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128 results on '"Leban, Bruno"'

7. Segmental Mandibulectomy and Mandibular Reconstruction with Fibula-Free Flap Using a 3D Template.

Author

Tatti, Melania, Carta, Filippo, Bontempi, Mauro, Deriu, Sara, Mariani, Cinzia, Marrosu, Valeria, Foddis, Emanuele, Gerosa, Clara, Marongiu, Giuseppe, Saba, Luca, Figus, Andrea, Pau, Massimiliano, Leban, Bruno, and Puxeddu, Roberto

Subjects
FREE flaps, COMPUTED tomography, ORAL cancer, THREE-dimensional modeling, SATISFACTION, STEREOLITHOGRAPHY
Abstract

Introduction: The present study evaluates the influence of virtual surgical planning with a preoperative 3D resin model on aesthetic and functional outcomes in patients treated by segmental mandibulectomy and reconstruction with fibula-free flap for oral cancer. Methods: All consecutive patients who underwent segmental mandibulectomy and mandibular reconstruction with a fibula-free flap using a 3D template at our department from January 2021 to January 2023 were included in the study. "Patients control" were patients treated by reconstruction with a fibula-free flap without using a 3D template. Three-dimensional modeling was performed by converting from preoperative computed tomography to a stereolithography format to obtain the resin 3D models. Qualitative analysis of anatomical and aesthetic results consisted of the evaluation of the patients' aesthetic and functional satisfaction and the symmetry of the mandibular contour observed at clinical examination. Quantitative analysis was based on the assessment of the accuracy and precision of the reconstruction by comparing preoperative and postoperative computed tomograms as objective indicators. Results: Seven patients (five males and two females, mean age of 65.1 years) were included in the study. All patients showed a symmetric mandibular contour based on the clinical examination. After recovery, six patients (85.7%) considered themselves aesthetically satisfied. The quantitative analysis (assessed in six/seven patients) showed that the mean difference between preoperative and postoperative intercondylar distance, intergonial angle distance, anteroposterior dimension, and gonial angle improved in the 3D template-assisted group. Conclusion: The 3D-printed template for mandibular reconstruction with microvascular fibula-free flap can improve aesthetic outcomes in comparison with standard approaches. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Cybersickness in People with Multiple Sclerosis Exposed to Immersive Virtual Reality.

Author

Pau, Massimiliano, Arippa, Federico, Leban, Bruno, Porta, Micaela, Casu, Giulia, Frau, Jessica, Lorefice, Lorena, Coghe, Giancarlo, and Cocco, Eleonora

Subjects
SIMULATOR sickness, VIRTUAL reality, NEUROLOGICAL disorders, MULTIPLE sclerosis, DISABILITIES, SUMATRIPTAN
Abstract

Together with the wide range of possible benefits for the rehabilitation/training of people with multiple sclerosis (pwMS) and other neurologic conditions, exposure to immersive virtual reality (VR) has often been associated with unpleasant symptoms, such as transient dizziness, headache, nausea, disorientation and impaired postural control (i.e., cybersickness). Since these symptoms can significantly impact the safety and tolerability of the treatment, it appears important to correctly estimate their presence and magnitude. Given the existing data scarcity, this study aims to assess the existence and severity of possible adverse effects associated with exposure to immersive VR in a cohort of pwMS using both objective measurements of postural control effectiveness and subjective evaluations of perceived symptoms. To this aim, postural sway under upright quiet posture (in the presence and absence of visual input) of 56 pwMS with an Expanded Disability Status Scale score (EDSS) in the range of 0–6.5 (mean EDSS 2.3) and 33 unaffected individuals was measured before and after a 10-min immersive VR session and at 10 min follow-up on the basis of center of pressure (COP) trajectories. The severity of cybersickness symptoms associated with VR exposure was also self-rated by the participants using the Italian version of the Simulator Sickness Questionnaire (SSQ). Temporary impairments of postural control in terms of significantly increased sway area were observed after the VR session only in pwMS with mild–moderate disability (i.e., EDSS in the range of 2.5–6.5) in the presence of visual input. No changes were observed in pwMS with low disability (EDSS 0–2) and unaffected individuals. In contrast, when the visual input was removed, there was a decrease in sway area (pwMS with mild–moderate disability) and COP path length relating to the use of VR (pwMS with mild–moderate disability and unaffected individuals), thus suggesting a sort of "balance training effect". Even in this case, the baseline values were restored at follow-up. All participants, regardless of their status, experienced significant post-VR side effects, especially in terms of blurred vision and nausea. Taken together, the findings of the present study suggest that a short immersive VR session negatively (eyes open) and positively (eyes closed) impacts the postural control of pwMS and causes significant disorientation. However, such effects are of limited duration. While it is reasonable to state that immersive VR is sufficiently safe and tolerable to not be contraindicated in the rehabilitation/training of pwMS, in order to reduce possible negative effects and maximize the efficacy, safety and comfort of the treatment, it appears necessary to develop specific guidelines that consider important factors like individual susceptibility, maximum exposure time according to the specific features of the simulation, posture to adopt and protocols to assess objective and perceived effects on participants. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Synchronized Cyclograms to Assess Inter-Limb Symmetry during Gait in Women with Anorexia and Bulimia: A Retrospective Study.

Author

Pau, Massimiliano, Cerfoglio, Serena, Capodaglio, Paolo, Marrone, Flavia, Mendolicchio, Leonardo, Porta, Micaela, Leban, Bruno, Galli, Manuela, and Cimolin, Veronica

Subjects
BULIMIA, ANKLE joint, KNEE joint, ANOREXIA nervosa, GAIT in humans, FOOD habits
Abstract

Anorexia nervosa (AN) and bulimia nervosa (BN) are eating diseases characterized by extreme eating behaviours impacting both mental and physical health. Aberrant musculoskeletal adaptations due to malnutrition affect motor abilities such as postural control and gait. To date, limited data is available with regards to gait symmetry in AN and BN. The aim of this study was to characterize inter-limb asymmetry during gait in two cohorts affected by AN and BN, respectively, using the synchronized cyclograms and to compare it with a healthy weight group. A total of 14 AN, 17 BN, and 11 healthy-weight females were assessed via 3D gait analysis. Gait spatio-temporal parameters were computed together with angle–angle diagrams, which were characterized in terms of their geometric features. Individuals with AN and BN were characterized by reduced speed and cadence and an abnormal increase in the duration of the double support phase with respect to the healthy controls. With respect to inter-limb symmetry, asymmetries were detected in both groups, with individuals with BN exhibiting significantly larger cyclogram areas at the hip joint with respect to the other groups (323.43 degrees2 vs. 253.74 degrees2 vs. 136.37 degrees2) and significantly higher orientation angle and Trend Symmetry at both knee and ankle joint. The cyclogram analysis suggests the presence of an altered gait symmetry in individuals with BN. In the AN group, it is possible to observe a similar trend; however, this is not statistically significant. Overall, the findings of this study may provide a novel perspective on the motor control dysfunction linked to eating disorders and aid clinicians in selecting a suitable rehabilitation scheme targeted at enhancing motor stability and control. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Smoothness of Gait in Overweight (But Not Obese) Children Aged 6–10.

Author

Porta, Micaela, Cimmino, Demetra, Leban, Bruno, Arippa, Federico, Casu, Giulia, Fastame, Maria Chiara, and Pau, Massimiliano

Subjects
CHILDHOOD obesity, OVERWEIGHT children, GAIT in humans, PHYSICAL mobility, LOCOMOTOR control, WALKING speed
Abstract

Excessive body mass represents a serious threat to the optimal psychophysical development of children, and it is known to be able to significantly affect their locomotor capabilities, making them more prone to the development of musculoskeletal disorders. However, despite the relevant number of existing studies, a clear gait pattern of overweight children has not been defined yet, particularly in the case of a mass excess that is relatively small (i.e., in those not obese). In the present study, we employed a wearable inertial measurement unit placed on the low back to derive spatio-temporal parameters and quantify the smoothness of gait (by means of harmonic ratio) from trunk accelerations acquired during gait trials carried out by 108 children aged 6–10 (46% males), stratified into two groups according to their body mass index (normal weight, n = 69 and overweight, n = 39). The results show that while gait speed, stride length, cadence and double support duration were found to be almost identical in the two groups, significant differences were observed in terms of harmonic ratio. In particular, overweight children exhibited a reduced harmonic ratio in the antero-posterior direction and higher harmonic ratio in the medio-lateral direction. While the significantly lower harmonic ratio in the antero-posterior direction is likely to be indicative of a loss of smoothness in the walking direction, probably due to a combination of factors associated with the altered movement biomechanics, the higher harmonic ratio in the medio-lateral direction might be associated with specific strategies adopted to increase lateral stability. Although further studies are necessary to elucidate the specific mechanisms that influence the smoothness of gait, it is noteworthy that harmonic ratios appear sensitive even to subtle change in locomotor control in overweight children characterized by apparently regular spatio-temporal parameters of gait and might be employed to assess the effectiveness of interventions designed to improve mobility functions. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Age-Associated Changes on Gait Smoothness in the Third and the Fourth Age.

Author

Pau, Massimiliano, Bernardelli, Giuseppina, Leban, Bruno, Porta, Micaela, Putzu, Valeria, Viale, Daniela, Asoni, Gesuina, Riccio, Daniela, Cerfoglio, Serena, Galli, Manuela, and Cimolin, Veronica

Subjects
WALKING speed, OLDER people, GAIT disorders, SPATIOTEMPORAL processes, AGE groups, ANKLE, GAIT in humans, KNEE, FITNESS walking
Abstract

Although gait disorders represent a highly prevalent condition in older adults, the alterations associated with physiologic aging are often not easily differentiable from those originated by concurrent neurologic or orthopedic conditions. Thus, the detailed quantitative assessment of gait patterns represents a crucial issue. In this context, the study of trunk accelerations may represent an effective proxy of locomotion skills in terms of symmetry. This can be carried out by calculating the Harmonic Ratio (HR), a parameter obtained through the processing of trunk accelerations in the frequency domain. In this study, trunk accelerations during level walking of 449 healthy older adults (of age > 65) who were stratified into three groups (Group 1: 65–74 years, n = 175; Group 2: 75–85 years, n = 227; Group 3: >85 years, n = 47) were acquired by means of a miniaturized Inertial Measurement Unit located in the low back and processed to obtain spatio-temporal parameters of gait and HR, in antero-posterior (AP), medio-lateral (ML) and vertical (V) directions. The results show that Group 3 exhibited a 16% reduction in gait speed and a 10% reduction in stride length when compared with Group 1 (p < 0.001 in both cases). Regarding the cadence, Group 3 was characterized by a 5% reduction with respect to Groups 1 and 2 (p < 0.001 in both cases). The analysis of HR revealed a general trend of linear decrease with age in the three groups. In particular, Group 3 was characterized by HR values significantly lower (−17%) than those of Group 1 in all three directions and significantly lower than Group 2 in ML and V directions (−10%). Taken together, such results suggest that HR may represent a valid measure to quantitatively characterize the progressive deterioration of locomotor abilities associated with aging, which seems to occur until the late stages of life. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Cyclograms Reveal Alteration of Inter-Joint Coordination during Gait in People with Multiple Sclerosis Minimally Disabled.

Author

Pau, Massimiliano, Leban, Bruno, Porta, Micaela, Frau, Jessica, Coghe, Giancarlo, and Cocco, Eleonora

Subjects
*GAIT in humans, *MULTIPLE sclerosis, *DISABILITIES, *DATA analysis, *INFORMATION retrieval
Abstract

Subtle alterations of gait patterns in people with Multiple Sclerosis (pwMS) with minimal or no disability often coexist with normal spatio-temporal parameters. Here, we retrospectively investigate the existence of possible anomalies in lower limb inter-joint coordination (i.e., the functional relationship between joint pairs) in pwMS with apparently physiologic gait features. Twenty-seven pwMS with Expanded Disability Status Scale scores ≤ 2, and 27 unaffected age-and-sex-matched individuals, were tested using 3D computerized gait analysis. Raw data were processed to extract the main spatio-temporal parameters and the kinematics in the sagittal plane at the hip, knee, and ankle joints. Angle-angle diagrams (cyclograms) were obtained by coupling the flexion-extension values for the hip-knee and knee-ankle joint pairs at each point of the gait cycle. Cyclogram area, perimeter, and dimensionless ratio were employed to quantify inter-joint coordination. The results demonstrate that cyclograms of pwMS are characterized by significantly reduced perimeters for both investigated joint pairs and reduced area at the hip–knee joint pair. In the latter pair, the differences between groups involved the entire swing phase. For the knee-ankle pair, the average cyclogram of pwMS departed from normality from the late stance until the mid-swing phase. Such findings suggest that inter-joint coordination is impaired even in minimally disabled pwMS who exhibit a normal gait pattern in terms of spatio-temporal parameters. The quantitative and qualitative study of cyclogram features may provide information that is useful for better understanding the underlying mechanisms of walking dysfunctions in MS. [ABSTRACT FROM AUTHOR]

Published
2022
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22. Synchronized Cyclograms to Assess Inter-Limb Symmetry during Gait in Post-Stroke Patients.

Author

Marrone, Flavia, Pau, Massimiliano, Vismara, Luca, Porta, Micaela, Bigoni, Matteo, Leban, Bruno, Cerfoglio, Serena, Galli, Manuela, Mauro, Alessandro, and Cimolin, Veronica

Subjects
GAIT in humans, SYMMETRY, HEMIPLEGICS, ANGLES, AGE groups, SPATIOTEMPORAL processes
Abstract

The aim of this study was to assess the inter-limb symmetry during gait in post-stroke patients using the synchronized cyclograms technique. In total, 41 individuals with stroke (21 left and 20 right hemiplegic patients; age: 57.9 ± 12.8 years; time stroke event 4.6 ± 1.8 years) and 48 age-, sex-, and height-matched individuals (control group: CG; age: 54.4 ± 12.5 years) were assessed via 3D gait analysis. Raw kinematic data were processed to compute spatio-temporal parameters (speed, stride length, cadence, stance, swing, and double support phases duration) and angle–angle diagrams (synchronized cyclograms), which were characterized in terms of area, orientation, and trend symmetry indices. The results reveal that all spatio-temporal parameters are characterized by abnormal values, with reduced speed, stride length, cadence, and swing phase duration and increased stance and double support phases duration. With respect to inter-limb symmetry, higher values were found in post-stroke individuals for all the considered parameters as patients generally exhibited a cyclogram characterized by larger areas, higher orientation, and trend symmetry parameters with respect to CG. The described alterations of gait asymmetry are important from a clinical point of view as the achievement of symmetry in gait represents a crucial objective in the rehabilitation of hemiplegic people. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Executive Functions and Mood States in Athletes Performing Exercise Under Hypoxia.

Author

Guicciardi, Marco, Pazzona, Riccardo, Manca, Andrea, Monni, Alessandra, Scalas, Laura Francesca, Perra, Federica, Leban, Bruno, Roberto, Silvana, Mulliri, Gabriele, Ghiani, Giovanna, Doneddu, Azzurra, and Crisafulli, Antonio

Abstract

Hypoxia can impair cognitive performance, whereas exercise can enhance it. The effects of hypoxia on cognitive performance during exercise appear to be moderated by exercise duration and intensity and by severity and duration of hypoxia and cognitive task. In normal individuals, exercise under hypoxia can evoke adverse post-exercise mood states, such as tension and fatigue. However, little is known about the effects of hypoxia during exercise in trained athletes. The purpose of this study was to investigate how hypoxia affected executive functions and mood states, assessed, respectively, during and post-exercise and to explore the role of motivation moderators, such as inhibition and activation systems (BIS-BAS). Two different sessions of exercise in normoxia and hypoxia (FiO2 13%), each lasting 18 min, were randomly assigned in a counterbalanced order and administered to seventeen male athletes. During exercise bouts, participants performed a mental task (BST) aimed to produce cognitive interference and suppression. Reaction times and accuracy of responses were recorded. After 5 min, all participants completed two questionnaires assessing mood states (ITAMS) and incidence of symptoms potentially related to hypoxia (AMS-C). The results show that hypoxia impairs cognitive performance in terms of slower reaction times, but a high BAS attenuates this effect. Participants with high BAS show an equivalent cognitive performance under hypoxia and normoxia conditions. No effects were found on mood states. Further research is required to investigate the role of BAS, cognitive abilities, and mood states in prolonged hypoxic conditions. [ABSTRACT FROM AUTHOR]

Published
2022
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26. Trunk sway changes in professional bus drivers during actual shifts on long-distance routes.

Author

Arippa, Federico, Leban, Bruno, Fadda, Paolo, Fancello, Gianfranco, and Pau, Massimiliano

Subjects
SHIFT systems, TRAVEL, POSTURAL balance, TIME, PRESSURE, MUSCLE fatigue, SITTING position, AUTOMOBILE driving, TIME series analysis, DESCRIPTIVE statistics, FATIGUE (Physiology), PSYCHOLOGICAL adaptation
Abstract

Although professional bus drivers are required to perform their task while adopting a prolonged constrained sitting posture, existence of possible effects in terms of postural strategies has been scarcely investigated under actual working conditions. This study aimed to characterise modifications of trunk sway in 14 professional bus drivers during regular shifts performed on non-urban routes using a pressure-sensitive mat placed on the seat. Centre-of-pressure (COP) time series were extracted from body-seat pressure data to calculate sway parameters (i.e. sway area, COP path length, COP displacements and velocities). Results show generalised increase in trunk sway as driving progresses, which becomes statistically significant after approximately 70–100 minutes of continuous driving. This may indicate the adoption of specific strategies to cope with discomfort onset or a fatigue-induced alteration of postural features. Trunk sway monitoring of bus drivers may be useful in detecting postural behaviours potentially associated with deteriorating performance and discomfort onset. Practitioner summary: Professional bus drivers operate in sitting position for prolonged time. Such constrained posture may induce discomfort and fatigue. We investigated trunk sway during actual shifts using pressure-sensitive mats. Significant increase of sway was detected after 70 min of continuous driving. Body-seat pressure data could be used as discomfort and fatigue markers. Abbreviations: ANOVA-RM: analysis of variance with repeated measures; AP: antero-posterior; COP: center of pressure; EC: ellipse's centroid; ML: medio-lateral; SA: sway area; SP: sway path. [ABSTRACT FROM AUTHOR]

Published
2022
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27. A Study on Lower Limb Asymmetries in Parkinson's Disease during Gait Assessed through Kinematic-Derived Parameters.

Author

Arippa, Federico, Leban, Bruno, Monticone, Marco, Cossu, Giovanni, Casula, Carlo, and Pau, Massimiliano

Subjects
*ANKLE, *PARKINSON'S disease, *KNEE, *ANKLE joint, *GAIT in humans, *KNEE joint, *HIP joint
Abstract

Unilaterality of motor symptoms is a distinctive feature of Parkinson's Disease (PD) and represents an important co-factor involved in motor deficits and limitations of functional abilities including postural instability and asymmetrical gait. In recent times, an increasing number of studies focused on the characterization of such alterations, which have been associated with increased metabolic cost and risk of falls and may severely compromise their quality of life. Although a large number of studies investigated the gait alterations in people with PD (pwPD), few focused on kinematic parameters and even less investigated interlimb asymmetry under a kinematic point of view. This retrospective study aimed to characterize such aspects in a cohort of 61 pwPD (aged 68.9 ± 9.3 years) and 47 unaffected individuals age- and sex-matched (66.0 ± 8.3 years), by means of computerized 3D gait analysis performed using an optical motion-capture system. The angular trends at hip, knee and ankle joints of pwPD during the gait cycle were extracted and compared with those of unaffected individuals on a point-by-point basis. Interlimb asymmetry was assessed using angle–angle diagrams (cyclograms); in particular, we analyzed area, orientation, trend symmetry and range offset. The results showed that pwPD are characterized by a modified gait pattern particularly at the terminal stance/early swing phase of the gait cycle. Significant alterations of interlimb coordination were detected at the ankle joint (cyclogram orientation and trend symmetry) and at the hip joint (range offset). Such findings might be useful in clinical routine to characterize asymmetry during gait and thus support physicians in the early diagnosis and in the evaluation of the disease progression. [ABSTRACT FROM AUTHOR]

Published
2022
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28. Influence of School Schedules on Physical Activity Patterns in Primary School Children: A Case Study in Italy.

Author

Pau, Massimiliano, Corona, Federica, Leban, Bruno, Piredda, Simona, Vacca, Maria Marcella, and Mura, Gioia

Subjects
SEDENTARY behavior in children, PHYSICAL activity, ACCELEROMETRY, HEALTH behavior in children, SCHOOL children
Abstract

Background: Considering the relevant amount of time spent by children at school, it is essential to ensure that suitable levels of physical activity (PA) are guaranteed. This study aimed to assess possible changes induced in the amount and type of PA performed following the 2 schedules in Italian primary schools, namely regular and full time (30-40 h/week respectively). Methods: A sample of 169 children wore a triaxial accelerometer 24h/day for 7 consecutive days. Raw data were processed to calculate the number of steps, amount and intensity of the PA performed in morning, afternoon and evening time slots. Results: During weekday afternoon times (1:30 to 4:30 PM), children attending the full-time schedule spent significantly less time in sedentary behavior with respect to those who attend the regular time (54.7% vs. 60.0%, P < .001) and more time in moderate-to-vigorous activity (18.0% vs. 15.0%, P = .004). No differences between morning and evening times were found. Conclusions: The structure of the full time schedule, which includes a second recess, promotes higher and more intense levels of PA during the afternoon. Such information represent a useful input in planning differential PA activities for children attending the regular time to achieve similar PA levels for the whole school population. [ABSTRACT FROM AUTHOR]

Published
2017
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29. Lower Limb Kinematics in Individuals with Hip Osteoarthritis during Gait: A Focus on Adaptative Strategies and Interlimb Symmetry.

Author

Porta, Micaela, Pau, Massimiliano, Leban, Bruno, Deidda, Michela, Sorrentino, Marco, Arippa, Federico, and Marongiu, Giuseppe

Subjects
KINEMATICS, SYMMETRY, KNEE, OSTEOARTHRITIS, QUALITY of life, HIP joint, ANKLE
Abstract

Among the functional limitations associated with hip osteoarthritis (OA), the alteration of gait capabilities represents one of the most invalidating as it may seriously compromise the quality of life of the affected individual. The use of quantitative techniques for human movement analysis has been found valuable in providing accurate and objective measures of kinematics and kinetics of gait in individuals with hip OA, but few studies have reported in-depth analyses of lower limb joint kinematics during gait and, in particular, there is a scarcity of data on interlimb symmetry. Such aspects were investigated in the present study which tested 11 individuals with hip OA (mean age 68.3 years) and 11 healthy controls age- and sex-matched, using 3D computerized gait analysis to perform point-by-point comparisons of the joint angle trends of hip, knee, and ankle. Angle-angle diagrams (cyclograms) were also built to compute several parameters (i.e., cyclogram area and orientation and Trend Symmetry) from which to assess the degree of interlimb symmetry. The results show that individuals with hip OA exhibit peculiar gait patterns characterized by severe modifications of the physiologic trend at hip level even in the unaffected limb (especially during the stance phase), as well as minor (although significant) alterations at knee and ankle level. The symmetry analysis also revealed that the effect of the disease in terms of interlimb coordination is present at knee joint as well as hip, while the ankle joint appears relatively preserved from specific negative effects from this point of view. The availability of data on such kinematic adaptations may be useful in supporting the design of specific rehabilitative strategies during both preoperative and postoperative periods. [ABSTRACT FROM AUTHOR]

Published
2021
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30. Age-Related Changes in Smoothness of Gait of Healthy Children and Early Adolescents.

Author

Leban, Bruno, Cimolin, Veronica, Porta, Micaela, Arippa, Federico, Pilloni, Giuseppina, Galli, Manuela, and Pau, Massimiliano

Subjects
*ADOLESCENCE, *SYMMETRY, *CENTENARIANS, *ANTHROPOMETRY, *CHILDREN with cerebral palsy, *AGE, *MOTION, *GAIT in humans, *CHILD development, *AGE distribution, *WALKING, *KINEMATICS, *PHYSIOLOGY
Abstract

In this study, we acquired and processed trunk accelerations during level walking in 85 children aged 8-13 years to calculate spatio-temporal parameters and Harmonic Ratio (HR), which is a metrics representative of gait smoothness and step-to-step symmetry. The results show that while spatio-temporal parameters remain unchanged once normalized considering individuals' anthropometry, significantly higher values of HR for both the antero-posterior and vertical directions were found in participants aged 12-13 with respect to those of 8-9. This indicates an improvement of gait symmetry, which suggests that the gait maturation process is still ongoing for the age ranges tested here. [ABSTRACT FROM AUTHOR]

Published
2020
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31. Changes in symmetry during gait in adults with Prader-Willi syndrome.

Author

Cimolin, Veronica, Pau, Massimiliano, Cau, Nicola, Leban, Bruno, Porta, Micaela, Capodaglio, Paolo, Sartorio, Alessandro, Grugni, Graziano, and Galli, Manuela

Subjects
PRADER-Willi syndrome, MOTION analysis, SYMMETRY, ADULTS, QUANTITATIVE research
Abstract

Most studies on locomotion of individuals with the Prader-Willi Syndrome (PWS) have been performed in a laboratory setting using quantitative motion analysis. Recently, wireless inertial sensors have been successfully employed for gait analysis in different pathological states with the advantages of reproducing a testing condition very close to those encountered in daily living. Using such devices, it is possible not only to characterize the conventional spatio-temporal parameters, but also extract information on further less conventional metrics, such as the harmonic ratio (HR), a measure of step-to-step symmetry based on trunk acceleration processing. In the present study, this technique was used to quantify gait parameters during level walking in 20 adults with PWS who were compared to 20 unaffected individuals. While no differences between the two groups were found in terms of spatio-temporal parameters, individuals with PWS exhibited significantly reduced values of HR in the antero-posterior and vertical directions. Such results, which indicate a poorer gait symmetry in PWS, suggest that upper body accelerations, as well as HR, provide novel information on gait in people with PWS that could not be extracted from spatio-temporal parameters only. [ABSTRACT FROM AUTHOR]

Published
2020
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32. Trunk rotation alters postural sway but not gait in female children and early adolescents: Results from a school-based screening for scoliosis.

Author

Pau, Massimiliano, Leban, Bruno, Pilloni, Giuseppina, Porta, Micaela, Cubeddu, Fabio, Secci, Claudio, Piras, Veronica, and Monticone, Marco

Subjects
*SCOLIOSIS in children, *GAIT in humans, *POSTURE, *TORSO, *MEDICAL screening, *SCOLIOSIS, *TORSO physiology, *ANTHROPOMETRY, *POSTURAL balance, *RANGE of motion of joints, *ROTATIONAL motion, *SCHOOL health services, *STATISTICS, *DIAGNOSIS
Abstract

Objective: The purpose of this study was to assess the influence of trunk rotation (TR) on postural sway and spatial-temporal parameters of gait in children and early adolescents screened at school for the presence of scoliosis.Methods: Two hundred and fifty-five individuals aged 9-14 (141 boys, 114 girls) underwent trunk rotation (TR) assessment by means of angle of trunk rotation (ATR) measurements performed with Bunnell's scoliometer. Participants with ATR ≥ 5° formed the TR group whose data were compared with those of a control group (CON) composed of individuals with ATR < 5° matched for age and anthropometric features. Postural sway was calculated on the basis of center of pressure (COP) time series acquired using a pressure plate. Spatial-temporal parameters of gait were derived from trunk accelerations collected by a single inertial sensor located in the low-back region.Results: Sway area, sway path, COP velocities in medio-lateral (ML) and antero-posterior (AP) directions and COP displacements in ML direction were found significantly higher in girls with TR, while no differences between the TR and CON groups were detected in boys. Both boys and girls with TR exhibited gait patterns similar to those of their CON schoolmates.Conclusions: These findings suggest that even mild levels of TR may influence balance of female children and early adolescents screened for scoliosis, and thus early interventions including selective and task-oriented exercises appear advisable. In contrast, TR does not appear to influence gait, but further investigations are required to clarify whether different ATR cut-offs may reveal alterations of spatial-temporal parameters. [ABSTRACT FROM AUTHOR]

Published
2018
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33. Lower Limb Force, Velocity, Power Capabilities during Leg Press and Squat Movements.

Author

Padulo, Johnny, Migliaccio, Gian Mario, Ardigò, Luca Paolo, Leban, Bruno, Cosso, Marco, and Samozino, Pierre

Subjects
LEG physiology, ATHLETIC equipment, BIOSENSORS, EXERCISE, MUSCLE strength, WEIGHTS & measures, BODY movement
Abstract

The aim was to compare lower-limb power, force, and velocity capabilities between squat and leg press movements. Ten healthy sportsmen performed ballistic lower-limb push-offs against 5-to-12 different loads during both the squat and leg press. Individual linear force-velocity and polynomial powervelocity relationships were determined for both movements from push-off mean force and velocity measured continuously with a pressure sensor and linear encoder. Maximal power output, theoretical maximal force and velocity, force-velocity profile and optimal velocity were computed. During the squat, maximal power output (17.7 ± 3.59 vs. 10.9 ± 1.39 W ⋅ kg-1), theoretical maximal velocity (1.66 ± 0.29 vs. 0.88 ± 0.18 m ⋅ s-1), optimal velocity (0.839 ± 0.144 vs. 0.465 ± 0.107 m ⋅ s-1), and force-velocity profile (-27.2 ± 8.5 vs. - 64.3 ± 29.5 N ⋅ s ⋅ m-1 ⋅ kg-1) values were significantly higher than during the leg press (p = 0.000, effect size = 1.72-3.23), whereas theoretical maximal force values (43.1 ± 8.6 vs. 51.9 ± 14.0 N ⋅ kg-1, p = 0.034, effect size = 0.75) were significantly lower. The mechanical capabilities of the lower-limb extensors were different in the squat compared with the leg press with higher maximal power due to much higher velocity capabilities (e.g. ability to produce force at high velocities) even if moderately lower maximal force qualities. [ABSTRACT FROM AUTHOR]

Published
2017
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34. Dynamic balance is impaired after a match in young elite soccer players.

Author

Pau, Massimiliano, Mereu, Federico, Melis, Marco, Leban, Bruno, Corona, Federica, and Ibba, Gianfranco

Abstract

Purpose The aim of this study is to assess the effect of actual match effort on dynamic balance abilities in young elite soccer players. Methods Seventeen Under 15 male players who compete at national level participated in the study. Their dynamic balance was assessed by having them jump starting with both feet on the ground in a standing position and land on one foot only. Their vertical time to stabilization (vTTS) and postural sway were calculated before and after 35 min of an unofficial match. Postural sway was assessed on the basis of center-of-pressure (COP) trajectories. Parameters considered were sway area, COP displacements in the antero-posterior (AP) and medio-lateral (ML) directions and COP path length. Results After the match, a significant increase in vTTS (p = 0.007) COP path length (p = 0.001) and COP displacements in ML (p < 0.001) was observed. Such effects involve both non-dominant (vTTS, path length) and dominant limb (COP displacements). Conclusions The physical effort associated with the match induces significant impairments of players' dynamic balance abilities. On the basis of such findings, coaches might consider integrating training sessions with specific balance exercises as well as performing injury-prevention routines even when players are fatigued, to better adapt them to match conditions. [ABSTRACT FROM AUTHOR]

Published
2016
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35. Effect of prolonged sitting on body-seat contact pressures among quay crane operators: A pilot study.

Author

Pau, Massimiliano, Leban, Bruno, Fadda, Paolo, and Fancello, Gianfranco

Subjects
PRESSURE, BLUE collar workers, BODY weight, INDUSTRIAL hygiene, POSTURE, SITTING position, TIME, SAMPLE size (Statistics), PILOT projects, DESCRIPTIVE statistics
Abstract

BACKGROUND: Quay crane operators are specialized in moving containers to and from vessels while adopting constrained sitting postures for prolonged periods (4 6 consecutive hours) in a very challenging environment. Thus, they are exposed to discomfort or pain that may result in deterioration of their performance with consequent reduction of operational safety levels. Such discomfort can be indirectly and partially assessed by measuring contact pressure at the body seat interface. OBJECTIVES: The aim of the study was to assess the feasibility, usefulness, and effectiveness of monitoring the variations in seat-body interface pressure during a regular work shift of 4 hours performed in a simulated environment. METHODS: Eight professional operators performed a four-hour shift in a realistic control station set inside a quay crane simulator. Seat body contact pressures were measured at 10 Hz using two pressure-sensitive mats placed on the seat pan and the backrest. Raw pressure data were processed to extract pressure vs. time curves related to the whole seat surface and, for the seat pan only, values associated with four anatomical regions (i.e. left and right thighs and buttocks). RESULTS: During the work shift, the mean backrest pressure was low and fairly constant. Seat pan pressure increased by 10%, rising from 7.4 (1.5) to 8.2 (2.3) kPa over the simulated shift. Detailed analysis of the four sub-regions revealed that as the trial progressed the mean contact pressure on buttocks decreased ( 6% at the end of the trial) while thigh pressures increased (by 10 and 20% for right and left sides, respectively). CONCLUSIONS: Although further studies with larger samples are needed, long-term monitoring of the body-seat contact pressures of crane operators in a simulated environment appears to be a useful tool to identify specific postural strategies to reduce discomfort originated by prolonged sitting posture. [ABSTRACT FROM AUTHOR]

Published
2016
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37. School-based screening of plantar pressures during level walking with a backpack among overweight and obese schoolchildren.

Author

Pau, Massimiliano, Leban, Bruno, Corona, Federica, Gioi, Sara, and Nussbaum, Maury A.

Subjects
ANALYSIS of variance, MULTIVARIATE analysis, CHILDHOOD obesity, PROBABILITY theory, T-test (Statistics), WALKING, BACKPACKS, BODY mass index, DATA analysis software, ONE-way analysis of variance
Abstract

Among children, postural modifications due to backpack carriage have direct consequences on how forces are exchanged between body and ground and thus on plantar pressure distribution. However, it is unknown whether such alterations are influenced by the foot structure and functionality typical of obesity. In this study, we tested 65 overweight/obese primary schoolchildren using a pressure platform while walking with and without the backpack. Contact areas, arch index, peak and mean plantar pressures in the forefoot, midfoot and rearfoot were compared with those from an additional 65 age- and gender-matched group of normal-weight children. Backpack carriage modified pressure distribution similarly in both groups, with the exception of mean midfoot pressure, which increased significantly among normal-weight children but not in the overweight/obese group. Notably, the pressure values associated with mass excess and backpack carriage still raise some concerns regarding potential long-term adverse consequences on foot structure and functionality of overweight/obese children. Practitioner summary: Backpack carriage by overweight/obese schoolchildren altered plantar pressures similar to what was observed in their normal-weight peers. Yet, high pressures were found among the overweight/obese children. This raises concerns regarding potential long-term adverse consequences on foot structure and functionality, and supports establishing more specific limits for the carried load. [ABSTRACT FROM AUTHOR]

Published
2016
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38. Effectiveness and Limitations of Unsupervised Home-Based Balance Rehabilitation with Nintendo Wii in People with Multiple Sclerosis.

Author

Pau, Massimiliano, Coghe, Giancarlo, Corona, Federica, Leban, Bruno, Marrosu, Maria Giovanna, and Cocco, Eleonora

Subjects
COMPUTER software, POSTURAL balance, LONGITUDINAL method, MULTIPLE sclerosis, STRETCH (Physiology), THERAPEUTICS, TIME series analysis, VIDEO games, BODY movement
Abstract

Balance training represents a critical part of the rehabilitation process of individuals living with multiple sclerosis (MS) since impaired postural control is a distinctive symptom of the disease. In recent years, the use of the Nintendo Wii system has become widespread among rehabilitation specialists for this purpose, but few studies have verified the effectiveness of such an approach using quantitative measures of balance. In this study, we analyzed the postural sway features of a cohort of twenty-seven individuals with MS before and after 5 weeks of unsupervised home-based balance training with the Wii system. Center of pressure (COP) time-series were recorded using a pressure platform and processed to calculate sway area, COP path length, displacements, and velocities in mediolateral (ML) and anteroposterior (AP) directions. Although the results show a significant reduction in sway area, COP displacements, and velocity, such improvements are essentially restricted to the ML direction, as the Wii platform appears to properly stimulate the postural control system in the frontal plane but not in the sagittal one. Available Wii games, although somewhat beneficial, appear not fully suitable for rehabilitation in MS owing to scarce flexibility and adaptability to MS needs and thus specific software should be developed. [ABSTRACT FROM AUTHOR]

Published
2015
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39. Relationship between static and dynamic balance abilities in Italian professional and youth league soccer players.

Author

Pau, Massimiliano, Arippa, Federico, Leban, Bruno, Corona, Federica, Ibba, Gianfranco, Todde, Francesco, and Scorcu, Marco

Abstract

Objectives To assess the existence of correlations between static and dynamic balance abilities in young and professional elite soccer players. Design Cross-sectional. Participants Fifty-one elite players who regularly compete at national level divided into two groups: Professional (age 18-34, n = 20) and Under 15-17 (age 14-16, n = 31). Main outcome measures Dynamic balance was assessed for the case of a single-leg landing task by means of vertical time to stabilization (TTS) and postural sway calculated on the basis of center-of-pressure (COP) trajectories (sway area, COP displacements in antero-posterior and medio-lateral direction, COP path length). The same parameters were also measured for a 20 s one-legged stance to assess static balance abilities. Results No significant correlations were found between static and dynamic balance parameters except for TTS and COP displacements in the antero-posterior direction (r = 0.29, p = 0.003). Professional players are characterized by lower TTS in comparison with youth leagues players (0.767 vs. 1.188 s for the dominant limb, p < 0.001) and exhibit reduced sway area (of 34-40%, p < 0.05) for both conditions tested. Conclusion The assessment of balance in soccer players should be performed with both dynamic and static tests, considering that the postural control performances in the two cases are not related. [ABSTRACT FROM AUTHOR]

Published
2015
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40. Effect of light and vigorous physical activity on balance and gait of older adults.

Author

Pau, Massimiliano, Leban, Bruno, Collu, Giorgia, and Migliaccio, Gian Mario

Subjects
*DIAGNOSIS, *POSTURAL balance, *GAIT in humans, *PHYSICAL activity, *DESCRIPTIVE statistics, *OLD age
Abstract

This study aims to quantitatively assess the effects of vigorous and light physical activity (VPA, LPA) on static balance, gait and sit-to-stand (STS) tasks in a cohort of healthy older adults. To this end, 34 individuals of age >65 years were divided into two groups ( n = 17 each) who underwent 36 sessions (3 × 12 weeks) of PA characterized by different levels of intensity, assessed through continuous heart rate monitoring during the training session. Their balance and mobility were objectively evaluated on the basis of postural sway and time of STS measurements performed using a force platform. The main spatiotemporal parameters of gait (i.e. speed, stride and gait cycle duration, stance, swing and double support phase duration) were also acquired using a wearable inertial measurement unit. The results show that most gait parameters and STS time significantly improve in the VPA group but not in the LPA one. For the latter group a reduction only of swing phase duration was detected. PA also induced a generalized reduction of postural sway in both groups in the case of absence of visual input. These findings suggest that PA programs characterized by superior levels of intensity might be more suitable in generally improving static and dynamic daily motor tasks, while in terms of static balance acceptable results can be achieved even when only light activity is performed. [ABSTRACT FROM AUTHOR]

Published
2014
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41. The development of swimming power.

Author

Gatta, Giorgio, Leban, Bruno, Paderi, Maurizio, Padulo, Johnny, Migliaccio, Gian Mario, and Pau, Massimiliano

Subjects
*ANALYSIS of variance, *BIOMECHANICS, *EXERCISE, *LONGITUDINAL method, *METABOLISM, *MUSCLE strength, *RESEARCH funding, *SWIMMING, *T-test (Statistics), *PHYSICAL training & conditioning, *RANDOMIZED controlled trials, *BLIND experiment, *DATA analysis software, *DESCRIPTIVE statistics
Abstract

Purpose: the aim of this study was to investigate the effects of the transfer strength training method on swimming power. Methods: twenty male swimmers "master" were randomly allocated to strength (n= 10, ST) and swimming training (n=10, SW) groups. Both groups performed six-weeks training based on swimming training for SW and strength training which consisted in a weight training session immediately followed by the maximum swimming velocity. The performance in both groups was assessed by Maximal-Mechanical-External-Power (MMEP) before and after the six-weeks period, using a custom ergometer that provided force, velocity, and power measurement in water. Results: a significant increased MMEP in ST group (5.73% with p< 0.05) was obtained by an increased strength (11.70% with p< 0.05) and a decreased velocity (4.99% with p> 0.05). Conversely, in the SW group there was a decreased in MMEP (7.31%; p< 0.05), force and velocity (4.16%, and 3.45; respectively p> 0.05). Conclusion: this study showed that the transfer training method, based on combination of weight training (in dry condition) immediately followed by fast swim (in water) significantly improves swimming-power in master. [ABSTRACT FROM AUTHOR]

Published
2014

42. Characterization of Static Balance Abilities in Elite Soccer Players by Playing Position and Age.

Author

Pau, Massimiliano, Ibba, Gianfranco, Leban, Bruno, and Scorcu, Marco

Subjects
AGE distribution, ANALYSIS of variance, ANTHROPOMETRY, COMPARATIVE studies, DIAGNOSIS, POSTURAL balance, EXERCISE physiology, MULTIVARIATE analysis, POSTURE, SOCCER, SPORTS sciences, STATISTICS, DATA analysis, EFFECT sizes (Statistics), BODY mass index, ELITE athletes, DATA analysis software, DESCRIPTIVE statistics
Abstract

In this study, we investigated the static balance of adult and adolescent elite soccer players to understand how expertise and playing position influence postural control. Seventy-one national level players were tested using a force platform to acquire Center-of-Pressure (COP) data in uni- and bipedal stance and calculate sway area (SA), COP path length, velocity and displacements. The results show significant differences in postural sway related to age and playing position only for single-limb stance. In particular, midfielders exhibited significantly lower values of SA with respect to defenders (–48%,p= 0.001) and the under-15 players exhibited SA 42–64% higher than all the others (p= 0.001). In the light of planning training or rehabilitation programs specific for each player’s role and age, sway measurements may supply useful, objective and reliable information only for the unipedal test as the bipedal standing appears not challenging enough to let differences in balance abilities emerge. [ABSTRACT FROM PUBLISHER]

Published
2014
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44. Inter-joint coordination during gait in people with multiple sclerosis: A focus on the effect of disability.

Author

Pau, Massimiliano, Leban, Bruno, Massa, Davide, Porta, Micaela, Frau, Jessica, Coghe, Giancarlo, and Cocco, Eleonora

Abstract

• Inter-joint coordination during gait in people with Multiple Sclerosis was assessed. • Cyclograms were built from kinematics of hip, knee and ankle in the sagittal plane. • Coordination was quantified at each joint couple by means of cyclograms geometry. • Cyclograms features were significantly modified in pwMS with respect to controls. • This approach can monitor the disease progression and the rehabilitation efficacy. Walking difficulties, which are widespread among people with MS (pwMS), represent one of the major factors contributing to physical disability and, as such, may greatly affect an individual's independence and quality of life. In this context, the study of lower limb kinematics may provide an important contribution to unveiling the underlying mechanisms of walking dysfunctions in MS. However, limited information about the inter-joint coordination during gait—the functional relationship between joint pairs during the whole gait cycle—is available. We retrospectively analyzed the gait patterns of 104 pwMS (56 women, 48 men, mean age 46.3, average Expanded Disability Status Scale score 3.5) and 84 unaffected individuals age-and-sex-matched, who underwent 3D computerized gait analysis carried out using an optical motion capture system. PwMS were also stratified into two groups according to their level of disability. Those with EDSS ≤ 3.5 (n = 62) formed the "low-mild disability" group, while those with EDSS > 3.5 (n = 42) were assigned to the "moderate-severe disability" group. The raw data were processed to calculate the main spatio-temporal parameters and the kinematics in the sagittal plane at the hip, knee, and ankle joints. At each point of the gait cycle, the angular values were employed to build angle-angle diagrams (cyclograms) for the hip-knee and the knee-ankle joint couples. Inter-joint coordination was quantified using geometric features of the cyclograms (i.e., area, perimeter, and dimensionless ratio) and compared between groups. For pwMS only, we also explored possible relationships between cyclograms parameters, disability level, and spatio-temporal parameters of gait. PwMS exhibit a well-known gait pattern characterized by reduced speed, stride length, increased step width, and double support phase duration. Their inter-joint coordination was found altered at both hip-knee and knee-ankle joint couples, as indicated by the significantly reduced cyclogram area and perimeter with respect to unaffected individuals. However, the detailed analysis of the angle-angle diagram trajectories showed some differences associated with the level of disability. In particular, pwMS with mild-low disability exhibit cyclograms partly superposed with those of unaffected individuals in the first half of the stance phase (hip-knee couple) and the second half of the swing phase (knee-ankle couple), while in those with a moderate-severe disability, the differences are substantially extended to the whole gait cycle. Significant moderate to large correlations were also observed between cyclogram area and perimeter, EDSS score, and spatio-temporal parameters of gait. The study of inter-joint coordination during gait in pwMS represents a useful source of information about the way lower limb joints interact, thus potentially expanding the knowledge of the mechanisms underlying walking dysfunctions associated with the disease. From a clinical perspective, the availability of reference data for the co-variation of hip-knee and knee-ankle joint angles during gait can effectively support both the characterization of the progression of the disease and the assessment of the effectiveness of rehabilitative treatments. [ABSTRACT FROM AUTHOR]

Published
2022
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46. Kinematics Adaptation and Inter-Limb Symmetry during Gait in Obese Adults.

Author

Pau, Massimiliano, Capodaglio, Paolo, Leban, Bruno, Porta, Micaela, Galli, Manuela, and Cimolin, Veronica

Subjects
KINEMATICS, OBESITY, SYMMETRY, LUMBAR pain, ANKLE, CHILDREN with cerebral palsy
Abstract

The main purpose of this study is to characterize lower limb joint kinematics during gait in obese individuals by analyzing inter-limb symmetry and angular trends of lower limb joints during walking. To this purpose, 26 obese individuals (mean age 28.5 years) and 26 normal-weight age- and sex-matched were tested using 3D gait analysis. Raw kinematic data were processed to derive joint-specific angle trends and angle-angle diagrams (synchronized cyclograms) which were characterized in terms of area, orientation and trend symmetry parameters. The results show that obese individuals exhibit a kinematic pattern which significantly differs from those of normal weight especially in the stance phase. In terms of inter-limb symmetry, higher values were found in obese individuals for all the considered parameters, even though the statistical significance was detected only in the case of trend symmetry index at ankle joint. The described alterations of gait kinematics in the obese individuals and especially the results on gait asymmetry are important, because the cyclic uneven movement repeated for hours daily can involve asymmetrical spine loading and cause lumbar pain and could be dangerous for overweight individuals. [ABSTRACT FROM AUTHOR]

Published
2021
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47. Use of wrist-worn accelerometers to quantify bilateral upper limb activity and asymmetry under free-living conditions in people with multiple sclerosis.

Author

Pau, Massimiliano, Leban, Bruno, Deidda, Michela, Porta, Micaela, Coghe, Giancarlo, Cattaneo, Davide, and Cocco, Eleonora

Abstract

• There is scarce data on upper limb use in in people with Multiple Sclerosis (pwMS). • We investigated time and intensity of upper limb activity using accelerometers. • In pwMS overall activity is reduced in comparison with unaffected individuals. • PwMS use mostly their dominant limb with respect to unaffected individuals. Background: Although upper limb (UL) dysfunctions are quite common among people with Multiple Sclerosis (pwMS), there is a scarcity of information about actual UL usage under free-living conditions. The aim of the present study is to quantitatively assess 'real-world' activity time, intensity and possible asymmetry of use among dominant and non-dominant ULs in pwMS. Methods: Twenty-eight pwMS (20 women, 8 men, average EDSS 4.3) and 28 age- and sex-matched unaffected individuals were required to wear a tri-axial accelerometer on each wrist 24h/day for 2 weekdays. Raw accelerations were processed to calculate parameters associated with time and intensity of use of UL both when engaged in uni- or bilateral activities. Results: During the 2-day monitoring period, pwMS were characterized by significantly lower overall activity, they used their dominant limb for a significantly longer time and, while performing bilateral activities, their dominant limb expressed movements of superior intensity in a proportion higher than what was observed in unaffected individuals. Conclusion: The instrumental monitoring of UL activity with two wrist-worn sensors may represent an effective tool for assessing the contribution of each limb to uni- and bilateral movements. Such data can be employed to monitor the progression of UL dysfunctions and the effectiveness of pharmacologic and rehabilitative treatments. [ABSTRACT FROM AUTHOR]

Published
2021
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48. Kinematic Analysis of Lower Limb Joint Asymmetry During Gait in People with Multiple Sclerosis.

Author

Pau, Massimiliano, Leban, Bruno, Deidda, Michela, Putzolu, Federica, Porta, Micaela, Coghe, Giancarlo, Cocco, Eleonora, and Sforza, Chiarella

Subjects
*MULTIPLE sclerosis, *WALKING speed, *ANKLE, *HIP joint, *MOTION capture (Human mechanics), *ANATOMICAL planes, *POSTURAL muscles
Abstract

The majority of people with Multiple Sclerosis (pwMS), report lower limb motor dysfunctions, which may relevantly affect postural control, gait and a wide range of activities of daily living. While it is quite common to observe a different impact of the disease on the two limbs (i.e., one of them is more affected), less clear are the effects of such asymmetry on gait performance. The present retrospective cross-sectional study aimed to characterize the magnitude of interlimb asymmetry in pwMS, particularly as regards the joint kinematics, using parameters derived from angle-angle diagrams. To this end, we analyzed gait patterns of 101 pwMS (55 women, 46 men, mean age 46.3, average Expanded Disability Status Scale (EDSS) score 3.5, range 1–6.5) and 81 unaffected individuals age- and sex-matched who underwent 3D computerized gait analysis carried out using an eight-camera motion capture system. Spatio-temporal parameters and kinematics in the sagittal plane at hip, knee and ankle joints were considered for the analysis. The angular trends of left and right sides were processed to build synchronized angle–angle diagrams (cyclograms) for each joint, and symmetry was assessed by computing several geometrical features such as area, orientation and Trend Symmetry. Based on cyclogram orientation and Trend Symmetry, the results show that pwMS exhibit significantly greater asymmetry in all three joints with respect to unaffected individuals. In particular, orientation values were as follows: 5.1 of pwMS vs. 1.6 of unaffected individuals at hip joint, 7.0 vs. 1.5 at knee and 6.4 vs. 3.0 at ankle (p < 0.001 in all cases), while for Trend Symmetry we obtained at hip 1.7 of pwMS vs. 0.3 of unaffected individuals, 4.2 vs. 0.5 at knee and 8.5 vs. 1.5 at ankle (p < 0.001 in all cases). Moreover, the same parameters were sensitive enough to discriminate individuals of different disability levels. With few exceptions, all the calculated symmetry parameters were found significantly correlated with the main spatio-temporal parameters of gait and the EDSS score. In particular, large correlations were detected between Trend Symmetry and gait speed (with rho values in the range of −0.58 to −0.63 depending on the considered joint, p < 0.001) and between Trend Symmetry and EDSS score (rho = 0.62 to 0.69, p < 0.001). Such results suggest not only that MS is associated with significantly marked interlimb asymmetry during gait but also that such asymmetry worsens as the disease progresses and that it has a relevant impact on gait performances. [ABSTRACT FROM AUTHOR]

Published
2021
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49. Functional Electrical Stimulation for Foot Drop in Post-Stroke People: Quantitative Effects on Step-to-Step Symmetry of Gait Using a Wearable Inertial Sensor.

Author

Schifino, Giulia, Cimolin, Veronica, Pau, Massimiliano, da Cunha, Maira Jaqueline, Leban, Bruno, Porta, Micaela, Galli, Manuela, Souza Pagnussat, Aline, and Iosa, Marco

Subjects
ELECTRIC stimulation, WALKING speed, SYMMETRY, FOOT, DETECTORS, STROKE patients
Abstract

The main purpose of the present study was to assess the effects of foot drop stimulators (FDS) in individuals with stroke by means of spatio-temporal and step-to-step symmetry, harmonic ratio (HR), parameters obtained from trunk accelerations acquired using a wearable inertial sensor. Thirty-two patients (age: 56.84 ± 9.10 years; 68.8% male) underwent an instrumental gait analysis, performed using a wearable inertial sensor before and a day after the 10-session treatment (PRE and POST sessions). The treatment consisted of 10 sessions of 20 min of walking on a treadmill while using the FDS device. The spatio-temporal parameters and the HR in the anteroposterior (AP), vertical (V), and mediolateral (ML) directions were computed from trunk acceleration data. The results showed that time had a significant effect on the spatio-temporal parameters; in particular, a significant increase in gait speed was detected. Regarding the HRs, the HR in the ML direction was found to have significantly increased (+20%), while those in the AP and V directions decreased (approximately 13%). Even if further studies are necessary, from these results, the HR seems to provide additional information on gait patterns with respect to the traditional spatio-temporal parameters, advancing the assessment of the effects of FDS devices in stroke patients. [ABSTRACT FROM AUTHOR]

Published
2021
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50. Smoothness of Gait in Healthy and Cognitively Impaired Individuals: A Study on Italian Elderly Using Wearable Inertial Sensor.

Author

Pau, Massimiliano, Mulas, Ilaria, Putzu, Valeria, Asoni, Gesuina, Viale, Daniela, Mameli, Irene, Leban, Bruno, and Allali, Gilles

Subjects
WALKING speed, COGNITION disorders, OLDER people, GAIT in humans, OLD age, DETECTORS, SOFTWARE measurement
Abstract

The main purpose of the present study was to compare the smoothness of gait in older adults with and without cognitive impairments, using the harmonic ratio (HR), a metric derived from trunk accelerations. Ninety older adults aged over 65 (age: 78.9 ± 4.8 years; 62% female) underwent instrumental gait analysis, performed using a wearable inertial sensor and cognitive assessment with the Mini Mental State Examination (MMSE) and Addenbrooke's Cognitive Examination Revised (ACE-R). They were stratified into three groups based on their MMSE performance: healthy controls (HC), early and advanced cognitive decline (ECD, ACD). The spatio-temporal and smoothness of gait parameters, the latter expressed through HR in anteroposterior (AP), vertical (V) and mediolateral (ML) directions, were derived from trunk acceleration data. The existence of a relationship between gait parameters and degree of cognitive impairment was also explored. The results show that individuals with ECD and ACD exhibited significantly slower speed and shorter stride length, as well as reduced values of HR in the AP and V directions compared to HC, while no significant differences were found between ECD and ACD in any of the investigated parameters. Gait speed, stride length and HR in all directions were found to be moderately correlated with both MMSE and ACE-R scores. Such findings suggest that, in addition to the known changes in gait speed and stride length, important reductions in smoothness of gait are likely to occur in older adults, owing to early/prodromal stages of cognitive impairment. Given the peculiar nature of these metrics, which refers to overall body stability during gait, the calculation of HR may result in being useful in improving the characterization of gait patterns in older adults with cognitive impairments. [ABSTRACT FROM AUTHOR]

Published
2020
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