Assessments of Physical Workload in Sonography Tasks Using Inclinometry, Goniometry, and Electromyography

Assessments of Physical Workload in Sonography Tasks Using Inclinometry, Goniometry, and Electromyography

Background: Echocardiography involves strenuous postures of the upper limbs. This study explored the physical workload in the neck and upper limbs in sonographers performing echocardiography, and the extent to which the workload differs from than in other work tasks (other sonographic examinations,...

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Main Authors: Jenny Gremark Simonsen, Camilla Dahlqvist, Henrik Enquist, Catarina Nordander, Anna Axmon, Inger Arvidsson
Format: Article
Language:English
Published: Elsevier 2018-09-01
Series:Safety and Health at Work
Online Access:http://www.sciencedirect.com/science/article/pii/S2093791117301464
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spelling doaj-d36bd40929d94d0ea56659a20633681d2020-11-24T22:12:39ZengElsevierSafety and Health at Work2093-79112018-09-0193326333Assessments of Physical Workload in Sonography Tasks Using Inclinometry, Goniometry, and ElectromyographyJenny Gremark Simonsen0Camilla Dahlqvist1Henrik Enquist2Catarina Nordander3Anna Axmon4Inger Arvidsson5Corresponding author. Division of Occupational and Environmental Medicine, Lund University, SE–221 85 Lund, Sweden.; Division of Occupational and Environmental Medicine, Lund University, Lund, SwedenDivision of Occupational and Environmental Medicine, Lund University, Lund, SwedenDivision of Occupational and Environmental Medicine, Lund University, Lund, SwedenDivision of Occupational and Environmental Medicine, Lund University, Lund, SwedenDivision of Occupational and Environmental Medicine, Lund University, Lund, SwedenDivision of Occupational and Environmental Medicine, Lund University, Lund, SwedenBackground: Echocardiography involves strenuous postures of the upper limbs. This study explored the physical workload in the neck and upper limbs in sonographers performing echocardiography, and the extent to which the workload differs from than in other work tasks (other sonographic examinations, and nonsonographic tasks). Methods: The physical load was assessed by inclinometry, goniometry, and electromyography methods in 33 female sonographers during authentic work using three different echocardiography techniques and other work tasks. Results: Echocardiography was characterized by low velocities of the head, arms, and wrists, and a low proportion of muscular resting time in the forearms, in the transducer limb, and the computer limb. The transducer limb was more elevated in one of the techniques, but this technique also involved a higher proportion of muscular resting time of the trapezius muscle. We also found a high proportion of awkward wrist postures in the transducer wrist in all three techniques; in one due to prolonged flexion, and in the others due to prolonged extension. Other work tasks were less static, and were performed with higher upper arm and wrist velocities. Conclusion: None of the three echocardiography techniques was optimal concerning physical workload. Thus, to achieve more variation in physical load we recommend that the equipment be arranged so that the sonographer can alternate between two different techniques during the workday. We also propose alternation between echocardiography and nonsonographic tasks, in order to introduce variation in the physical workload. Clinical expertise should be used to achieve further improvements. Keywords: Echocardiography, Ergonomics, Technical measurements, Work postureshttp://www.sciencedirect.com/science/article/pii/S2093791117301464
collection DOAJ
language English
format Article
sources DOAJ
author Jenny Gremark Simonsen
Camilla Dahlqvist
Henrik Enquist
Catarina Nordander
Anna Axmon
Inger Arvidsson
spellingShingle Jenny Gremark Simonsen
Camilla Dahlqvist
Henrik Enquist
Catarina Nordander
Anna Axmon
Inger Arvidsson
Assessments of Physical Workload in Sonography Tasks Using Inclinometry, Goniometry, and Electromyography
Safety and Health at Work
author_facet Jenny Gremark Simonsen
Camilla Dahlqvist
Henrik Enquist
Catarina Nordander
Anna Axmon
Inger Arvidsson
author_sort Jenny Gremark Simonsen
title Assessments of Physical Workload in Sonography Tasks Using Inclinometry, Goniometry, and Electromyography
title_short Assessments of Physical Workload in Sonography Tasks Using Inclinometry, Goniometry, and Electromyography
title_full Assessments of Physical Workload in Sonography Tasks Using Inclinometry, Goniometry, and Electromyography
title_fullStr Assessments of Physical Workload in Sonography Tasks Using Inclinometry, Goniometry, and Electromyography
title_full_unstemmed Assessments of Physical Workload in Sonography Tasks Using Inclinometry, Goniometry, and Electromyography
title_sort assessments of physical workload in sonography tasks using inclinometry, goniometry, and electromyography
publisher Elsevier
series Safety and Health at Work
issn 2093-7911
publishDate 2018-09-01
description Background: Echocardiography involves strenuous postures of the upper limbs. This study explored the physical workload in the neck and upper limbs in sonographers performing echocardiography, and the extent to which the workload differs from than in other work tasks (other sonographic examinations, and nonsonographic tasks). Methods: The physical load was assessed by inclinometry, goniometry, and electromyography methods in 33 female sonographers during authentic work using three different echocardiography techniques and other work tasks. Results: Echocardiography was characterized by low velocities of the head, arms, and wrists, and a low proportion of muscular resting time in the forearms, in the transducer limb, and the computer limb. The transducer limb was more elevated in one of the techniques, but this technique also involved a higher proportion of muscular resting time of the trapezius muscle. We also found a high proportion of awkward wrist postures in the transducer wrist in all three techniques; in one due to prolonged flexion, and in the others due to prolonged extension. Other work tasks were less static, and were performed with higher upper arm and wrist velocities. Conclusion: None of the three echocardiography techniques was optimal concerning physical workload. Thus, to achieve more variation in physical load we recommend that the equipment be arranged so that the sonographer can alternate between two different techniques during the workday. We also propose alternation between echocardiography and nonsonographic tasks, in order to introduce variation in the physical workload. Clinical expertise should be used to achieve further improvements. Keywords: Echocardiography, Ergonomics, Technical measurements, Work postures
url http://www.sciencedirect.com/science/article/pii/S2093791117301464
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