Spastic equinus deformity in children with Cerebral Palsy – Treatment effects in terms of muscular morphology and function

Die meisten Kinder mit infantiler Zerebralparese (IZP) entwickeln eine spastische Parese, was zu Schwäche, erhöhtem Muskel-Dehnungswiderstand und Kontrakturen führt. Der Spitzfuß ist eines ihrer häufigsten Defizite. Das übergeordnete Ziel dieser Arbeit war es, nicht-invasive Behandlungsstrategien für diese Pathologie näher zu untersuchen. In der ersten Studie wurden die Effekte einer Unterschenkel-Lagerungsorthese auf die Muskelmorphometrie des Gastrocnemius unter zu Hilfenahme von Ultraschall und 3D Bewegungsanalyse untersucht. Lagerungsorthesen konnten das Gangbild verbessern, führten gleichzeitig aber zu Atrophie. Um eine alternative Therapieform zu finden, wurde in der zweiten Studie die kontraktile Aktivität des Gastrocnemius mittels Ultraschall, Bewegungsanalyse und EMG während des Gehens, Vorwärts-Bergauf, bzw. Rückwärts-Bergab, sowie in der Ebene untersucht. Das Bergaufgehen steigerte die konzentrische Exkursion der Faszikel, wohingegen das Rückwärts-Bergabgehen zu vermehrter Exzentrik führte. Da sich exzentrisches Training positiv auf Faszikellängenwachstum auswirken kann, wurde in der dritten Studie das Rückwärts-Bergabgehen mit statischem Dehnen als traditionelle Therapieform verglichen. Ultraschall, Bewegungsanalyse und handgesteuerte Dynamometrie wurden verwendet, um die Plantarflexorenkraft, die passive Sprunggelenksbeweglichkeit, die Gastrocnemius Morphometrie sowie die Steifigkeit und Dehnbarkeit auf Muskel-Sehnen und Gelenkebene zu untersuchen. Dehnen zeigte keinerlei Benefits gegenüber dem Laufbandtraining. Rückwärts-Bergabgehen war dagegen ein effektives Gangtraining und setzt vermutlich neuronale und koordinative Reize. In der Zusammenschau scheinen positive Änderungen im Gangbild bei IZP Kindern sowohl durch Unterschenkelorthesen, als auch durch Rückwärts-Bergabgehen erreichbar zu sein. Beides führte aber nicht zu Muskelwachstum. Funktionelle Verbesserungen scheinen daher auch stark von neuronal, koordinativen Aspekten abhängig zu sein.Most children with Cerebral Palsy (CP) develop spastic paresis, which leads to muscle weakness, increased stretch-resistance and joint contractures. The gastrocnemius muscle is frequently targeted to alleviate a common deficiency known as equinus. The overall objective of this thesis was to investigate several non-invasive treatment strategies for this pathology. The first study investigated the effects of ankle foot orthotics on spastic gastrocnemius morphometrics as well as on gait by using ultrasound and motion capturing. We concluded that braces improved walking function but also lead to atrophy. During the second study, we searched for a readily available, substituting stimulus and compared the contractile activity of the gastrocnemius on treadmills, namely during flat-forward, forward-uphill and backward-downhill gait using ultrasound, motion capturing and EMG. Uphill gait promoted concentric fascicle action, while backward-downhill gait increased eccentric fascicle action. Since eccentric training had been previously shown to increase fascicle length in controls, during the third study, we compared backward-downhill walking versus static, manual stretching. Ultrasound, motion analysis and handheld dynamometry were used to test plantarflexor strength, passive ankle joint flexibility, as well as gastrocnemius morphometrics, stiffness and strain on muscle-tendon and joint level. Backward-downhill walking led to larger single stance dorsiflexion and faster achievable walking velocities while stretching aggravated knee flexion in swing. Strength, joint flexibility, as well as stiffness on muscle-tendon and joint level were not altered. Backward-downhill walking can be an effective gait treatment, probably improving coordination. Nevertheless, more intense training might be necessary to alter muscle-tendon properties. In sum, backward-downhill walking and bracing increased function without promoting or even by harming muscle growth

Impact of Altered Gastrocnemius Morphometrics and Fascicle Behavior on Walking Patterns in Children With Spastic Cerebral Palsy

Spastic cerebral palsy (SCP) affects neural control, deteriorates muscle morphometrics, and may progressively impair functional walking ability. Upon passive testing, gastrocnemius medialis (GM) muscle bellies or fascicles are typically shorter, thinner, and less extensible. Relationships between muscle and gait parameters might help to understand gait pathology and pathogenesis of spastic muscles. The current aim was to link resting and dynamic GM morphometrics and contractile fascicle behavior (both excursion and velocity) during walking to determinants of gait. We explored the associations between gait variables and ultrasonography of the GM muscle belly captured during rest and during gait in children with SCP [n = 15, gross motor function classification system (GMFCS) levels I and II, age: 7–16 years] and age-matched healthy peers (n = 17). The SCP children’s plantar flexors were 27% weaker. They walked 12% slower with more knee flexion produced 42% less peak ankle push-off power (all p < 0.05) and 7/15 landed on their forefoot. During the stance phase, fascicles in SCP on average operated on 9% shorter length (normalized to rest length) and displayed less and slower fascicle shortening (37 and 30.6%, respectively) during push-off (all p ≤ 0.024). Correlation analyses in SCP patients revealed that (1) longer-resting fascicles and thicker muscle bellies are positively correlated with walking speed and negatively to knee flexion (r = 0.60–0.69, p < 0.0127) but not to better ankle kinematics; (2) reduced muscle strength was associated with the extent of eccentric fascicle excursion (r = −0.57, p = 0.015); and (3) a shorter operating length of the fascicles was correlated with push-off power (r = −0.58, p = 0.013). Only in controls, a correlation (r = 0.61, p = 0.0054) between slower fascicle shortening velocity and push-off power was found. Our results indicate that a thicker gastrocnemius muscle belly and longer gastrocnemius muscle fascicles may be reasonable morphometric properties that should be targeted in interventions for individuals with SCP, since GM muscle atrophy may be related to decreases in walking speed and undesired knee flexion during gait. Furthermore, children with SCP and weaker gastrocnemius muscle may be more susceptible to chronic eccentric muscle overloading. The relationship between shorter operating length of the fascicles and push-off power may further support the idea of a compensation mechanism for the longer sarcomeres found in children with SCP. Nevertheless, more studies are needed to support our explorative findings.Peer Reviewe

Robotic arm training in neurorehabilitation enhanced by augmented reality – a usability and feasibility study

Abstract Background Robotic therapy and serious gaming support motor learning in neurorehabilitation. Traditional monitor-based gaming outputs cannot adequately represent the third dimension, whereas virtual reality headsets lack the connection to the real world. The use of Augmented Reality (AR) techniques could potentially overcome these issues. The objective of this study was thus to evaluate the usability, feasibility and functionality of a novel arm rehabilitation device for neurorehabilitation (RobExReha system) based on a robotic arm (LBR iiwa, KUKA AG) and serious gaming using the AR headset HoloLens (Microsoft Inc.). Methods The RobExReha system was tested with eleven adult inpatients (mean age: 64.4 ± 11.2 years; diagnoses: 8 stroke, 2 spinal cord injury, 1 Guillain-Barré-Syndrome) who had paretic impairments in their upper limb. Five therapists administered and evaluated the system. Data was compared with a Reference Group (eleven inpatients; mean age: 64.3 ± 9.1 years; diagnoses: 10 stroke, 1 spinal cord injury) who trained with commercially available robotic therapy devices (ArmeoPower or ArmeoSpring, Hocoma AG). Patients used standardized questionnaires for evaluating usability and comfort (Quebec User Evaluation of Satisfaction with assistive technology [QUEST]), workload (Raw Task Load Index [RTLX]) and a questionnaire for rating visual perception of the gaming scenario. Therapists used the QUEST, the System Usability Scale and the short version of the User Experience Questionnaire. Results Therapy with the RobExReha system was safe and feasible for patients and therapists, with no serious adverse events being reported. Patients and therapists were generally satisfied with usability. The patients’ usability ratings were significantly higher in the Reference Group for two items of the QUEST: reliability and ease of use. Workload (RTLX) ratings did not differ significantly between the groups. Nearly all patients using the RobExReha system perceived the gaming scenario in AR as functioning adequately despite eight patients having impairments in stereoscopic vision. The therapists valued the system’s approach as interesting and inventive. Conclusions We demonstrated the clinical feasibility of combining a novel robotic upper limb robot with an AR-serious game in a neurorehabilitation setting. To ensure high usability in future applications, a reliable and easy-to-use system that can be used for task-oriented training should be implemented. Trial registration Ethical approval was obtained and the trial was registered at the German Clinical Trials Register (DRKS00022136)

Safety and Feasibility of Functional Repetitive Neuromuscular Magnetic Stimulation of the Gluteal Muscles in Children and Adolescents with Bilateral Spastic Cerebral Palsy

Background: For children and adolescents affected by bilateral spastic cerebral palsy (BSCP), non-invasive neurostimulation with repetitive neuromuscular magnetic stimulation (rNMS) combined with physical exercises, conceptualized as functional rNMS (frNMS), represents a novel treatment approach. Methods: In this open-label study, six children and two adolescents (10.4 ± 2.5 years) with BSCP received a frNMS intervention targeting the gluteal muscles (12 sessions within 3 weeks). Results: In 77.1% of the sessions, no side effects were reported. In 16.7%, 6.3% and 5.2% of the sessions, a tingling sensation, feelings of pressure/warmth/cold or very shortly lasting pain appeared, respectively. frNMS was highly accepted by families (100% adherence) and highly feasible (97.9% of treatment per training protocol). A total of 100% of participants would repeat frNMS, and 87.5% would recommend it. The Canadian Occupational Performance Measure demonstrated clinically important benefits for performance in 28% and satisfaction in 42% of mobility-related tasks evaluated by caregivers for at least one follow-up time point (6 days and 6 weeks post intervention). Two patients accomplished goal attainment for one mobility-related goal each. One patient experienced improvement for both predefined goals, and another participant experienced improvement in one and outreach of the other goal as assessed with the goal attainment scale. Conclusions: frNMS is a safe and well-accepted neuromodulatory approach that could improve the quality of life, especially in regard to activity and participation, of children and adolescents with BSCP. Larger-scaled studies are needed to further explore the effects of frNMS in this setting

Instrumented Balance Error Scoring System in Children and Adolescents—A Cross Sectional Study

Background: The Balance Error Scoring System (BESS) is a commonly used method for clinically evaluating balance after traumatic brain injury. The utilization of force plates, characterized by their cost-effectiveness and portability, facilitates the integration of instrumentation into the BESS protocol. Despite the enhanced precision associated with instrumented measures, there remains a need to determine the clinical significance and feasibility of such measures within pediatric cohorts. Objective: To report a comprehensive set of posturographic measures obtained during instrumented BESS and to examine the concurrent validity, reliability, and feasibility of instrumented BESS in the pediatric point of care setting. Methods: Thirty-seven participants (18 female; aged 13.32 ± 3.31 years) performed BESS while standing on a force plate to simultaneously compute stabilometric measures (instrumented BESS). Ellipse area (EA), path length (PL), and sway velocity (VM) were obtained for each of the six BESS positions and compared with the respective BESS scores. Additionally, the effects of sex and age were explored. A second BESS repetition was performed to evaluate the test–retest reliability. Feedback questionnaires were handed out after testing to evaluate the feasibility of the proposed protocol. Results: The BESS total score was 20.81 ± 6.28. While there was no statistically significant age or sex dependency in the BESS results, instrumented posturography demonstrated an age dependency in EA, VM, and PL. The one-leg stance on a soft surface resulted in the highest BESS score (8.38 ± 1.76), EA (218.78 cm2 ± 168.65), PL (4386.91 mm ± 1859.00), and VM (21.93 mm/s ± 9.29). The Spearman’s coefficient displayed moderate to high correlations between the EA (rs = 0.429–0.770, p = 0.001–0.009), PL (rs = 0.451–0.809, p = 0.001–0.006), and VM (rs = 0.451–0.809, p = 0.001–0.006) when compared with the BESS scores for all testing positions, except for the one-leg stance on a soft surface. The BESS total score significantly correlated during the first and second repetition (rs = 0.734, p ≤ 0.001), as did errors during the different testing positions (rs = 0.489–0.799, p ≤ 0.001–0.002), except during the two-legged stance on a soft surface. VM and PL correlated significantly in all testing positions (rs = 0.465–0.675, p ≤ 0.001–0.004; (rs = 0.465–0.675, p ≤ 0.001–0.004), as did EA for all positions except for the two-legged stance on a soft surface (rs = 0.392–0.581, p ≤ 0.001–0.016). A total of 92% of participants stated that the instructions for the testing procedure were very well-explained, while 78% of participants enjoyed the balance testing, and 61% of participants could not decide whether the testing was easy or hard to perform. Conclusions: Instrumented posturography may complement clinical assessment in investigating postural control in children and adolescents. While the BESS score only allows for the consideration of a total score approximating postural control, instrumented posturography offers several parameters representing the responsiveness and magnitude of body sway as well as a more differentiated analysis of movement trajectory. Concise instrumented posturography protocols should be developed to augment neuropediatric assessments in cases where a deficiency in postural control is suspected, potentially stemming from disruptions in the processing of visual, proprioceptive, and/or vestibular information