Are older people putting themselves at risk when using their walking frames?
Study Goal
The researchers aimed to investigate adherence to clinical guidance on walking frame use, quantify user stability, and explore user and healthcare professional perspectives on walking aids and Smart Walkers.
Results Summary
Incorrect use of walking frames was observed in 16% of single support and 29% of dual support periods, linked to environmental constraints and frame design, and associated with reduced stability. Participants and healthcare professionals viewed Smart Walker technology positively, but current guidance needs improvement to enhance stability and safety.
Population
Older adults using walking frames in their home environment.
Effective Dosage
Not applicable
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
walking frame use | neutral | incorrect use | older people | 16% of single support periods | was observed for | #1 |
walking frame use | neutral | incorrect use | older people | 29% of dual support periods | was observed for | #2 |
incorrect use of walking frames | decrease | reduced stability | users | - | was associated with | #3 |
self-selected strategies for walking frame use | decrease | stability | the user | - | reduce | #4 |
BACKGROUND: Walking aids are issued to older adults to prevent falls, however, paradoxically their use has been identified as a risk factor for falling. To prevent falls, walking aids must be used in a stable manner, but it remains unknown to what extent associated clinical guidance is adhered to at home, and whether following guidance facilitates a stable walking pattern. It was the aim of this study to investigate adherence to guidance on walking frame use, and to quantify user stability whilst using walking frames. Additionally, we explored the views of users and healthcare professionals on walking aid use, and regarding the instrumented walking frames ('Smart Walkers') utilized in this study. METHODS: This observational study used Smart Walkers and pressure-sensing insoles to investigate usage patterns of 17 older people in their home environment; corresponding video captured contextual information. Additionally, stability when following, or not, clinical guidance was quantified for a subset of users during walking in an Activities of Daily Living Flat and in a gait laboratory. Two focus groups (users, healthcare professionals) shared their experiences with walking aids and provided feedback on the Smart Walkers. RESULTS: Incorrect use was observed for 16% of single support periods and for 29% of dual support periods, and was associated with environmental constraints and a specific frame design feature. Incorrect use was associated with reduced stability. Participants and healthcare professionals perceived the Smart Walker technology positively. CONCLUSIONS: Clinical guidance cannot easily be adhered to and self-selected strategies reduce stability, hence are placing the user at risk. Current guidance needs to be improved to address environmental constraints whilst facilitating stable walking. The research is highly relevant considering the rising number of walking aid users, their increased falls-risk, and the costs of falls.