SAFETYLIT WEEKLY UPDATE

We compile citations and summaries of about 400 new articles every week.
RSS Feed

HELP: Tutorials | FAQ
CONTACT US: Contact info

Search Results

Journal Article

Citation

Albanese B, Gibson T, Whyte T, Meredith L, Savino G, de Rome L, Baldock MRJ, Fitzharris M, Brown J. Traffic Injury Prev. 2017; 18(Suppl 1): S116-S121.

Affiliation

School of Medical Science, UNSW , Sydney , Australia.

Copyright

(Copyright © 2017, Informa - Taylor and Francis Group)

DOI

10.1080/15389588.2017.1311014

PMID

28383999

Abstract

OBJECTIVE Laboratory studies have demonstrated that impact protectors (IP) used in motorcycle clothing can reduce fracture severities. While crash studies have reported IP are associated with reduced likelihood of soft tissue injury, there is little evidence of their effectiveness in reducing fracture likelihood. This discrepancy might be related to IP quality. There are mandatory requirements for IP supplied with protective clothing in Europe, but not elsewhere. This study examines the energy attenuation performance of IP used by Australian riders.

METHODS IP were harvested from clothing worn by crashed riders admitted to hospital. The IP were examined and energy attenuation properties determined using EN 1621-1 test procedures. Impact injury was identified from medical records and defined as fractures, dislocations and avulsions that occurred following impact to the rider's shoulders, elbows, hips and/or knees. Fisher's exact test was used to examine the relationship between meeting the EN 1621-1 energy attenuation requirements and impact injury. The association between the average and maximum transmitted force, and impact injury was examined using generalised estimating equations. Motorcycle riders were recruited as part of an in-depth crash study through three hospitals in NSW, Australia between 2012 and 2014. Riders were interviewed and engineers conducted site, vehicle and clothing inspections. Clothing was collected, or identical garments were purchased.

RESULTS Clothing was inspected for 62 riders. Of these, 19 wore clothing incorporating 76 IP. Twenty-six of these were impacted in the crash event. Almost all impacted IP (96%) were CE marked and most (83%) met Level 1 energy attenuation requirements of EN 1621-1, when tested. Of the 26 impacted IP, four were associated with impact injuries, including midshaft and distal clavicle fractures and a scapula and olecranon fracture.No associations between meeting EN 1621-1 requirements and impact injury were found (p = 0.5). There was no association between average force transmitted and impact injury (95% CI: 0.91-1.24); however, as maximum force transmitted increased, the odds of impact injury increased (95% CI: 1.01-1.2). These results indicate a high probability of impact injury at 50 kN, the limit of maximum transmitted force specified in EN 1621-1.

CONCLUSION The allowable transmitted force of EN 1621-1 may be too high to effectively reduce the probability of impact injury. This is not surprising given human tolerance levels that are reported in literature. Reducing the force limit below the reported fracture tolerance limits might be difficult with current technology. However, there is scope to reduce the EN 1621-1 maximum limit of 50 kN transmitted force. A reduction in the maximum force limit would improve rider protection and appears feasible, as 77% of tested IP recorded a maximum force < 35 kN. This level of transmitted force is estimated to be associated with < 20% probability of impact injury. While the performance of IP available to Australian riders is not regulated, most IP was CE marked. The results indicate a significant association between maximum transmitted force, tested according to EN 1621-1 procedures, and impact injury. Further investigation of the EN 1621-1 requirements may be warranted. This work will interest those targeting protective equipment for motorcyclists as a mechanism for reducing injury to these vulnerable road users.


Language: en

Keywords

crash protection; energy attenuation; impact protectors; injury protection; motorcycle; protective equipment

NEW SEARCH


All SafetyLit records are available for automatic download to Zotero & Mendeley
Print