Hand and Finger Dexterity as a Function of Skin Temperature, EMG, and Ambient Condition

Objective: This article examines the changes in skin temperature (finger, hand, forearm), manual performance (hand dexterity and strength), and forearm surface electromyograph (EMG) through 40-min, 11 °C water cooling followed by 15-min, 34 °C water rewarming; additionally, it explores the relations...

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Bibliographic Details
Published in:Human factors 2010-06, Vol.52 (3), p.426-440
Main Authors: Chen, Wen-Lin, Shih, Yuh-Chuan, Chi, Chia-Fen
Format: Article
Language:English
Subjects:
Activity levels. Psychomotricity
Adult
Biological and medical sciences
Cold Temperature - adverse effects
Cold weather construction
Cooling
Design factors
Electromyography
Factor analysis
Factor Analysis, Statistical
Factorial design
Female
Finger
Fingers
Forearm
Fundamental and applied biological sciences. Psychology
Grip strength
Hand
Hand Strength
Humans
Immersion
Linear Models
Liquid cooling
Loosening
Male
Motor Skills
Psychology. Psychoanalysis. Psychiatry
Psychology. Psychophysiology
Psychomotor activities
Regression analysis
Skin
Skin Temperature
Space life sciences
Task Performance and Analysis
Temperature
Temperature effects
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Summary:Objective: This article examines the changes in skin temperature (finger, hand, forearm), manual performance (hand dexterity and strength), and forearm surface electromyograph (EMG) through 40-min, 11 °C water cooling followed by 15-min, 34 °C water rewarming; additionally, it explores the relationship between dexterity and the factors of skin temperature, EMG, and ambient condition. Background: Hand exposure in cold conditions is unavoidable and significantly affects manual performance. Method: Two tasks requiring gross and fine dexterity were designed, namely, nut loosening and pin insertion, respectively. The nested-factorial design includes factors of gender, participant (nested within gender), immersion duration, muscle type (for EMG), and location (for skin temperature). The responses are changes in dexterity, skin temperature, normalized amplitude of EMG, and grip strength. Finally, factor analysis and stepwise regression are used to explore factors affecting hand and finger dexterity. Results: Dexterity, EMG, and skin temperature fell with prolonged cooling, but the EMG of the flexor digitorum superficialis remained almost unchanged during the nut loosening task. All responses but the forearm skin temperature recovered to the baseline level at the end of rewarming. The three factors extracted by factor analysis are termed skin temperature, ambient condition, and EMG. They explain approximately two thirds of the variation of the linear models for both dexterities, and the factor of skin temperature is the most influential. Conclusion: Sustained cooling and warming significantly decreases and increases finger, hand, and forearm skin temperature. Dexterity, strength, and EMG are positively correlated to skin temperature. Therefore, keeping the finger, hand, and forearm warm is important to maintaining hand performance. Application: The findings could be help- ful to building safety guidelines for working in cold environments.
ISSN:0018-7208
1547-8181
DOI:10.1177/0018720810376514