Meghan E Hess scite author profile

Meghan E Hess

4Publications

15Citation Statements Received

88Citation Statements Given

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University of Mount Union

Publications

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Concurrent validity and minimum detectable change of Senior Fitness Test components: instrumented vs. manual assessment

Salvatore¹,

Colacino²,

Hess³

et al. 2017

Phys Ther Rehabil

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Background: The Senior Fitness Test is a reliable and valid battery of individual tests which collectively measure the strength, balance, and endurance necessary to perform activities of daily living. These tests require little equipment or cost to administer, and are commonly administered in both clinical and community settings. However, with recent and rapid advancements in technology, there is now frequent use of wearable sensors to assess and quantify mobility tasks. It was the primary aim of the present study to compare the relative and absolute test-retest reliability of body-worn sensors vs. manual assessment of Senior Fitness Test components. Methods: Participants (65 years and older) attended a single 2-hour test session at a university academic building, where they performed two blocks of 3 tests (30-Second Chair Stand, 8-Foot Up-and-Go, and 6-Minute Walk Test) with a 45 minute to one hour rest in between blocks. Ambulatory Parkinson's Disease Monitoring (APDM) Opal sensors and stopwatch methods simultaneously measured the intended outcomes for each test. Test-retest relative reliability for the fitness tests was assessed with intra-class correlation coefficients (ICC (2,1) ). The agreement between test and retest was assessed by calculating minimum detectable change, which reflects the smallest amount of absolute change from test to retest that can be considered real. Results: Participants included 17 females and 11 males (Age=70.6±5.4 years; Body Mass=70.6±15.3 kg; Height=1.66±0.08m). All manual 6-Minute Walk Test outcomes exhibited excellent test-retest reliability (ICC≥0.96). The same was true of APDM, except for turn duration (ICC>0.74) and the number of steps in turn (ICC>0.61). Test-retest reliability for the 30-Second Chair Stand and 8-Foot Up-and-Go were excellent for the manual method (ICC>0.83 and >0.88, respectively), but were poor for APDM (ICC>0.41 and >0.28, respectively). Minimum detectable change was similar between the APDM and manual methods for 6-Minute Walk Test cadence (6.8 vs. 6.6 steps/min, respectively) and gait speed (0.11 vs. 0.13 m/s, respectively). There were substantial differences between manual and APDM minimum detectable change for the 30-Second Chair Stand and 8-Foot Up-and-Go, with APDM requiring approximately twice as much change, compared with manual. Conclusions: Both the APDM system and manual methods reliably and validly assessed gait speed and cadence during the 6-Minute Walk Test, though it should be noted that APDM only successfully recorded and reported data for 2 out of every 3 participants. The manual method of assessing the 8-Foot Up-and-Go and 30-Second Chair Stand was more valid and reliable than the APDM method.

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Handgrip strength as a screening assessment for functional limitations

Braun¹,

Hess²,

Ibarra-Moreno³

et al. 2018

Phys Ther Rehabil

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Background: There appears to be an undisputed strong relationship between isometric handgrip strength (HGS) and functional fitness test performance, ability to perform activities of daily living (ADLs), and mortality, but the extreme diversity in how HGS data are interpreted make it difficult to utilize the assessment in a meaningful way. The present study aimed to simplify this interpretation by establishing a single and meaningful universal HGS cutoff that would inform the test administrator whether or not additional functional fitness testing was warranted. It was hypothesized that subjects scoring above the HGS cutoff would self-report fewer functional limitations, compared with subjects scoring below the cutoff. It was also hypothesized that subjects scoring above the HGS would perform better on each functional fitness test outcome, compared with subjects scoring below the cutoff. Methods: Male (n=24; Age=62.3±14.3 years) and female (n=59; Age=64.7±13.0 years) subjects were recruited to take part in the Steps Taken Against Neuromuscular Decline (STAND) Initiative, a longitudinal study of aging. The present study is a cross-sectional assessment of the baseline data from the first 83 subjects. Subjects self-reported their perceived ability to complete the variety of ADLs included in the Composite Physical Function Scale (maximum score of 24 indicating no perceived functional limitations). They additionally completed a battery of functional fitness assessments, which included HGS, 30-s Chair Stand, 8-ft Up-and-Go, 10 lb and 25 lb lift and carry, and 400 m Walk Test. A self-developed cell phone application was utilized to produce more outcomes, such as steady-state gait speed and cadence during the 400 m Walk Test. Independent samples t-tests were used to compare the perceived and actual functional fitness outcomes between subjects with grip strength <30 kg and those with grip strength ≥30 kg. Additionally, positive predictive value (PPV) and negative predictive value (NPV) were calculated to investigate the accuracy of a 30 kg HGS cutoff to identify subjects with perceived functional limitations (indicated by a CPF Scale score <24) or actual functional limitations (indicated by scoring below 2 standard deviations from the mean of the reference group, subjects with HGS ≥30 kg). Results: Subjects with a HGS ≥30 kg scored significantly higher on the CPF Scale, compared with subjects with a HGS <30 kg (23.9+/-vs. 22.4+/-3.3, respectively). Likewise, subjects with a HGS ≥30 kg performed significantly better on every functional fitness test outcome, compared with subjects with a HGS <30 kg. The NPV (true negative) was excellent (≥90%) for all outcomes, while the PPV (true positive) was poor (≤ 56%) for all outcomes. Conclusions: A HGS ≥ 30 kg appears to be an appropriate cutoff to accurately rule out current functional limitations in males and females 40 years of age and older, but it is not suitable to accurately identify individuals with current functional limitations. It is suggested that individuals with a HGS <3...

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Handgrip Strength as a Screening Assessment for Functional Limitations

Saunders

Braun

Hess

et al. 2019

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Concurrent Validity Of A Gait Analysis Application Vs. Slow-motion Video For The Assessment Of A 400 M Walk Test

Saunders

Colacino

Hess

et al. 2018

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Meghan E Hess

Concurrent validity and minimum detectable change of Senior Fitness Test components: instrumented vs. manual assessment

Handgrip strength as a screening assessment for functional limitations

Handgrip Strength as a Screening Assessment for Functional Limitations

Concurrent Validity Of A Gait Analysis Application Vs. Slow-motion Video For The Assessment Of A 400 M Walk Test

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