PhD Defence by Ning Qu
Ning Qu will defend his PhD thesis: "Experimental and clinical neck pain: effects on dynamic cervical joint motion and pressure pain sensitivity"
07.01.2020 kl. 13.00 - 16.00
Chairman: Professor Michael Voigt Moderator: Associate Professor Rogerio Pessoto Hirata
13.00 Opening by the Moderator
13.05 PhD lecture by Ning Qu
14.00 Questions and comments from the Committee Questions and comments from the audience at the Moderator’s discretion
16.00 Conclusion of the session by the Moderator
After the session a reception will be arranged
Neck pain is a global health issue. It significantly affects the life quality of patients and consequently causes a dramatic economic burden to society. Neck pain is a multifactorial disease influenced by many biological, psychological and psychosocial factors. Nevertheless, many researchers propose that neck pain should have a local pathoanatomical basis. However, a large portion of neck pain is classified as nonspecific, since the source of neck pain is rarely identified. The assessment of dynamic cervical joint motion is supposed to reveal more impairments of neck pain at the individual cervical joint levels when compared with motion assessments on static and end-range radiographs. In addition, pressure pain sensitivity is widely investigated in patients with neck pain and applied to subgroup patients with neck pain. These two parameters also show potential diagnostic values of reflecting the sources of neck pain. Additionally, persistent motor and sensory changes may lead to the recurrence of neck pain. However, dynamic cervical joint motion patterns and pressure pain sensitivity of patients with recurrent neck pain remains unstudied. The thesis aimed to investigate the effects of pain originating from different cervical structures on dynamic cervical joint motion and pressure pain thresholds (PPTs) and to investigate dynamic cervical joint motion patterns and PPTs in patients with recurrent neck pain. Experimental deep and superficial cervical muscle pain were applied in study I and experimental inter-spinous ligament pain was applied in study II. Patients with recurrent neck pain and matched healthy controls were recruited in study III. Video-fluoroscopy was used to record cervical flexion and extension movements. Dynamic cervical joint motion parameters were extracted, which included pro-directional motion, anti-directional motion, joint motion variability, and total joint motion. PPTs were measured over bilateral C2/C3 and C5/C6 facet joints (study I-III) and the right tibialis anterior (TA) (Study III) by a pressure algometer. Results of study I showed that: 1) deep cervical muscle pain redistributed anti-directional motion between C3/C4 and C6/C7 during cervical extension while superficial cervical muscle pain decreased the overall anti-directional motion, pro-directional motion, and joint motion variability during cervical extension; 2) deep cervical muscle pain increased PPTs over bilateral C2/C3 and left C5/C6 facet joints and superficial cervical muscle pain increased PPTs over bilateral C2/C3 and C5/C6 facet joints. Results of study II showed that: 1) interspinous ligament pain redistributed anti-directional motion and joint motion variability between C2/C3 and C4/C5 during cervical extension; 2) inter-spinous ligament pain increased PPTs over the left C2/C3 facet joints. Results of study III showed that: 1) patients with recurrent neck pain decreased anti-directional motion at C2/C3 and C3/C4 and increased anti-directional motion at C5/C6 and C6/C7 during cervical extension and increased the overall anti-directional motion during cervical flexion; 2) no differences in PPTs over bilateral C2/C3 and C5/C6 facet joints and the right TA were found between patients with recurrent neck pain and healthy controls.
In conclusion, different effects on anti-directional motion were demonstrated when pain originated in the deep cervical muscle, superficial cervical muscle, and inter-spinous ligament. Patients with recurrent neck pain showed altered anti-directional motion patterns compared with healthy controls. However, experimental cervical muscle and ligament pain decreased the pressure pain sensitivity over different cervical facet joints and patients with recurrent neck pain showed no localized and widespread hyperalgesia. The findings in the thesis indicated that the anti-directional motion was the most sensitive to experimental and clinical neck pain and investigations of anti-directional motion may contribute to the diagnosis of neck pain when attempting to identify the pain sources.
Department of Health Science and Technology
Fredrik Bajers Vej 7D, room: D2-106