A review of the effectiveness of lower limb orthoses used in cerebral palsy

To produce this review, a systematic literature search was conducted for relevant articles published in the period between the date of the previous ISPO consensus conference report on cerebral palsy (1994) and April 2008. The search terms were 'cerebral and pals* (palsy, palsies), 'hemiplegia', 'diplegia', 'orthos*' (orthoses, orthosis) orthot* (orthotic, orthotics), brace or AFO

Bimanual coordination and motor learning in children with unilateral motor disorders

Introduction Appropriate bimanual coordination is essential for many tasks in daily life. Children with unilateral cerebral palsy (uCP) however struggle with the execution of such tasks. Extensive research has been done investigating motor impairments on a functional level using standardized procedures. There is a lack of studies however looking at the specific problem of coordination of a bimanual task, especially with respect to the different underlying neuropathologies. Aims & Methods Within this thesis, kinematics of bimanual hand movement during a role differentiated bimanual box opening task in children with uCP, as well as in typically developing children (TDC) of similar ages, were investigated. The aims were: i) to identify behavioural changes in peak periods of development of the corpus callosum and areas of the prefrontal cortex, both of which are related to bimanual function in typically developing children; ii) to explore the relation between motor impairments of children with uCP and their bimanual coordination and iii) to investigate the impact of various underlying neuropathologies on bimanual coordination in children with uCP. Results For the first study, a total of 37 TDC between 5 and 16 years were included and allocated to their respective age-group: Young Children (YC: 5-6 years), Old Children (OC: 7-9 years) and Adolescents (AD: 10-16 years). The two older groups performed the task significantly faster than YC. Likewise, a trend (yet without reaching significance) towards a more ideal temporal sequencing was shown between YC and the two older groups. In contrast, spatial accuracy as expressed by the path length increased only in the AD group. For the second study, a total of 37 children with uCP between 7 and 17 years were included. Children presented manual impairments between levels I and III (according to the Manual Ability Classification System). It could be shown that task duration increased and spatial accuracy decreased with increasing levels of impairment, especially in children with higher levels of impairment (level III). Furthermore it could be shown that a subgroup of children experienced an involuntary interference when moving their affected hand, limiting the use of their less affected hand. The third study utilised a multiple case study involving nine children diagnosed with uCP with neuroimaging and neurophysiological data. The children were found to have various neuropathological patterns resulting in different forms and severities of motor impairments. It could be shown that grey-matter lesions had the most severe impact on manual abilities. Conclusion In TDC, performance of bimanual hand movements was temporally related to peak developmental periods of the corpus callosum, emphasizing the importance of interhemispheric exchange of information for bimanual coordination. In children with uCP, bimanual performance was related to the level of impairment of the affected hand. In addition it was found however that some children show excessive bimanual interference when using their affected hand in a bimanual task which limits the functionality of the less affected hand, possibly related to i) ipsilateral corticomotor projection patterns from the less affected hemisphere to the affected hand or ii) lack of suppression of interhemispheric crosstalk. It could also be shown that the various neuropathologies can affect bimanual motor control differently. Detailed diagnosis of the neuropathology and motor impairment are thus essential for the planning of tailored therapy interventions

Reorganization of the Action Observation Network and Sensory-Motor System in Children with Unilateral Cerebral Palsy: An fMRI Study

Little is known about the action observation network (AON) in children with unilateral cerebral palsy (UCP). Using fMRI, we aimed to explore AON and sensory-motor network (SMN) in UCP children and compare them to typically developed (TD) children and analyse the relationship between AON (re-)organization and several neurophysiological and clinical measures. Twelve UCP children were assessed with clinical scales and transcranial magnetic stimulation (TMS). For the fMRI study, they underwent a paradigm based on observation of complex and simple object-manipulation tasks executed by dominant and nondominant hand. Moreover, UCP and TD children carried out a further fMRI session to explore SMN in both an active motor and passive sensory task. AON in the UCP group showed higher lateralization, negatively related to performances on clinical scales, and had greater activation of unaffected hemisphere as compared to the bilateral representation in the TD group. In addition, a good congruence was found between bilateral or contralateral activation of AON and activation of SMN and TMS data. These findings indicate that our paradigm might be useful in exploring AON and the response to therapy in UCP subjects

Wearable inertial sensors for human movement analysis

Introduction: The present review aims to provide an overview of the most common uses of wearable inertial sensors in the field of clinical human movement analysis.Areas covered: Six main areas of application are analysed: gait analysis, stabilometry, instrumented clinical tests, upper body mobility assessment, daily-life activity monitoring and tremor assessment. Each area is analyzed both from a methodological and applicative point of view. The focus on the methodological approaches is meant to provide an idea of the computational complexity behind a variable/parameter/index of interest so that the reader is aware of the reliability of the approach. The focus on the application is meant to provide a practical guide for advising clinicians on how inertial sensors can help them in their clinical practice.Expert commentary: Less expensive and more easy to use than other systems used in human movement analysis, wearable sensors have evolved to the point that they can be considered ready for being part of routine clinical routine

Kinetic relationships between ankle plantar flexor and hip flexor power during gait in mildly affected adults with spastic hemiplegic and diplegic cerebral palsy - A case series study based on a ballistic strength training rehabilitation program

Postponed access: the file will be accessible after 2021-05-15Background: In normal gait, the ankle plantar flexors provide most propulsive energy during push-off, with smaller contribution of hip flexors. However, the interplay between these two joints remains unclear in spastic cerebral palsy. The objective of this study was to evaluate the kinetic relationship between the ankle plantar flexor and hip flexor power in late stance of gait (A2/H3) in mildly affected adults with spastic cerebral palsy. By implementing a ballistic strength training program, it was hypothesized that these exercises would exaggerate ankle plantar flexor power so the need for hip flexor power compensation would decrease, and thereby result in an increased A2/H3 ratio. Method: Ten adults with spastic hemiplegic and diplegic cerebral palsy, Gross Motor Function Classification System I-II, was recruited to attend an eight week ballistic strength training program mainly prescribed to most paretic limb. Three-dimensional gait analysis with a force plate was used to investigate the impact on ankle and hip power generation in push-off before, during and after intervention. At least three gait trials at self-selected speed was analyzed for each limb to calculate peak ankle and hip flexor power in the sagittal plane and relationship between them (A2/H3 ratio). Results: 7 participants completed the study protocol. 6 out of these 7 participants increased A2/H3 ratio on the most paretic limb, while 5 increased on uninvolved limb. As expected, the change was more evident on the most paretic limb compared to the uninvolved limb. Conclusion: Findings from this study provide a better understanding of the interplay between power patterns in the ankle and hip joint in spastic cerebral palsy with a possible implication to clinical practice. However, the results cannot direct any casual relationships between change in A2/H3 ratio and ballistic strength training. Until evidence is found, we assume that ballistic strength training is feasible to alter A2/H3 ratio in adults with spastic cerebral palsy, yet further analytic investigation is needed.MAMD-HELSEFYST39

Electromechanical and robotic devices for gait and balance rehabilitation of children with neurological disability: a systematic review

In the last two decades, a growing interest has been focused on gait and balance robot-assisted rehabilitation in children with neurological disabilities. Robotic devices allow the implementation of intensive, task-specific training fostering functional recovery and neuroplasticity phenomena. However, limited attention has been paid to the protocols used in this research framework. This systematic review aims to provide an overview of the existing literature on robotic systems for the rehabilitation of gait and balance in children with neurological disabilities and their rehabilitation applications. The literature search was carried out independently and synchronously by three authors on the following databases: MEDLINE, Cochrane Library, PeDro, Institute of Electrical and Electronics Engineers, ScienceDirect, and Google Scholar. The data collected included three subsections referring to clinical, technical, and regulatory aspects. Thirty-one articles out of 81 found on the primary literature search were included in the systematic review. Most studies involved children with cerebral palsy. Only one-third of the studies were randomized controlled trials. Overall, 17 devices (nine end-effector systems and eight exoskeletons) were investigated, among which only 4 (24%) were bore the CE mark. Studies differ on rehabilitation protocols duration, intensity, and outcome measures. Future research should improve both rehabilitation protocols\u2019 and devices\u2019 descriptions