Is There Really a “Cushion Effect”?: A Biomechanical Investigation of Crash Injury Mechanisms in the Obese

The objective of this study was to document the motion and potential injury mechanisms of obese occupants in frontal car crashes compared to a control group of nonobese occupants in controlled laboratory impacts. Eight cadavers were divided into obese (n = 3) and a nonobese (n = 5) groups and expose...

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Bibliographic Details
Published in:Obesity (Silver Spring, Md.) Md.), 2010-04, Vol.18 (4), p.749-753
Main Authors: Kent, Richard W, Forman, Jason L, Bostrom, Ola
Format: Article
Language:English
Subjects:
Abdomen
Accidents, Traffic
animal injuries
Biomechanical Phenomena
Biomechanics
Body mass index
Cadaver
Cadavers
epidemiology
Fatalities
head
Hip
Humans
Intensive care
Models, Biological
Mortality
Motion
Obesity
ribs
risk
Risk Factors
risk reduction
Seat Belts
shoulders
thorax
torso
Traffic accidents & safety
Trauma
Wounds and Injuries
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Summary:The objective of this study was to document the motion and potential injury mechanisms of obese occupants in frontal car crashes compared to a control group of nonobese occupants in controlled laboratory impacts. Eight cadavers were divided into obese (n = 3) and a nonobese (n = 5) groups and exposed to a 48 km/h impact. High speed digital video documented the motion of the belted subjects. Compared to the nonobese cohort, the obese exhibited a characteristically different set of motions. As expected, the obese (heavier) subjects experienced greater maximum forward displacement (excursion) before their motion was arrested by the restraint. In addition, the obese exhibited a different distribution of excursions among body segments. The primary difference between the cohorts was substantially larger hip excursion in the obese (452 ± 83 mm vs. 203 ± 42 mm, P < 0.01), which was the proximate cause of a tendency of the obese cadavers' torsos to pitch forward less during impact. Some of the published epidemiology can be elucidated by the results reported here. The increased hip excursion and concomitant decreased torso pitch may reduce the risk of the head striking some component of the vehicle interior. Furthermore, the reclined torso during belt loading may increase the risk of rib and pulmonary trauma because the load is concentrated on the compliant and vulnerable lower thorax and less on the stiff upper ribs and clavicle. The lower extremities also experience increased excursion as a result of this hip excursion, and thus an increased risk of a hard contact and resulting injury.
ISSN:1930-7381
1930-739X
DOI:10.1038/oby.2009.315