Nutritional self-screening in <1 min: evaluation of a measuring station using sonic measurement of height
Nutritional self-screening in <1 min: evaluation of a measuring station using sonic measurement of height
Objective: Since nutritional screening is not routinely and accurately performed by busy care workers, the aim of this study was to evaluate a self-screening electronic measuring station that includes sonic height measurements. Methods: In all, 114 patients, 18 to 85 y of age and attending gastrointestinal outpatient clinics, followed automatically triggered audio-recorded instructions for weight and height measurements. The patients also provided information about unintentional weight loss to establish malnutrition risk using the Malnutrition Universal Screening Tool (MUST). In 56 healthy individuals, the effect of head/foot positions on height was examined using video-recordings. Laboratory studies examined the effects of hair/wigs, the position of a skull and horizontal plates and ambient conditions. Measurements were also made on a mechanical machine for comparison. Results: Of the patients, 21.9% were malnourished, with 99% agreement between sonic and mechanical machine categorization. Patients self-screened in only 35.6 ± 14.8 s (median 32 s) and 77% rated the screening as very easy (22%, easy), despite encountering some remediable snags. Within-subject precision for height was 0.186 cm in healthy individuals and 0.368 cm in patients. Humidity and barometric pressure had negligible/undetectable effects on height measurements, but temperature corrections were confounded by calibration errors. In the most lateral standing positions, height was underestimated curvilinearly. In healthy individuals, height measurements were 0.353 ± 0.542 cm lower on the sonic than mechanical device, which was inadequately explained by standing position or body tilt, although hair was found to be “invisible” only to the sonic machine. Conclusion: A method has been developed to rapidly and reliably self-screen for malnutrition using MUST, avoiding calculation and categorization errors, while providing results that can be immediately printed or transmitted electronically into patient notes.
MUST, Nutritional screening, Outpatients, Self-screening, Sonic
Elia, Marinos
964bf436-e623-46d6-bc3f-5dd04c9ef4c1
Cawood, Abbie L.
4067d429-6ce8-4e50-b5f5-d8bf62aada79
Akbar, Tahir
caff380d-7dab-4b5a-8296-c7bd05834769
Smith, Trevor
53e6838c-2e95-4c8f-9325-53163ab6255d
1 November 2019
Elia, Marinos
964bf436-e623-46d6-bc3f-5dd04c9ef4c1
Cawood, Abbie L.
4067d429-6ce8-4e50-b5f5-d8bf62aada79
Akbar, Tahir
caff380d-7dab-4b5a-8296-c7bd05834769
Smith, Trevor
53e6838c-2e95-4c8f-9325-53163ab6255d
Elia, Marinos, Cawood, Abbie L., Akbar, Tahir and Smith, Trevor
(2019)
Nutritional self-screening in <1 min: evaluation of a measuring station using sonic measurement of height.
Nutrition, 67-68, [110529].
(doi:10.1016/j.nut.2019.06.010).
Abstract
Objective: Since nutritional screening is not routinely and accurately performed by busy care workers, the aim of this study was to evaluate a self-screening electronic measuring station that includes sonic height measurements. Methods: In all, 114 patients, 18 to 85 y of age and attending gastrointestinal outpatient clinics, followed automatically triggered audio-recorded instructions for weight and height measurements. The patients also provided information about unintentional weight loss to establish malnutrition risk using the Malnutrition Universal Screening Tool (MUST). In 56 healthy individuals, the effect of head/foot positions on height was examined using video-recordings. Laboratory studies examined the effects of hair/wigs, the position of a skull and horizontal plates and ambient conditions. Measurements were also made on a mechanical machine for comparison. Results: Of the patients, 21.9% were malnourished, with 99% agreement between sonic and mechanical machine categorization. Patients self-screened in only 35.6 ± 14.8 s (median 32 s) and 77% rated the screening as very easy (22%, easy), despite encountering some remediable snags. Within-subject precision for height was 0.186 cm in healthy individuals and 0.368 cm in patients. Humidity and barometric pressure had negligible/undetectable effects on height measurements, but temperature corrections were confounded by calibration errors. In the most lateral standing positions, height was underestimated curvilinearly. In healthy individuals, height measurements were 0.353 ± 0.542 cm lower on the sonic than mechanical device, which was inadequately explained by standing position or body tilt, although hair was found to be “invisible” only to the sonic machine. Conclusion: A method has been developed to rapidly and reliably self-screen for malnutrition using MUST, avoiding calculation and categorization errors, while providing results that can be immediately printed or transmitted electronically into patient notes.
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More information
Accepted/In Press date: 5 June 2019
e-pub ahead of print date: 14 June 2019
Published date: 1 November 2019
Keywords:
MUST, Nutritional screening, Outpatients, Self-screening, Sonic
Identifiers
Local EPrints ID: 437499
URI: http://eprints.soton.ac.uk/id/eprint/437499
ISSN: 0899-9007
PURE UUID: c1d153c1-6392-400e-ab8e-91c964cfa2c0
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Date deposited: 31 Jan 2020 17:36
Last modified: 16 Mar 2024 04:05
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Author:
Abbie L. Cawood
Author:
Tahir Akbar
Author:
Trevor Smith
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