A multimodal approach for assessing the risk of cervical spine injury in low-speed rear-end collisions: kinematic and clinical responses
Hee Young Lee, Kang Hyun Lee, Oh Hyun Kim, Hyunjung Kim, Chan Young Kang, Guan Hee Kim, Nam Hyung Kim, Hyun Youk

TL;DR
This study investigates cervical spine injury risk in low-speed car collisions using motion data and medical tests, finding minimal injury risk at speeds up to 8 km/h.
Contribution
The study introduces a multimodal approach combining kinematic and clinical data to objectively assess cervical spine injury risk in low-speed rear-end collisions.
Findings
No structural cervical spine damage was observed in MRI scans after low-speed collisions.
Neuromuscular function tests showed no abnormalities post-collision.
Most participants reported temporary pain, which decreased within a week.
Abstract
While advancements in vehicle safety have reduced injury severity in low-speed collisions, concerns about excessive treatment costs and the social implications of minor collisions persist. Cervical spine injuries, in particular, remain challenging to assess despite minimal vehicle damage. This study aimed to establish objective criteria for evaluating cervical spine injury risk in low-speed rear-end collisions and determine whether such injuries occur at impact velocities up to 8 km/h. Sixteen volunteers underwent controlled rear-end collisions using passenger vehicles and bumper cars at impact velocities ranging from 1.54 to 8.86 km/h. Kinematic parameters—including velocity change (ΔV), peak acceleration, and neck injury criteria (NIC)—were recorded. Cervical MRI scans were obtained pre- and post-collision, while electromyography (EMG) and nerve conduction studies (NCS) assessed…
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Taxonomy
TopicsAutomotive and Human Injury Biomechanics · Traffic and Road Safety · Agriculture and Farm Safety
