High-intensity Training in an Enriched Environment in Late Phase After Stroke

Overview

We designed an explorative clinical study to assess the effectiveness of an enriched intense and task-oriented therapy program in enhancing motor recovery in patients with moderate to moderately severe hemiplegia after stroke. This enriched comprehensive task-specific therapy (ETT) program combines intensive and task-specific therapy with the sensory-motor, social, and cognitive stimulation inherent to environmental enrichment. We also investigated whether ETT improves gait, balance, upper and lower limb function, and confidence in task performance, health-related quality of life (HRQoL) and reduces fatigue and depression.

Background The brain has a limited ability for repair. However, in recent years it became evident that a remarkable, yet restricted ability for regeneration of neuronal connections exists, with positive implications for the rehabilitation of individuals with stroke. Several studies have shown that stroke-lesioned animals, which are exposed to a so called enriched environment (large cages, group housing of animals, equipped with toys and with possibilities for physical activity and social interactions) show signs of tissue regeneration/plasticity in the brain. Research has shown that rats exposed to this enriched environment are recovering significantly faster from stroke than rats in standard cages, despite the fact that the total tissue loss between the rats did not differ. Recovery and improvement of motor functions and skills after stroke depend on spontaneous repair processes but also on the reorganization of neural mechanisms by stimuli and demands that are placed on the motor control system. In spite of numerous research studies showing that functional recovery after stroke is possible even many years after the stroke onset, it is unusual for stroke victims to be offered any kind of rehabilitation during later stages. The combination of modalities in multimodal interventions is thus expected to have a synergistic effect on neuroplasticity in rehabilitation after stroke in humans. In a recent clinical trial, multimodal interventions based on rhythm and music or therapeutic horseback riding improved recovery in the late phase after stroke Nevertheless, novel combinational treatment approaches are needed to promote neuroplasticity and motor recovery after stroke. A priority is to translate promising basic research to clinical settings and to evaluate enriched combinational therapy programs that appear to be more effective than single interventions A. What is the impact of high intensity task specific goal-directed training combined with environmental enrichment for individuals in a late phase of stroke? B. What are the subjects' experiences of the rehabilitation program? C. What are the biomarkers of successful stroke recovery? D. How does the intervention effect the subjects' walking ability on a detailed level? The study is a within-subject, repeated-measures design with pretest-posttest study, to assess outcomes after ETT. The intervention was preceded by a baseline period of usual care (UC) for 3 weeks, which also served as a control. The trial enrolled Swedish or Norwegian stroke survivors who had applied to a Swedish rehabilitation agency that provides rehabilitation services in Spain. The physical evaluation was performed in Sweden prior to and after the intervention and 6 months after completion of the intervention / control period. In addition, a three-month follow-up in form of questionnaires was performed. The outcome measures were: Modified Motor Assessment Scale according to Uppsala University Hospital (M-MAS UAS) (measuring motor function), measures of walking ability, speed and endurance, dynamic and static balance, fine motor speed and dexterity in the upper limb, motor speed and gross manual dexterity, hand strength, satisfaction with life as a whole, perceived confidence in task performance, health-related quality of life and degree of depression. Focus group interviews and individual interviews will be conducted with a subgroup of the participants (non aphasic participants) and the statements will be analyzed qualitative using content analyses as the method. Blood samples will be taken for the analysis of biomarkers, growth factors and inflammatory markers. Advanced analyses of gait patterns and components will be performed in a motor laboratory, including a subgroup of the participants. In rehabilitation medicine, the general belief has been that treatment of individuals in the late phase of stroke has no functional impact. The present research program will test against this hypothesis into a clinical trial for patients at more than 6 months after stroke. The biochemical analysis of blood samples and additional preclinical studies will directly to the knowledge about possibilities to enhance brain plasticity also in later phases of stroke. The research will contribute to strengthening the evidence for a promising rehabilitation approach combining elements of focused high-intensity training with environmental enrichment for which there are strong empirical support.