–group interactions and main effects. Patients undergoing VR exhibited improvements in ADL, showing early improvements in clinical scores. Sensor-based assessment of curvilinear pathways highlighted significant VR-related improvements in gait smoothness over time (p < 0.05), whereas both treatments exhibited distinct improvements in gait quality. Integrating VR in conventional neurorehabilitation is a suitable strategy to improve gait smoothness and ADL in sTBI patients. Instrumented protocols are further promoted as an additional measure to quantify the efficacy of neurorehabilitation treatments. [ABSTRACT FROM AUTHOR]

Published

2022

6. Performance assessment in archery: a systematic review.

Author

Vendrame, Eleonora, Belluscio, Valeria, Truppa, Luigi, Rum, Lorenzo, Lazich, Aldo, Bergamini, Elena, and Mannini, Andrea

Abstract

Archery is a sport accessible to a wide range of people, no matter their age, gender or ability, and can be practiced both by able-bodied and impaired athletes on a level playing field. The recent increase in the number of studies concerning the biomechanical evaluation of the archery discipline revealed the need to advance an evidence-based approach for a standardised and objective assessment of the athletic gesture. A systematic literature search of relevant databases in July 2021 yielded 41 studies spanning 35 years (1986–2021). The research strings focused on the parameters, employed measurement systems and on the outcomes. The investigation of the influence of a wide range of physiological and kinematic parameters on the archer performance revealed that expert athletes tend to maximise postural stability and develop personal strategies of muscular activation and time management. These findings evidenced the importance of the repeatability of the technical gesture, opening additional scenarios for further investigations. [ABSTRACT FROM AUTHOR]

Published

2022

7. Experimental study protocol of the project "MOtor function and VItamin D: Toolkit for motor performance and risk Assessment (MOVIDA)".

Author

Belluscio, Valeria, Orejel Bustos, Amaranta S., Camomilla, Valentina, Rizzo, Francesco, Sciarra, Tommaso, Gabbianelli, Marco, Guerriero, Raffaella, Morsilli, Ornella, Martelli, Francesco, and Giacomozzi, Claudia

Subjects

*RESEARCH protocols, *STRESS fractures (Orthopedics), *RISK assessment, *NONPARAMETRIC statistics, *ADULTS, *VITAMIN D, *BONE density

Abstract

Musculoskeletal injuries, a public health priority also in the military context, are ascribed to several risk factors, including: increased reaction forces; low/reduced muscle strength, endurance, body mass, Vitamin D level, and bone density; inadequate lifestyles and environment. The MOVIDA Project–funded by the Italian Ministry of Defence—aims at developing a transportable toolkit (assessment instrumentation, assessment protocols and reference/risk thresholds) which integrates motor function assessment with biological, environmental and behavioural factors to help characterizing the risk of stress fracture, stress injury or muscle fatigue due to mechanical overload. The MOVIDA study has been designed following the STROBE guidelines for observational cross-sectional studies addressing healthy adults, both militaries and civilians, with varying levels of physical fitness (sedentary people, recreational athletes, and competitive athletes). The protocol of the study has been designed and validated and is hereby reported. It allows to collect and analyse anamnestic, diagnostic and lifestyle-related data, environmental parameters, and functional parameters measured through portable and wearable instrumentation during adapted 6 minutes walking test. The t-test, one and two-way ANOVA with post-hoc corrections, and ANCOVA tests will be used to investigate relevant differences among the groups with respect to biomechanical parameters; non-parametric statistics will be rather used for non-normal continuous variables and for quantitative discrete variables. Generalized linear models will be used to account for risk and confounding factors. [ABSTRACT FROM AUTHOR]

Published

2021

8. The Association between Prefrontal Cortex Activity and Turning Behavior in People with and without Freezing of Gait.

Author

Belluscio, Valeria, Stuart, Samuel, Bergamini, Elena, Vannozzi, Giuseppe, and Mancini, Martina

Subjects

*PREFRONTAL cortex, *NEAR infrared spectroscopy, *PARKINSON'S disease, *IMPULSE control disorders

Abstract

Turning elicits Freezing of Gait (FoG) episodes in people with Parkinson's disease (PD) and is thought to require higher cortical control compared to straight ahead gait. Functional near infrared spectroscopy (fNIRS) has been used to examine prefrontal cortex (PFC) activity while walking, but the relationship between PFC activity and turn performance remains unclear. The aim of this pilot study was to examine PFC activity during turning in PD and healthy controls, and to investigate the association between PFC activity and turning. Thirty-two subjects, 15 freezers (PD + FoG) and 17 non-freezers (PD − FoG), and 8 controls were asked to perform a 2-min turning-in-place test under single-task (ST) and dual-task (DT) conditions. Each participant wore an fNIRS system to measure changes in oxyhemoglobin, as measure of PFC activity, and inertial sensors to quantify turning. Our results show a significant group (p =.050), task (p =.039), and interaction (p =.047) for the PFC activity during turning. Specifically, PD + FoG show higher PFC during turning compared to the other groups; PFC activity during DT is overall different compared to ST with an opposite trend in PD + FoG compared to controls and PD − FoG. In addition, higher PFC is associated with worse FoG in PD + FoG (r = 0.57, p =.048) and with lower number of turns in PD − FoG (r = − 0.70, p =.002). The increased PFC activity in PD and the association between higher PFC activity and poorer turning performance may be a sign of poor movement automaticity in PD. Although further investigations are required, these pilot findings may guide development of personalized treatments to improve motor automaticity in PD. • Turning tends to require larger pre-frontal cortex activation in PD compared to controls. • Higher pre-frontal cortex activity during turning is related to more severe FoG. • Worse visuo-spatial ability is related to higher pre-frontal cortex activity during turning. • Wearable sensors-based characteristics of turning differ between people with PD and controls. [ABSTRACT FROM AUTHOR]

Published

2019

9. Pre-frontal Cortical Activity During Walking and Turning Is Reliable and Differentiates Across Young, Older Adults and People With Parkinson's Disease.

Author

Stuart, Samuel, Belluscio, Valeria, Quinn, Joseph F., and Mancini, Martina

Subjects

NEURODEGENERATION, PARKINSON'S disease, PREFRONTAL cortex, WALKING, INFRARED spectroscopy

Abstract

Introduction: Mobility declines with age and further with neurodegenerative disorders, such as Parkinson's disease (PD). Walking and turning ability, in particular, are vital aspects of mobility that deteriorate with age and are further impaired in PD. Such deficits have been linked with reduction in automatic control of movement and the need for compensatory cognitive cortical control via the pre-frontal cortex (PFC), however the underlying neural mechanisms remain unclear. Establishing and using a robust methodology to examine PFC activity during continuous walking and turning via mobile functional near infra-red spectroscopy (fNIRS) may aid in the understanding of mobility deficits and help with development of appropriate therapeutics. This study aimed to: (1) examine test re-test reliability of PFC activity during continuous turning and walking via fNIRS measurement; and (2) compare PFC activity during continuous turning and walking in young, old and Parkinson's subjects. Methods: Twenty-five young (32.3 ± 7.5 years), nineteen older (65.4 ± 7.0 years), and twenty-four PD (69.3 ± 4.1 years) participants performed continuous walking and 360° turning-in-place tasks, each lasting 2 min. Young participants repeated the tasks a second time to allow fNIRS measurement reliability assessment. The primary outcome was PFC activity, assessed via measuring changes in oxygenated hemoglobin (HbO2) concentrations. Results: PFC activity during continuous walking and turning was moderately reproducible (Intra-class correlation coefficient = 0.67). The PD group had higher PFC activation than young and older adults during walking and turning, with significant group differences for bilateral PFC activation (p = 0.025), left PFC activation (p = 0.012), and the early period (first 40 s) of walking (p = 0.007), with greater activation required in PD. Interestingly, older adults had similar PFC activation to young adults across conditions, however older adults required greater activation than young adults during continuous turning, specifically the early period of the turning task (Cohens d = 0.86). Conclusions: PFC activity can be measured during continuous walking and turning tasks with acceptable reliability, and can differentiate young, older and PD groups. PFC activation was significantly greater in PD compared to young and older adults during walking, particularly when beginning to walk. [ABSTRACT FROM AUTHOR]

Published

2019

10. Vestibular rehabilitation training in patients with subacute stroke: A preliminary randomized controlled trial.

Author

Tramontano, Marco, Iosa, Marco, Morone, Giovanni, Bergamini, Elena, Belluscio, Valeria, and Vannozzi, Giuseppe

Subjects

TORSO physiology, STROKE diagnosis, CONVALESCENCE, DIAGNOSIS, POSTURAL balance, EXERCISE, GAIT in humans, HEALTH promotion, VESTIBULAR apparatus diseases, RANDOMIZED controlled trials, ACUTE diseases, STROKE patients

Abstract

BACKGROUND: Vestibular rehabilitation (VR) consists in a customized exercise program patient-centred that includes a combination of different exercise components with the aim to promote gaze stability, improve balance and gait, and facilitate somatosensory integration. OBJECTIVE: The aim of this study was to investigate the effect of customized vestibular rehabilitation training on gait stability of patients with subacute stroke. METHODS: Twenty-five inpatients (12 M, age: 64.1±12.1 years) with diagnosis of subacute stroke were enrolled and randomized in two groups. All patients were evaluated before and after 4 weeks of training sessions. An instrumented 10-Meter Walk Test together with traditional clinical scales were used to assess VR effects. To investigate if any fall event occurred after patients’ dismissal, they were followed-up at three and twelve months after dismissal. RESULTS: Higher values of walking speed and stride length were observed in the VR group. Conversely, no significant difference was found in terms of trunk stability. The results of between-group comparison highlight significant differences between the two groups for different clinical scale scores. CONCLUSION: VR could be included into a rehabilitation program for patients with stroke for improving their gait and dynamic balance acting on their vestibular system as facilitator of recovery. [ABSTRACT FROM AUTHOR]

Published

2018

11. The iFST: An instrumented version of the Fukuda Stepping Test for balance assessment.

Author

Belluscio, Valeria, Bergamini, Elena, Iosa, Marco, Tramontano, Marco, Morone, Giovanni, and Vannozzi, Giuseppe

Subjects

*KINEMATICS, *SENSORIMOTOR integration, *MOTOR ability, *STANDARD deviations, *PATHOLOGY

Abstract

The maintenance of the upright posture during dynamic balance requires the integration of sensory inputs regulated by the brain. After a neurological event, the assessment of balance control impairments is crucial for supporting health professionals in the design of personalized rehabilitation protocols. A commonly used test to assess balance ability is the Fukuda Stepping Test (FST). However, the clinical parameters traditionally considered are not fully representative of the patient's motor ability. The purpose of this study was to devise an instrumented version of the FST (iFST) that embodies inertial sensors and allows to obtain individual motor strategy information. Twenty-seven sub-acute stroke patients and 18 healthy adults performed a repeated stepping task with closed eyes wearing five inertial sensors located on both distal tibiae and at pelvis, sternum, and head levels. From final foot position, body rotation and linear displacements were measured. A set of indices related to upper-body stability were estimated from pelvis, sternum, and head accelerations: Root Mean Square, Attenuation Coefficients, and improved Harmonic Ratio. Two additional parameters based on upper-body angular velocities were devised to assess step-by-step repeatability and inter-segment velocity variations. The results suggest that the clinical parameters do not provide enough information about the two groups' motor strategies. Conversely, five iFST parameters were identified as predictors of patients' motor ability, discriminating not only between healthy and pathological subjects, but also between different motor deficit levels within the same pathology. The iFST could be included in the clinical routine assessment of balance impairments, supporting the design of personalized treatments. [ABSTRACT FROM AUTHOR]

Published

2018

12. Modifications in Prefrontal Cortex Oxygenation in Linear and Curvilinear Dual Task Walking: A Combined fNIRS and IMUs Study.

Author

Belluscio, Valeria, Casti, Gabriele, Ferrari, Marco, Quaresima, Valentina, Sappia, Maria Sofia, Horschig, Jörn M., and Vannozzi, Giuseppe

Subjects

*PREFRONTAL cortex, *OXYGEN in the blood, *NEAR infrared spectroscopy, *GAIT in humans, *SUPPLY & demand, *WALKING

Abstract

Increased oxygenated hemoglobin concentration of the prefrontal cortex (PFC) has been observed during linear walking, particularly when there is a high attention demand on the task, like in dual-task (DT) paradigms. Despite the knowledge that cognitive and motor demands depend on the complexity of the motor task, most studies have only focused on usual walking, while little is known for more challenging tasks, such as curved paths. To explore the relationship between cortical activation and gait biomechanics, 20 healthy young adults were asked to perform linear and curvilinear walking trajectories in single-task and DT conditions. PFC activation was assessed using functional near-infrared spectroscopy, while gait quality with four inertial measurement units. The Figure-of-8-Walk-Test was adopted as the curvilinear trajectory, with the "Serial 7s" test as concurrent cognitive task. Results show that walking along curvilinear trajectories in DT led to increased PFC activation and decreased motor performance. Under DT walking, the neural correlates of executive function and gait control tend to be modified in response to the cognitive resources imposed by the motor task. Being more representative of real-life situations, this approach to curved walking has the potential to reveal crucial information and to improve people' s balance, safety, and life's quality. [ABSTRACT FROM AUTHOR]

Published

2021

13. Overuse-Related Injuries of the Musculoskeletal System: Systematic Review and Quantitative Synthesis of Injuries, Locations, Risk Factors and Assessment Techniques.

Author

Orejel Bustos, Amaranta, Belluscio, Valeria, Camomilla, Valentina, Lucangeli, Leandro, Rizzo, Francesco, Sciarra, Tommaso, Martelli, Francesco, Giacomozzi, Claudia, and Tran, Yvonne

Subjects

*MUSCULOSKELETAL system injuries, *MUSCULOSKELETAL system, *RISK assessment, *MUSCLE fatigue, *WOUNDS & injuries, *VITAMIN D

Abstract

Overuse-related musculoskeletal injuries mostly affect athletes, especially if involved in preseason conditioning, and military populations; they may also occur, however, when pathological or biological conditions render the musculoskeletal system inadequate to cope with a mechanical load, even if moderate. Within the MOVIDA (Motor function and Vitamin D: toolkit for risk Assessment and prediction) Project, funded by the Italian Ministry of Defence, a systematic review of the literature was conducted to support the development of a transportable toolkit (instrumentation, protocols and reference/risk thresholds) to help characterize the risk of overuse-related musculoskeletal injury. The PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) approach was used to analyze Review papers indexed in PubMed and published in the period 2010 to 2020. The search focused on stress (overuse) fracture or injuries, and muscle fatigue in the lower limbs in association with functional (biomechanical) or biological biomarkers. A total of 225 Review papers were retrieved: 115 were found eligible for full text analysis and led to another 141 research papers derived from a second-level search. A total of 183 papers were finally chosen for analysis: 74 were classified as introductory to the topics, 109 were analyzed in depth. Qualitative and, wherever possible, quantitative syntheses were carried out with respect to the literature review process and quality, injury epidemiology (type and location of injuries, and investigated populations), risk factors, assessment techniques and assessment protocols. [ABSTRACT FROM AUTHOR]

Published

2021

14. Wearable Sensors in Sports for Persons with Disability: A Systematic Review.

Author

Rum, Lorenzo, Sten, Oscar, Vendrame, Eleonora, Belluscio, Valeria, Camomilla, Valentina, Vannozzi, Giuseppe, Truppa, Luigi, Notarantonio, Marco, Sciarra, Tommaso, Lazich, Aldo, Mannini, Andrea, Bergamini, Elena, and Peham, Christian

Subjects

ATHLETES, PEOPLE with disabilities, BIBLIOGRAPHIC databases, WHEELCHAIR sports, DETECTORS, PRACTICE (Sports), ASSISTIVE technology, ELECTRIC wheelchairs

Abstract

The interest and competitiveness in sports for persons with disabilities has increased significantly in the recent years, creating a demand for technological tools supporting practice. Wearable sensors offer non-invasive, portable and overall convenient ways to monitor sports practice. This systematic review aims at providing current evidence on the application of wearable sensors in sports for persons with disability. A search for articles published in English before May 2020 was performed on Scopus, Web-Of-Science, PubMed and EBSCO databases, searching titles, abstracts and keywords with a search string involving terms regarding wearable sensors, sports and disability. After full paper screening, 39 studies were included. Inertial and EMG sensors were the most commonly adopted wearable technologies, while wheelchair sports were the most investigated. Four main target applications of wearable sensors relevant to sports for people with disability were identified and discussed: athlete classification, injury prevention, performance characterization for training optimization and equipment customization. The collected evidence provides an overview on the application of wearable sensors in sports for persons with disability, providing useful indication for researchers, coaches and trainers. Several gaps in the different target applications are highlighted altogether with recommendation on future directions. [ABSTRACT FROM AUTHOR]

Published

2021

15. Auditory Cue Based on the Golden Ratio Can Improve Gait Patterns in People with Parkinson's Disease.

Author

Belluscio, Valeria, Iosa, Marco, Vannozzi, Giuseppe, Paravati, Stefano, and Peppe, Antonella

Subjects

*PARKINSON'S disease, *GOLDEN ratio, *TOES, *IRRATIONAL numbers, *WALKING speed, *BASAL ganglia

Abstract

The harmonic structure of walking relies on an irrational number called the golden ratio (ϕ): in healthy subjects, it coincides with the stride-to-stance ratio, and it is associated with a smooth gait modality. This smoothness is lost in people with Parkinson's disease (PD), due to deficiencies in the execution of movements. However, external auditory cues seem to facilitate movement, by enabling the timing of muscle activation, and helping in initiating and modulating motor output. Based on a harmonic fractal structure of gait, can the administration of an auditory cue based on individual's ϕ-rhythm improve, in acute, gait patterns in people with PD? A total of 20 participants (16 males, age 70.9 ± 8.4 years, Hoehn and Yahr stage-II) were assessed through stereophotogrammetry: gait spatio-temporal parameters, and stride-to-stance ratio were computed before, during, and after the ϕ-rhythm administration. Results show improvements in terms of stride length (p = 0.018), walking speed (p = 0.014), and toe clearance (p = 0.013) when comparing gait patterns before and after the stimulus. Furthermore, the stride-to-stance ratio seems to correlate with almost all spatio-temporal parameters, but it shows the main changes in the before–during rhythm comparison. In conclusion, ϕ-rhythm seems an effective cue able to compensate for defective internal rhythm of the basal ganglia in PD. [ABSTRACT FROM AUTHOR]

Published

2021

16. Does Curved Walking Sharpen the Assessment of Gait Disorders? An Instrumented Approach Based on Wearable Inertial Sensors.

Author

Belluscio, Valeria, Bergamini, Elena, Tramontano, Marco, Formisano, Rita, Buzzi, Maria Gabriella, and Vannozzi, Giuseppe

Subjects

*GAIT disorders, *BRAIN injuries, *STERNUM, *WALKING, *DETECTORS, *BONE lengthening (Orthopedics)

Abstract

Gait and balance assessment in the clinical context mainly focuses on straight walking. Despite that curved trajectories and turning are commonly faced in our everyday life and represent a challenge for people with gait disorders. The adoption of curvilinear trajectories in the rehabilitation practice could have important implications for the definition of protocols tailored on individual's needs. The aim of this study was to contribute toward the quantitative characterization of straight versus curved walking using an ecological approach and focusing on healthy and neurological populations. Twenty healthy adults (control group (CG)) and 20 patients with Traumatic Brain Injury (TBI) (9 severe, sTBI-S, and 11 very severe, sTBI-VS) performed a 10 m and a Figure-of-8 Walk Test while wearing four inertial sensors that were located on both tibiae, sternum and pelvis. Spatiotemporal and gait quality indices that were related to locomotion stability, symmetry, and smoothness were obtained. The results show that spatiotemporal, stability, and symmetry-related gait patterns are challenged by curved walking both in healthy subjects and sTBI-S, whereas no difference was displayed for sTBI-VS. The use of straight walking alone to assess gait disorders is thus discouraged, particularly in patients with good walking abilities, in favor of the adoption of complementary tests that were also based on curved paths. [ABSTRACT FROM AUTHOR]

Published

2020

17. Sensorized Assessment of Dynamic Locomotor Imagery in People with Stroke and Healthy Subjects.

Author

De Bartolo, Daniela, Belluscio, Valeria, Vannozzi, Giuseppe, Morone, Giovanni, Antonucci, Gabriella, Giordani, Gianluca, Santucci, Stefania, Resta, Federica, Marinozzi, Franco, Bini, Fabiano, Paolucci, Stefano, and Iosa, Marco

Subjects

*ARM, *TIME perception, *LEG, *FREQUENCIES of oscillating systems, *ANGULAR velocity, *WALKING speed, *HUMAN kinematics

Abstract

Dynamic motor imagery (dMI) is a motor imagery task associated with movements partially mimicking those mentally represented. As well as conventional motor imagery, dMI has been typically assessed by mental chronometry tasks. In this paper, an instrumented approach was proposed for quantifying the correspondence between upper and lower limb oscillatory movements performed on the spot during the dMI of walking vs. during actual walking. Magneto-inertial measurement units were used to measure limb swinging in three different groups: young adults, older adults and stroke patients. Participants were tested in four experimental conditions: (i) simple limb swinging; (ii) limb swinging while imagining to walk (dMI-task); (iii) mental chronometry task, without any movement (pure MI); (iv) actual level walking at comfortable speed. Limb swinging was characterized in terms of the angular velocity, frequency of oscillations and sinusoidal waveform. The dMI was effective at reproducing upper limb oscillations more similar to those occurring during walking for all the three groups, but some exceptions occurred for lower limbs. This finding could be related to the sensory feedback, stretch reflexes and ground reaction forces occurring for lower limbs and not for upper limbs during walking. In conclusion, the instrumented approach through wearable motion devices adds significant information to the current dMI approach, further supporting their applications in neurorehabilitation for monitoring imagery training protocols in patients with stroke. [ABSTRACT FROM AUTHOR]

Published

2020

18. Gait Quality Assessment in Survivors from Severe Traumatic Brain Injury: An Instrumented Approach Based on Inertial Sensors.

Author

Belluscio, Valeria, Bergamini, Elena, Tramontano, Marco, Orejel Bustos, Amaranta, Allevi, Giulia, Formisano, Rita, Vannozzi, Giuseppe, and Buzzi, Maria Gabriella

Subjects

*GAIT in humans, *BRAIN injuries, *GAIT disorders, *DETECTORS, *ABILITY

Abstract

Despite existing evidence that gait disorders are a common consequence of severe traumatic brain injury (sTBI), the literature describing gait instability in sTBI survivors is scant. Thus, the present study aims at quantifying gait patterns in sTBI through wearable inertial sensors and investigating the association of sensor-based gait quality indices with the scores of commonly administered clinical scales. Twenty healthy adults (control group, CG) and 20 people who suffered from a sTBI were recruited. The Berg balance scale, community balance and mobility scale, and dynamic gait index (DGI) were administered to sTBI participants, who were further divided into two subgroups, severe and very severe, according to their score in the DGI. Participants performed the 10 m walk, the Figure-of-8 walk, and the Fukuda stepping tests, while wearing five inertial sensors. Significant differences were found among the three groups, discriminating not only between CG and sTBI, but also for walking ability levels. Several indices displayed a significant correlation with clinical scales scores, especially in the 10 m walking and Figure-of-8 walk tests. Results show that the use of wearable sensors allows the obtainment of quantitative information about a patient's gait disorders and discrimination between different levels of walking abilities, supporting the rehabilitative staff in designing tailored therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published

2019

19. Cognitive-motor dual-task training improves dynamic stability during straight and curved gait in patients with multiple sclerosis: a randomized controlled trial.

Author

Tramontano M, Argento O, Orejel Bustos AS, DE Angelis S, Montemurro R, Bossa M, Belluscio V, Bergamini E, Vannozzi G, and Nocentini U

Subjects

Young Adult, Humans, Single-Blind Method, Exercise Therapy, Gait physiology, Cognition, Postural Balance physiology, Multiple Sclerosis complications, Multiple Sclerosis rehabilitation

Abstract

Background: Multiple Sclerosis (MS) is a chronic inflammatory, demyelinating, degenerative disease of the central nervous system and the second most frequent cause of permanent disability in young adults. One of the most common issues concerns the ability to perform postural and gait tasks while simultaneously completing a cognitive task (namely, dual-task DT)., Aim: Assessing cognitive-motor dual-task training effectiveness in patients with Multiple Sclerosis (PwMS) for dynamic gait quality when walking on straight, curved, and blindfolded paths., Design: Two-arm single-blind randomized controlled trial. Follow-up at 8 weeks., Setting: Neurorehabilitation Hospital., Population: A sample of 42 PwMS aged 28-71, with a score of 4.00±1.52 on the Expanded Disability Status Scale were recruited., Methods: Participants were randomized in conventional (CTg) neurorehabilitation and dual-task training (DTg) groups and received 12 sessions, 3 days/week/4 weeks. They were assessed at baseline (T0), after the treatment (T1), and 8 weeks after the end of the treatment (T2) through Mini-BESTest, Tinetti Performance Oriented Mobility Assessment, Modified Barthel Index, and a set of spatiotemporal parameters and gait quality indices related to stability, symmetry, and smoothness of gait extracted from initial measurement units (IMUs) data during the execution of the 10-meter Walk Test (10mWT), the Figure-of-8 Walk Test (Fo8WT) and the Fukuda Stepping Test (FST)., Results: Thirty-one PwMS completed the trial at T2. Significant improvement within subjects was found in Mini-BESTest scores for DTg from T0 to T1. The IMU-based assessment indicated significant differences in stability (P<0.01) and smoothness (P<0.05) measures between CTg and DTg during 10mWT and Fo8WT. Substantial improvements (P<0.017) were also found in the inter-session comparison, primarily for DTg, particularly for stability, symmetry, and smoothness measures., Conclusions: This study supports the effectiveness of DT in promoting dynamic motor abilities in PwMS., Clinical Rehabilitation Impact: Cognitive-motor DT implemented into the neurorehabilitation conventional program could be a useful strategy for gait and balance rehabilitation.

Published

2024