05 Shoe Insole Intervention to Reduce Falls and Injuries

05 Shoe Insole Intervention to Reduce Falls and Injuries

Abstract Despite a number of strategies to minimise falls risks, older adults tend to avoid voluntary and continuous engagement into interventions without cost effectiveness and simplicity. Shoe-insole modification may be a practical intervention if it alters foot geometry inside a shoe and improves...

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Veröffentlicht in:Age and ageing 2019-12, Vol.48 (Supplement_4), p.iv1-iv2
Hauptverfasser: Nagano, Hanatsu, Sarashina, Eri, Mizukami, Katsuyoshi, Begg, Rezaul
Format: Artikel
Sprache:eng
Schlagworte:
Ankle
Ankle sprains
Ankles
Balance
Body mass
Cost analysis
Falls
Feet
Gait
Geometry
Injury prevention
Intervention
Older people
Simplicity
Validity
Walking
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container_end_page iv2
container_issue Supplement_4
container_start_page iv1
container_title Age and ageing
container_volume 48
creator Nagano, Hanatsu
Sarashina, Eri
Mizukami, Katsuyoshi
Begg, Rezaul
description Abstract Despite a number of strategies to minimise falls risks, older adults tend to avoid voluntary and continuous engagement into interventions without cost effectiveness and simplicity. Shoe-insole modification may be a practical intervention if it alters foot geometry inside a shoe and improves gait patterns to prevent falls. The current study designed a shoe-insole structure with 2.2 dorsiflexion and 4.5 eversion built-in inclinations on the entire insole surface. Ankle dorsiflexion is fundamental for higher swing foot clearance to reduce tripping falls. Eversion support may also regulate excessive lateral foot centre of pressure (CoP) excursion to prevent ankle sprain and associated falls. Three young male participants (Age: 21 ± 3 yrs., Height: 1.70 ±.08m, Body Mass: 65.3 ± 2.65kg) conducted gait testing on an 8m walkway repeatedly to collect 60 step cycles for both non-insole and insole conditions. Optotrak motion capture system (NDI) recorded swing foot clearance at 100 Hz while AMTI force plates obtained ground reaction forces data, therefore CoP movements. Minimum foot clearance (MFC) was defined as the local minimum vertical toe-ground clearance during mid-swing, where higher MFC prevents tripping falls. The tested insole increased MFC by .20cm on average, considered to effectively reduce tripping falls. Lateral CoP excursion (lateral displacement from initial CoP location at heel contact to the most lateral CoP location during the initial phase of loading response) was reduced by 1.18cm (61%) due to insole walking, possibly indicating the lower risk of ankle sprain and sideways balance loss. Despite these positive effects, further validation is necessary with a sufficient sample size including the older population. It is also essential to consider negative aspects of continuous dorsiflexion and eversion support. For example, the tested insole may disturb functionally important supination. Prior to practical use, human trials for a prolonged period of time are required for insole intervention.
doi_str_mv 10.1093/ageing/afz164.05
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Shoe-insole modification may be a practical intervention if it alters foot geometry inside a shoe and improves gait patterns to prevent falls. The current study designed a shoe-insole structure with 2.2 dorsiflexion and 4.5 eversion built-in inclinations on the entire insole surface. Ankle dorsiflexion is fundamental for higher swing foot clearance to reduce tripping falls. Eversion support may also regulate excessive lateral foot centre of pressure (CoP) excursion to prevent ankle sprain and associated falls. Three young male participants (Age: 21 ± 3 yrs., Height: 1.70 ±.08m, Body Mass: 65.3 ± 2.65kg) conducted gait testing on an 8m walkway repeatedly to collect 60 step cycles for both non-insole and insole conditions. Optotrak motion capture system (NDI) recorded swing foot clearance at 100 Hz while AMTI force plates obtained ground reaction forces data, therefore CoP movements. Minimum foot clearance (MFC) was defined as the local minimum vertical toe-ground clearance during mid-swing, where higher MFC prevents tripping falls. The tested insole increased MFC by .20cm on average, considered to effectively reduce tripping falls. Lateral CoP excursion (lateral displacement from initial CoP location at heel contact to the most lateral CoP location during the initial phase of loading response) was reduced by 1.18cm (61%) due to insole walking, possibly indicating the lower risk of ankle sprain and sideways balance loss. Despite these positive effects, further validation is necessary with a sufficient sample size including the older population. It is also essential to consider negative aspects of continuous dorsiflexion and eversion support. For example, the tested insole may disturb functionally important supination. 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Shoe-insole modification may be a practical intervention if it alters foot geometry inside a shoe and improves gait patterns to prevent falls. The current study designed a shoe-insole structure with 2.2 dorsiflexion and 4.5 eversion built-in inclinations on the entire insole surface. Ankle dorsiflexion is fundamental for higher swing foot clearance to reduce tripping falls. Eversion support may also regulate excessive lateral foot centre of pressure (CoP) excursion to prevent ankle sprain and associated falls. Three young male participants (Age: 21 ± 3 yrs., Height: 1.70 ±.08m, Body Mass: 65.3 ± 2.65kg) conducted gait testing on an 8m walkway repeatedly to collect 60 step cycles for both non-insole and insole conditions. Optotrak motion capture system (NDI) recorded swing foot clearance at 100 Hz while AMTI force plates obtained ground reaction forces data, therefore CoP movements. Minimum foot clearance (MFC) was defined as the local minimum vertical toe-ground clearance during mid-swing, where higher MFC prevents tripping falls. The tested insole increased MFC by .20cm on average, considered to effectively reduce tripping falls. Lateral CoP excursion (lateral displacement from initial CoP location at heel contact to the most lateral CoP location during the initial phase of loading response) was reduced by 1.18cm (61%) due to insole walking, possibly indicating the lower risk of ankle sprain and sideways balance loss. Despite these positive effects, further validation is necessary with a sufficient sample size including the older population. It is also essential to consider negative aspects of continuous dorsiflexion and eversion support. For example, the tested insole may disturb functionally important supination. 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Shoe-insole modification may be a practical intervention if it alters foot geometry inside a shoe and improves gait patterns to prevent falls. The current study designed a shoe-insole structure with 2.2 dorsiflexion and 4.5 eversion built-in inclinations on the entire insole surface. Ankle dorsiflexion is fundamental for higher swing foot clearance to reduce tripping falls. Eversion support may also regulate excessive lateral foot centre of pressure (CoP) excursion to prevent ankle sprain and associated falls. Three young male participants (Age: 21 ± 3 yrs., Height: 1.70 ±.08m, Body Mass: 65.3 ± 2.65kg) conducted gait testing on an 8m walkway repeatedly to collect 60 step cycles for both non-insole and insole conditions. Optotrak motion capture system (NDI) recorded swing foot clearance at 100 Hz while AMTI force plates obtained ground reaction forces data, therefore CoP movements. Minimum foot clearance (MFC) was defined as the local minimum vertical toe-ground clearance during mid-swing, where higher MFC prevents tripping falls. The tested insole increased MFC by .20cm on average, considered to effectively reduce tripping falls. Lateral CoP excursion (lateral displacement from initial CoP location at heel contact to the most lateral CoP location during the initial phase of loading response) was reduced by 1.18cm (61%) due to insole walking, possibly indicating the lower risk of ankle sprain and sideways balance loss. Despite these positive effects, further validation is necessary with a sufficient sample size including the older population. It is also essential to consider negative aspects of continuous dorsiflexion and eversion support. For example, the tested insole may disturb functionally important supination. Prior to practical use, human trials for a prolonged period of time are required for insole intervention.</abstract><cop>Oxford</cop><pub>Oxford University Press</pub><doi>10.1093/ageing/afz164.05</doi><oa>free_for_read</oa></addata></record>
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source Applied Social Sciences Index & Abstracts (ASSIA); Oxford University Press Journals All Titles (1996-Current); EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection
subjects Ankle
Ankle sprains
Ankles
Balance
Body mass
Cost analysis
Falls
Feet
Gait
Geometry
Injury prevention
Intervention
Older people
Simplicity
Validity
Walking
title 05 Shoe Insole Intervention to Reduce Falls and Injuries
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