Roberta Shepherd

Task-Related Training Improves Performance of Seated Reaching Tasks After Stroke A Randomized Controlled Trial

BACKGROUND AND PURPOSE After stroke, the ability to balance in sitting is critical to independence. Although impairments in sitting balance are common, little is known about the effectiveness of rehabilitation strategies designed to improve it. The purpose of this randomized placebo-controlled study was to evaluate the effect of a 2-week task-related training program aimed at increasing distance reached and the contribution of the affected lower leg to support and balance. METHODS Twenty subjects at least 1 year after stroke were randomized into an experimental or control group. The experimental group participated in a standardized training program involving practice of reaching beyond arms length. The control group received sham training involving completion of cognitive-manipulative tasks within arms length. Performance of reaching in sitting was measured before and after training using electromyography, videotaping, and two force plates. Variables tested were movement time, distance reached, vertical ground reaction forces through the feet, and muscle activity. Subjects were also tested on sit-to-stand, walking, and cognitive tasks. Nineteen subjects completed the study. RESULTS After training, experimental subjects were able to reach faster and further, increase load through the affected foot, and increase activation of affected leg muscles compared with the control group (P < .01). The experimental group also improved in sit-to-stand. The control group did not improve in reaching or sit-to-stand. Neither group improved in walking. CONCLUSIONS This study provides strong evidence of the efficacy of task-related motor training in improving the ability to balance during seated reaching activities after stroke.

Functional strength training in cerebral palsy: a pilot study of a group circuit training class for children aged 4–8 years

Objective: To determine the effects of intensive task-specific strength training on lower limb strength and functional performance in children with cerebral palsy. Design: A nonrandomized ABA trial. Setting: Sydney school. Subjects: Eight children with cerebral palsy, aged 4–8 years, seven with diagnosis of spastic diplegia, one of spastic/ataxic quadriplegia. Intervention: Four weeks of after-school exercise class, conducted for one hour twice weekly as group circuit training. Each work station was set up for intensive repetitive practice of an exercise. Children moved between stations, practising functionally based exercises including treadmill walking, step-ups, sit-to-stands and leg presses. Main outcome measures: Baseline test obtained two weeks before training, a pre-test immediately before and a post-test following training, with follow-up eight weeks later. Lower limb muscle strength was tested by dynamometry and Lateral Step-up Test; functional performance by Motor Assessment Scale (Sit-to-Stand), minimum chair height test, timed 10-m test, and 2-minute walk test. Results: Isometric strength improved pre- to post-training by a mean of 47% (SD 16) and functional strength, on Lateral Step-up Test, by 150% (SD 15). Children walked faster over 10 m, with longer strides, improvements of 22% and 38% respectively. Sit-to-stand performance had improved, with a reduction of seat height from 27 (SD 15) to 17 (SD 11) cm. Eight weeks following cessation of training all improvements had been maintained. Conclusions: A short programme of task-specific strengthening exercise and training for children with cerebral palsy, run as a group circuit class, resulted in improved strength and functional performance that was maintained over time.

Physiotherapy in stroke rehabilitation: Bases for Australian physiotherapists' choice of treatment

In a survey of Swedish physiotherapists working in neurology, the treatment of individuals following stroke was found to be essentially praxis-oriented (Nilsson and Nordholm, 1992). The present study replicated the Swedish survey in order to compare the responses of Australian physiotherapists with those of their Swedish colleagues. The questionnaire, designed to establish choice of treatment, factors influencing and theoretical bases for the choice of treatment, and attitudes towards new methods, was sent to the 331 members of the Neurology Special Interest Group of the Australian Physiotherapy Association. The response rate was 72%. Respondents viewed experience working with patients as the most important factor influencing current choice of treatment. As in the Swedish study, although the respondents were able to describe their treatment choices, they had difficulty explaining the underlying theoretical basis for their choice. Difficulty providing a scientific and rational explanation for intervention ...

Sitting balance I: trunk–arm coordination and the contribution of the lower limbs during self-paced reaching in sitting

The effects of reach distance and type of task on the functional relationship between the trunk, upper limb segments and the lower limbs during self-paced reaching in sitting were examined. Two-dimensional kinematic, kinetic and electromyography (EMG) data were collected as six healthy subjects reached forward under three distance (60, 100, 140% arms length) and two task (reaching to press a switch, reaching to grasp a glass) conditions. The results demonstrate that type of task affected primarily the temporal aspects of coordination, with the grasp task taking consistently longer than the press task. In contrast, reach distance affected both the spatio-temporal aspects of coordination between the trunk and arm segments and the active contribution of the lower limbs. As reach distance increased, the magnitude of trunk and upper-arm segmental motion increased, whereas forearm segmental motion decreased. However, at each reach distance the path of the hand was relatively straight and there was remarkable consistency in the relationship between trunk and arm segments both within and between subjects suggesting that despite the presence of redundant degrees of freedom, the individual uses a parsimonious coordinative pattern. The vertical ground reaction force (GRF) and EMG data demonstrated that the lower limbs actively contributed to support the body mass when the object was located at 140% arms length.

Sit-to-stand: Functional relationship between upper body and lower limb segments

Abstract The behaviour of linked body segments during sit-to-stand was the subject of this study which investigated the relationship between the trunk and lower limb segments by varying the initial position of the trunk. Six subjects were videotaped as they stood up with feet on a forceplate from three initial positions: erect sitting, trunk flexed forward 30 deg, and 60 deg. When subjects actively flexed the trunk in the pre-extension phase, the order in which lower limb joints extended was knee, hip, ankle. However, when there was no active flexion, the order of onsets changed, the hip extending first followed by the knee and ankle. An extensor support moment (SM), a summation of extensor moments at hip, knee and ankle, occurred throughout the extension phase. The mean peak value of SM remained invariant in all three conditions despite variability in individual hip, knee and ankle moments. When active trunk flexion was absent, the duration of the extension phase was longer and a high value of SM was sustained for a longer proportion of the phase, indicating that more muscle force was required. The findings support the view that biomechanical characteristics emerge naturally from a functional coupling between segments, according to the demands of the action.

Task-specific training of reaching and manipulation

Summary Full upper limb function following brain damage is frequently not achieved despite therapeutic intervention. A new approach to treatment is described in which strategies based on research in the movement sciences are employed to aid the recovery or re learning of functional upper limb movements. The chapter begins by describing some aspects of the dyscontrol characteristics resulting from central nervous system lesions. This is followed by an account of commonly observed adaptive motor behaviors resulting from the effects of the lesion. Finally, examples of task-specific clinical intervention derived from research in relevant movement sciences are given.

Early, Accurate Diagnosis and Early Intervention in Cerebral Palsy: Advances in Diagnosis and Treatment

Importance Cerebral palsy describes the most common physical disability in childhood and occurs in 1 in 500 live births. Historically, the diagnosis has been made between age 12 and 24 months but now can be made before 6 months’ corrected age. Objectives To systematically review best available evidence for early, accurate diagnosis of cerebral palsy and to summarize best available evidence about cerebral palsy–specific early intervention that should follow early diagnosis to optimize neuroplasticity and function. Evidence Review This study systematically searched the literature about early diagnosis of cerebral palsy in MEDLINE (1956-2016), EMBASE (1980-2016), CINAHL (1983-2016), and the Cochrane Library (1988-2016) and by hand searching. Search terms included cerebral palsy, diagnosis, detection, prediction, identification, predictive validity, accuracy, sensitivity, and specificity. The study included systematic reviews with or without meta-analyses, criteria of diagnostic accuracy, and evidence-based clinical guidelines. Findings are reported according to the PRISMA statement, and recommendations are reported according to the Appraisal of Guidelines, Research and Evaluation (AGREE) II instrument. Findings Six systematic reviews and 2 evidence-based clinical guidelines met inclusion criteria. All included articles had high methodological Quality Assessment of Diagnostic Accuracy Studies (QUADAS) ratings. In infants, clinical signs and symptoms of cerebral palsy emerge and evolve before age 2 years; therefore, a combination of standardized tools should be used to predict risk in conjunction with clinical history. Before 5 months’ corrected age, the most predictive tools for detecting risk are term-age magnetic resonance imaging (86%-89% sensitivity), the Prechtl Qualitative Assessment of General Movements (98% sensitivity), and the Hammersmith Infant Neurological Examination (90% sensitivity). After 5 months’ corrected age, the most predictive tools for detecting risk are magnetic resonance imaging (86%-89% sensitivity) (where safe and feasible), the Hammersmith Infant Neurological Examination (90% sensitivity), and the Developmental Assessment of Young Children (83% C index). Topography and severity of cerebral palsy are more difficult to ascertain in infancy, and magnetic resonance imaging and the Hammersmith Infant Neurological Examination may be helpful in assisting clinical decisions. In high-income countries, 2 in 3 individuals with cerebral palsy will walk, 3 in 4 will talk, and 1 in 2 will have normal intelligence. Conclusions and Relevance Early diagnosis begins with a medical history and involves using neuroimaging, standardized neurological, and standardized motor assessments that indicate congruent abnormal findings indicative of cerebral palsy. Clinicians should understand the importance of prompt referral to diagnostic-specific early intervention to optimize infant motor and cognitive plasticity, prevent secondary complications, and enhance caregiver well-being.

Evaluation of Spasticity in Children With Cerebral Palsy Using Ashworth and Tardieu Scales Compared With Laboratory Measures

The content validity of the Tardieu Scale and the Ashworth Scale was assessed in 27 independently ambulant children with cerebral palsy (gender: 17 males, 10 females; age: 5—9 years; Gross Motor Function Classification: level I and II). Ashworth and Tardieu Scale scores and laboratory measures of spasticity and contracture were collected from the plantarflexor muscles by 2 examiners who were blinded to the results. The Tardieu Scale was more effective than the Ashworth Scale in identifying the presence of spasticity (88.9%, kappa = 0.73; P = .000), the presence of contracture (77.8%, kappa = 0.503; P = .008) and the severity of contracture (r = 0.49; P = .009). However, neither scale was able to identify the severity of spasticity. The Tardieu Scale can provide useful information in children with cerebral palsy because it differentiates spasticity from contracture. However, a more comprehensive clinical method of testing neural and non-neural contributions to impairments and function is needed.

No change in calf muscle passive stiffness after botulinum toxin injection in children with cerebral palsy

Aim  Stiffness and shortening of the calf muscle due to neural or mechanical factors can profoundly affect motor function. The aim of this study was to investigate non‐neurally mediated calf‐muscle tightness in children with cerebral palsy (CP) before and after botulinum toxin type A (BoNT‐A) injection.

Sitting balance II: reach direction and thigh support affect the contribution of the lower limbs when reaching beyond arm’s length in sitting

The effects of reach direction and extent of thigh support on the contribution of the lower limbs during seated reaching were examined. Twelve healthy subjects aged 59-79 years performed self-paced reaching forwards and diagonally to both sides and under three thigh support conditions. Vertical ground reaction forces (GRF) and leg muscle activity were monitored bilaterally. Reach direction affected both the magnitude of peak vertical GRF and the relative distribution of vertical GRF through the feet, demonstrating that the lower limbs work cooperatively to control the motion of the body mass. Extent of thigh support also affected the magnitude of peak vertical GRF through the feet. In addition, the EMG data confirmed the active contribution of the lower limbs when reaching beyond arms length, with muscles in both lower limbs activated in all trials.