Your search keyword '"Mengarelli, Alessandro"' showing total 8 results

1. Wavelet Analysis-Based Reconstruction for sEMG Signal Denoising

Author

Strazza, Annachiara, Verdini, Federica, Mengarelli, Alessandro, Cardarelli, Stefano, Tigrini, Andrea, Fioretti, Sandro, Di Nardo, Francesco, Magjarevic, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Henriques, Jorge, editor, Neves, Nuno, editor, and de Carvalho, Paulo, editor

Published

2020

2. Ankle Muscles Co-Activation Patterns During Normal Gait: An Amplitude Evaluation

Author

Cardarelli, Stefano, Gentili, Andrea, Mengarelli, Alessandro, Verdini, Federica, Fioretti, Sandro, Burattini, Laura, Di Nardo, Francesco, Magjarevic, Ratko, Editor-in-chief, Ładyżyński, Piotr, Series editor, Ibrahim, Fatimah, Series editor, Lacković, Igor, Series editor, Rock, Emilio Sacristan, Series editor, Eskola, Hannu, editor, Väisänen, Outi, editor, Viik, Jari, editor, and Hyttinen, Jari, editor

Published

2018

3. Co-activation patterns of gastrocnemius and quadriceps femoris in controlling the knee joint during walking.

Author

Mengarelli, Alessandro, Gentili, Andrea, Strazza, Annachiara, Burattini, Laura, Fioretti, Sandro, and Di Nardo, Francesco

Subjects

*SKELETAL muscle, *QUADRICEPS muscle, *PHYSIOLOGICAL aspects of walking, *ANTERIOR compartment syndrome, *KNEE diseases

Abstract

Muscular co-activation is a well-known mechanism for lower limb joint stabilization in both healthy and pathological individuals. This muscular feature appears particularly important for the knee joint, not only during challenging motor tasks such as cutting and landing but also during walking, due to knee cyclic loading. Gastrocnemius acts on the knee joint with a flexor activity and co-activations with quadriceps muscles lead to greater knee ligament strain with respect to an isolated burst of either muscle. Thus, this study aimed to assess possible co-activations between gastrocnemius and quadriceps muscles during walking. Five co-activation periods were assessed: during early stance (identified in 5.7 ± 5.1% of total strides), early and late foot-contact (88.9 ± 8.9% and 8.9 ± 8.2%), push-off (23.9 ± 12.2%) and late swing (29.0 ± 16.1%). Outcomes showed that late foot-contact and swing co-activations could deserve particular attention: in both cases the knee joint was close to the full extension (around 3.5° and 6°, respectively) and thus, considering also the anterior tibia translation due to the quadriceps activity, the simultaneous gastrocnemius burst could lead to an enhanced knee ligaments elongation. Findings of this study represent the first attempt to provide a reference knee joint co-activation framework, useful also for further evaluation in cohorts with knee failures. [ABSTRACT FROM AUTHOR]

Published

2018

4. Normative EMG patterns of ankle muscle co-contractions in school-age children during gait.

Author

Di Nardo, Francesco, Mengarelli, Alessandro, Burattini, Laura, Maranesi, Elvira, Agostini, Valentina, Nascimbeni, Alberto, Knaflitz, Marco, and Fioretti, Sandro

Subjects

*GAIT disorders in children, *ELECTROMYOGRAPHY, *ANKLE physiology, *MUSCLE contraction, *TIBIALIS anterior, *SKELETAL muscle, *SKELETAL muscle physiology, *GAIT in humans, *RETROSPECTIVE studies

Abstract

Purpose: The study was designed to assess the co-contractions of tibialis anterior (TA) and gastrocnemius lateralis (GL) in healthy school-age children during gait at self-selected speed and cadence, in terms of variability of onset-offset muscular activation and occurrence frequency.Methods: Statistical gait analysis, a recent methodology performing a statistical characterization of gait by averaging spatio-temporal and sEMG-based parameters over numerous strides, was performed in 100 healthy children, aged 6-11 years. Co-contractions were assessed as the period of overlap between activation intervals of TA and GL.Results: On average, 165±27 strides were analyzed for each child, resulting in approximately 16,500 strides. Results showed that GL and TA act as pure agonist/antagonists for ankle plantar/dorsiflexion (no co-contractions) in only 19.2±10.4% of strides. In the remaining strides, statistically significant (p<0.05) co-contractions appear in early stance (46.5±23.0% of the strides), mid-stance (28.8±15.9%), pre-swing (15.2±9.2%), and swing (73.2±22.6%). This significantly increased complexity in muscle recruitment strategy beyond the activation as pure ankle plantar/dorsiflexors, suggests that in healthy children co-contractions are likely functional to further physiological tasks as balance improvement and control of joint stability.Conclusions: This study represents the first attempt for the development in healthy children of a normative dataset for GL/TA co-contractions during gait, achieved on an exceptionally large number of strides in every child and in total. The present reference frame could be useful for discriminating physiological and pathological behavior in children and for designing more focused studies on the maturation of gait. [ABSTRACT FROM AUTHOR]

Published

2016

5. EMG-Based Characterization of Walking Asymmetry in Children with Mild Hemiplegic Cerebral Palsy.

Author

Di Nardo, Francesco, Strazza, Annachiara, Mengarelli, Alessandro, Cardarelli, Stefano, Tigrini, Andrea, Verdini, Federica, Nascimbeni, Alberto, Agostini, Valentina, Knaflitz, Marco, and Fioretti, Sandro

Subjects

CEREBRAL palsy, CHILDREN with cerebral palsy, NEUROLOGICAL disorders, MOVEMENT disorders, HEMIPLEGIA, TIBIALIS anterior

Abstract

Hemiplegia is a neurological disorder that is often detected in children with cerebral palsy. Although many studies have investigated muscular activity in hemiplegic legs, few EMG-based findings focused on unaffected limb. This study aimed to quantify the asymmetric behavior of lower-limb-muscle recruitment during walking in mild-hemiplegic children from surface-EMG and foot-floor contact features. sEMG signals from tibialis anterior (TA) and gastrocnemius lateralis and foot-floor contact data during walking were analyzed in 16 hemiplegic children classified as W1 according to Winter' scale, and in 100 control children. Statistical gait analysis, a methodology achieving a statistical characterization of gait by averaging surface-EMG-based features, was performed. Results, achieved in hundreds of strides for each child, indicated that in the hemiplegic side with respect to the non-hemiplegic side, W1 children showed a statistically significant: decreased number of strides with normal foot-floor contact; decreased stance-phase length and initial-contact sub-phase; curtailed, less frequent TA activity in terminal swing and a lack of TA activity at heel-strike. The acknowledged impairment of anti-phase eccentric control of dorsiflexors was confirmed in the hemiplegic side, but not in the contralateral side. However, a modified foot-floor contact pattern is evinced also in the contralateral side, probably to make up for balance requirements. [ABSTRACT FROM AUTHOR]

Published

2019

6. Surface EMG patterns for quantification of thigh muscle co-contraction in school-age children: Normative data during walking.

Author

Di Nardo, Francesco, Strazza, Annachiara, Mengarelli, Alessandro, Ercolani, Serena, Morgoni, Nicole, Burattini, Laura, Agostini, Valentina, Knaflitz, Marco, and Fioretti, Sandro

Subjects

*GAIT in humans, *ELECTROMYOGRAPHY, *MUSCLE contraction, *HEALTH of school children, *MUSCLE strength, *KNEE abnormalities, *WALKING, *THIGH, *QUADRICEPS muscle physiology, *POSTURAL balance, *WEIGHT-bearing (Orthopedics), *PHYSIOLOGY

Abstract

Muscle co-contractions are particularly relevant in analyzing children pathologies. To interpret surface electromyography (sEMG) in pathological conditions, reliable normative data in non-pathological children are required for direct comparison. Aim of the study was the quantification of co-contraction activity between quadriceps femoris (QF) and hamstring muscles during walking in healthy children. To this aim, Statistical gait analysis was performed on sEMG signals from rectus femoris (RF), vastus medialis (VM), and lateral hamstrings (LH), in 16401 strides walked by 100 healthy school-age children. Co-contractions were assessed as overlapping period between activation intervals of considered muscles. Results showed full superimpositions of LH with both RF and VL activity from terminal swing, 80-100% of gait cycle, to successive loading response (0-15% of gait cycle), in around 90% of strides, as reported in adults. This indicates that children regularly use a cocontraction activity between QF and hamstring muscles in weight acceptance during walking, supporting the hypothesis of a regulatory role of co-contraction in providing knee joint stability. Concomitant activity of QF and hamstring muscles was detected also during push-off phase (30-50% of gait cycle), showing a large variability intra and inter subjects and a lower occurrence frequency (around 25% of strides). This could be intended for controlling rapid knee flexion and/or stabilizing pelvis during body progression. Present findings represent the first attempt to provide normative sEMG dataset on variability of QF and hamstring muscles co-contractions during child walking, useful for discriminating physiological and pathological behavior and for designing future studies on maturation of gait. [ABSTRACT FROM AUTHOR]

Published

2018

7. Assessment of the variability of vastii myoelectric activity in young healthy females during walking: A statistical gait analysis.

Author

Di Nardo, Francesco, Maranesi, Elvira, Mengarelli, Alessandro, Ghetti, Giacomo, Burattini, Laura, and Fioretti, Sandro

Subjects

*ELECTROMYOGRAPHY, *WALKING, *MOTOR ability, *VASTUS medialis, *QUADRICEPS muscle, *KINESIOLOGY

Abstract

The study was designed to assess the natural variability of the activation modalities of vastus medialis (VM) and vastus lateralis (VL) during walking at a self-selected speed and cadence of 30 young, healthy, females. This was achieved by conducting statistical gait analysis on the surface electromyographic signals from hundreds of strides for each subject. Results revealed variability in the number of activations, occurrence frequency, and onset-offset instants across the thousands of strides analyzed. However, despite the variability, there was one activation occurrence which remained consistent across subjects for both VM and VL. This occurred from terminal swing to the following loading response (observed in 100% of strides). A second, less frequent, activation occurred between mid-stance up to pre-swing (observed in 39.3 ± 22.4% of strides for VM and in 35.1 ± 20.6% for VL). No significant differences ( p > 0.05) were observed in the onset–offset instants or in the occurrence frequency, which suggest a simultaneous recruitment of VM and VL. This “normality” pattern represents the first attempt at developing a reference frame for vastii sEMG activity during walking, that is able to include the physiological variability of the phenomenon and control the confounding effects of age and gender. [ABSTRACT FROM AUTHOR]

Published

2015

8. Is child walking conditioned by gender? Surface EMG patterns in female and male children.

Author

Di Nardo, Francesco, Laureati, Giulio, Strazza, Annachiara, Mengarelli, Alessandro, Burattini, Laura, Agostini, Valentina, Nascimbeni, Alberto, Knaflitz, Marco, and Fioretti, Sandro

Subjects

*WALKING, *ELECTROMYOGRAPHY, *SKELETAL muscle, *TIBIALIS anterior, *SCHOOL children, *ANKLE physiology, *SKELETAL muscle physiology, *GAIT in humans, *GENDER identity, *REFERENCE values, *RETROSPECTIVE studies

Abstract

EMG-based differences between females and males during walking are generally acknowledged in adults. Aim of the study was the quantification of possible gender differences in myoelectric activity of gastrocnemius lateralis (GL) and tibialis anterior (TA) during walking in school-age children. Gender-related comparison with adults was also provided to get possible novel insight in maturation of gait. To this aim, Statistical gait analysis, a recent methodology performing a statistical characterization of gait by averaging spatial-temporal and surface-EMG-based parameters over hundreds of strides, was performed in100 healthy school-age children (C-group) and in 33 healthy young adults (YA-group). On average, 301±110 consecutive strides were analyzed for each subject. In C-group, no significant differences (p>0.05) were observed between females and males in GL and TA, considering mean onset/offset instants of activation and occurrence frequency. Stratifying the C-group for age, small differences between females and males in occurrence frequency of GL arose in oldest children. In YA-group, females showed a significant propensity for a more complex recruitment of TA and GL (higher number of activations during gait cycle, quantified by occurrence frequency) compared to males. These outcomes suggest that gender-related differences in sEMG parameters do not characterize the recruitment of GL and TA during child walking in early years (6-8 years), start occurring when adolescence is approaching (10-12 years), and are acknowledged in both ankle muscles only in adults. Present findings seem to support previous studies on maturation of gait which indicate adolescence as the time-range where gait is completing its maturation path. [ABSTRACT FROM AUTHOR]

Published

2017