Abstract
BackgroundUpright head and neck position has been frequently applied as baseline for diagnosis of neck problems. However, the variance of the position after cervical motions has never been demonstrated. Thus, it is unclear if the baseline position varies evenly across the cervical joints. The purpose was to assess reposition errors of upright cervical spine.MethodsCervical reposition errors were measured in twenty healthy subjects (6 females) using video-fluoroscopy. Two flexion movements were performed with a 20 s interval, the same was repeated for extension, with an interval of 5 min between flexion and extension movements. Cervical joint positions were assessed with anatomical landmarks and external markers in a Matlab program. Reposition errors were extracted in degrees (initial position minus reposition) as constant errors (CEs) and absolute errors (AEs).ResultsTwelve of twenty-eight CEs (7 joints times 4 repositions) exceeded the minimal detectable change (MDC), while all AEs exceeded the MDC. Averaged AEs across the cervical joints were larger after 5 min’ intervals compared to 20 s intervals (p < 0.05).ConclusionsThis is the first study to demonstrate single joint reposition errors of the cervical spine. The cervical spine returns to the upright positions with a 2° average absolute difference after cervical flexion and extension movements in healthy adults.
Highlights
Upright head and neck position has been frequently applied as baseline for diagnosis of neck problems
The variation of the upright posture after neck movements between cervical joints or cervical regions are unknown, and it is unclear if cervical spine motion should be regarded in single joint units, as multi-joint units or as regional units with respect to joint reposition
In total, 140 cervical spine joints were analyzed among the 20 participants
Summary
Upright head and neck position has been frequently applied as baseline for diagnosis of neck problems. The upright head and neck position is the most frequent human posture of daily life. This position is baseline for scientific studies and diagnosis [1,2,3]. The variation of the upright posture after neck movements between cervical joints or cervical regions are unknown, and it is unclear if cervical spine motion should be regarded in single joint units, as multi-joint units or as regional units with respect to joint reposition. Impaired proprioception has been demonstrated in patients with cervical disorders and forward head postures [10,11,12,13,14]. Cervical radiculopathy patients showed impaired head reposition acuity compared with healthy controls [2]. Subjects with pain in the upper cervical region demonstrated additional
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