Evaluation of Two Fatigability Severity Measures in Elderly Adults

Schnelle, John F.; Buchowski, Maciej S.; İkizler, T. Alp; Durkin, Daniel W.; Beuscher, Linda; Simmons, Sandra F.

doi:10.1111/j.1532-5415.2012.04062.x

Cited by 60 publications

(76 citation statements)

References 12 publications

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“…Poor endurance/exhaustion was not associated with pauses as envisaged, highlighting the complexity and challenges in interpreting self-reported measures. While objective measures of energy/exhaustion/fatiguing may be obtainable (Schnelle et al, 2012) handwriting did not appear to decline reliably across our groups. Cognitive dysfunction, as defined by impairment on MMSE or slowness on Trail Making Test, Part B, was not significantly associated with writing velocity and pressure.…”

Section: Discussioncontrasting

confidence: 61%

Handwriting and pre-frailty in the Lausanne cohort 65+ (Lc65+) study

Camicioli

Mizrahi

Spagnoli

et al. 2015

Archives of Gerontology and Geriatrics

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Section: Discussioncontrasting

confidence: 61%

Handwriting and pre-frailty in the Lausanne cohort 65+ (Lc65+) study

Camicioli

Mizrahi

Spagnoli

et al. 2015

Archives of Gerontology and Geriatrics

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“…15,17,18 Perceived fatigue can be related to fatigability if items in the self-report measure objectify the individual's fatigue levels as a deterioration in performing physical or cognitive activities. 9 Nevertheless, fatigability is generally distinguished from perceived fatigue by the concept of change (a measurable difference in the performance of a task over time) 19 and how it is measured (quantified by the clinician/researcher vs. reported by the patient).…”

Section: Methodsmentioning

confidence: 99%

Relationship Between Fatigability and Perceived Fatigue Measured Using the Neurological Fatigue Index in People with Multiple Sclerosis

Aldughmi¹,

Bruce²,

Siengsukon³

2017

International Journal of MS Care

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Background: Understanding the relationship between perceived fatigue and performance fatigability could lead to more effective interventions to manage multiple sclerosis (MS)-related fatigue. However, the relationship between self-perceived fatigue measured using the Neurological Fatigue Index (NFI-MS) and performance fatigability in people with MS is unknown. We sought to explore the relationship between the NFI-MS and performance fatigability in people with MS.

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“…The physical assistance tunes the robot contribution according to the long-term user performance, which may be affected due to fatigue. The latter is particularly important since considerable changes in performance are observed due to user fatigue after continuous activity, which may render performing daily activities at a desired level of performance difficult, see [10,52]. With reference to Fig.…”

Section: Shared Control Architecturementioning

confidence: 99%

An Integrated Decision Making Approach for Adaptive Shared Control of Mobility Assistance Robots

Geravand

Werner

Hauer

et al. 2016

Int J of Soc Robotics

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We recommend you cite the published version. The publisher's URL is: http://dx.doi.org/10.1007/s12369-016-0353-z Refereed: YesThe final publication is available at Springer via http://dx.doi.org/10.1007/s12369?016?0353?z Disclaimer UWE has obtained warranties from all depositors as to their title in the material deposited and as to their right to deposit such material. UWE makes no representation or warranties of commercial utility, title, or fitness for a particular purpose or any other warranty, express or implied in respect of any material deposited. UWE makes no representation that the use of the materials will not infringe any patent, copyright, trademark or other property or proprietary rights. UWE accepts no liability for any infringement of intellectual property rights in any material deposited but will remove such material from public view pending investigation in the event of an allegation of any such infringement. PLEASE SCROLL DOWN FOR TEXT.Noname manuscript No. Abstract Mobility assistance robots (MARs) provide support to elderly or patients during walking. The design of a safe and intuitive assistance behavior is one of the major challenges in this context. We present an integrated approach for the context-specific, on-line adaptation of the assistance level of a rollator-type mobility assistance robot by gain-scheduling of low-level robot control parameters. A human-inspired decision-making model, the Drift-Diffusion Model, is introduced as the key principle to gain-schedule parameters and with this to adapt the provided robot assistance in order to achieve a human-like assistive behavior. The mobility assistance robot is designed to provide a) cognitive assistance to help the user following a desired path towards a predefined destination as well as b) sensorial assistance to avoid collisions with obstacles while allowing for an intentional approach of them. Further, the robot observes the user long-term performance and fatigue to adapt the overall level of c) physical assistance provided. For each type of assistance a decision-making problem is formulated that affects different low-level control parameters. The effectiveness of the proposed approach is demonstrated in technical validation experiments. Moreover, the proposed approach is evaluated in a user study with 35 elderly persons. Obtained results indicate that the proposed gain-scheduling technique incorporating ideas of human decision-making models shows a general high potential for the application in adaptive shared control of mobility assistance robots.

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Evaluation of Two Fatigability Severity Measures in Elderly Adults

Cited by 60 publications

References 12 publications

Handwriting and pre-frailty in the Lausanne cohort 65+ (Lc65+) study

Handwriting and pre-frailty in the Lausanne cohort 65+ (Lc65+) study

Relationship Between Fatigability and Perceived Fatigue Measured Using the Neurological Fatigue Index in People with Multiple Sclerosis

An Integrated Decision Making Approach for Adaptive Shared Control of Mobility Assistance Robots

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