The primary objective is to observe the impact of in-patient rehabilitation on physical activity in daily life using miniature, wearable sensors, fixed on the shoes. These sensors record data about various aspects of walking. The information on the therapy effect on daily life can complement the clinical information and the patients' subjective report on therapy induced improvements. The secondary objective is the association of changes in physical activity, self-rated walking capacity, self-rated fatigue and self-rated health-related quality of life, wich will be analysed for disease severity of the participants.
Gait disorders are common in patients with multiple sclerosis (PwMS). Multidisciplinary in-patient rehabilitation conducted by specialized doctors, nurses and therapists can improve the ability to walk by tackling the problem with various approaches: by increasing strength in leg muscles, by improving balance, by increasing cardio- pulmonary fitness, by fitting walking aids, by reducing fatigue and cognitive deficits, by working out strategies to compensate for impairments, and by optimising medical treatment. The investigator's patients, who spend a lot of time (usually 2- 4 weeks) and effort for in-patient rehabilitation in Valens tell us, that this intensive therapy is usually effective and that their walking ability improves to a degree that is relevant in daily life. The scientific evidence for the effectiveness of in- patient rehabilitation is usually based on either clinical assessments of function (e.g. the 6 minute walking test) or on reports from PwMS, by using questionnaires e.g. about mobility or quality of life in daily life. Although clinical assessments provide important information about improvements of the functional capacity, they do not provide information about the impact of therapy on daily life. Patient reports, on the other hand, provide important information about the perceived impact in daily life, but the information is not objective. Objective information about the impact of rehabilitation on daily life is usually not available. The primary objective therefore is to observe the impact of in-patient rehabilitation on physical activity in daily life using miniature, wearable sensors, fixed on the shoes. These sensors record data about various aspects of walking. The information on the therapy effect on daily life can complement the clinical information and the patients' subjective report on therapy induced improvements. The secondary objective is the association of changes in physical activity, self-rated walking capacity, self-rated fatigue and self-rated health-related quality of life, wich will be analysed for disease severity of the participants.
Study Type
OBSERVATIONAL
Enrollment
30
The primary outcomes are measured by the Physilog 5 (physical activity) at four different periods (T1-T4). Physilog 5 is worn for 4 weeks in total. The secondary outcomes are fatigue, measured by FSMC (fatigue scale for motor and cognitive functions questionnaire), self-rated health-related quality of life, measured by the EQ-5D (health-questionnaire) and self-rated walking capacity, measured by the MSWS-12 (Twelve Item MS Walking Scale).
Klinik Valens
Valens, St.Gallen, Switzerland
RECRUITINGChanges in physical activity: Locomotion
The primary objective is to observe the impact of in-patient rehabilitation on physical activity in daily life in patients with MS (EDSS 2.0-6.5) using miniature, wearable sensors, fixed on the shoes. These sensors record data about various aspects of walking. The information on the therapy effect on daily life can complement the clinical information and the patients' subjective report on therapy induced improvements. The following parameter represents the walking in daily life: \- Locomotion: Percentage of locomotion (walking) per day The maximum value is 100%, the minumum value is 0%.
Time frame: Physical activity will first be assessed 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).
Changes in physical activity: Non-locomotion
The primary objective is to observe the impact of in-patient rehabilitation on physical activity in daily life in patients with MS (EDSS 2.0-6.5) using miniature, wearable sensors, fixed on the shoes. These sensors record data about various aspects of walking. The information on the therapy effect on daily life can complement the clinical information and the patients' subjective report on therapy induced improvements. The following parameter represents the walking in daily life: \- Non-locomotion: Percentage of non-locomotion (sitting, standing, lying) per day The maximum value is 100%, the minumum value is 0%.
Time frame: Physical activity will first be assessed 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).
Changes in physical activity: Level walking
The primary objective is to observe the impact of in-patient rehabilitation on physical activity in daily life in patients with MS (EDSS 2.0-6.5) using miniature, wearable sensors, fixed on the shoes. These sensors record data about various aspects of walking. The information on the therapy effect on daily life can complement the clinical information and the patients' subjective report on therapy induced improvements. The following parameter represents the walking in daily life: \- Level walking: Percentage of level walking per day The maximum value is 100%, the minumum value is 0%.
Time frame: Physical activity will first be assessed 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).
Changes in physical activity: Up walking
The primary objective is to observe the impact of in-patient rehabilitation on physical activity in daily life in patients with MS (EDSS 2.0-6.5) using miniature, wearable sensors, fixed on the shoes. These sensors record data about various aspects of walking. The information on the therapy effect on daily life can complement the clinical information and the patients' subjective report on therapy induced improvements. The following parameter represents the walking in daily life: \- Up walking: Percentage of up walking per day The maximum value is 100%, the minumum value is 0%.
Time frame: Physical activity will first be assessed 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).
Changes in physical activity: Down walking
The primary objective is to observe the impact of in-patient rehabilitation on physical activity in daily life in patients with MS (EDSS 2.0-6.5) using miniature, wearable sensors, fixed on the shoes. These sensors record data about various aspects of walking. The information on the therapy effect on daily life can complement the clinical information and the patients' subjective report on therapy induced improvements. The following parameter represents the walking in daily life: \- Down walking: Percentage of down walking per day The maximum value is 100%, the minumum value is 0%.
Time frame: Physical activity will first be assessed 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).
Changes in physical activity: Maximum steps
The primary objective is to observe the impact of in-patient rehabilitation on physical activity in daily life in patients with MS (EDSS 2.0-6.5) using miniature, wearable sensors, fixed on the shoes. These sensors record data about various aspects of walking. The information on the therapy effect on daily life can complement the clinical information and the patients' subjective report on therapy induced improvements. The following parameter represents the walking in daily life: \- Maximum steps: Maximal number of continuous steps in one walking bout (a walking bout is defined as walking more than two continuous steps). The maximum value is open, the minimum value is zero.
Time frame: Physical activity will first be assessed 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).
Changes in physical activity: Steps per hour
The primary objective is to observe the impact of in-patient rehabilitation on physical activity in daily life in patients with MS (EDSS 2.0-6.5) using miniature, wearable sensors, fixed on the shoes. These sensors record data about various aspects of walking. The information on the therapy effect on daily life can complement the clinical information and the patients' subjective report on therapy induced improvements. The following parameter represents the walking in daily life: \- Steps per hour: Number of steps during all recorded walking bouts (the values are normalised per worn hours). The maximum value is open, the minimum value is zero.
Time frame: Physical activity will first be assessed 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).
Changes in self-rated fatigue
Fatigue will be measured by the Fatigue Scale for Motor and Cognitive Functions (FSMC). The FSMC is a 20-points-questionnaire with ten questions about cognitive fatigue and ten questions about motor fatigue. The questions are rated on a 5-point Likert-scale from 1 (does not apply at all) to 5 (applies completely). The total score ranges from a minimum of 20 points to a maximum of 100 points, sub-scores for cognitive and motor fatigue range from a minimum of 10 points to a maximum of 50 points. Higher scores indicate a higher perception of fatigue. The following comparisons are executed: * Comparison between T1 and T2 * Comparison between T2 and T3 * Comparison between T2 and T4
Time frame: Fatigue will first be measured 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).
Changes in self-rated health-related quality of life: EQ-5D
Self-rated health will be measured by the questionnaire "health- related quality of life" (EQ-5D). The EQ-5D is a fife-points questionnaire about the topics "mobility", "self-care", "usual-activities", "pain/discomfort" and "anxiety/depression". The questions are rated with the following possibilities: "no problems", "some problems" and "extreme problems". On the basis of standardized calculations a index value is generated. The value ranges form zero to one. Higher values indicate a higher health-related quality of life. The following comparisons are executed: * Comparison between T1 and T2 * Comparison between T2 and T3 * Comparison between T2 and T4
Time frame: Self-rated health-related quality of life will first be measured 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).
Changes in self-rated walking capacity
Self-rated walking capacity will be measured by the 12-Item MS Walking Scale (MSWS-12). The MSWS-12 is a twelve-points questionnaire to represent the impact of MS on walking capacity. The questions are rated on a five-point Likert-scale from 1 (not at all) to 5 (extremely). The total score ranges from a minimum of 12 points to a maximum of 60 points. Higher scores indicate a higher impact of MS on walking capacity. The following comparisons are executed: * Comparison between T1 and T2 * Comparison between T2 and T3 * Comparison between T2 and T4
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Time frame: Self-rated waking capacity will first be measured 4-6 weeks before rehabilitation (T1) in Valens, the week right before rehabilitation (T2), the week right after rehabilitation (T3) and 2 months after rehabilitation (T4).