TY - JOUR
T1 - Neurophysiological characterization of persistent postthoracotomy pain
AU - Wildgaard, Kim
AU - Ringsted, Thomas Kamm
AU - Aasvang, Eske Kvanner
AU - Ravn, Jesper
AU - Werner, Mads Utke
AU - Kehlet, Henrik
PY - 2012/2
Y1 - 2012/2
N2 - Objectives: The postthoracotomy pain syndrome (PTPS) has a prevalence of 30% to 40%. Although intraoperative nerve damage during thoracotomy has been demonstrated, it has not been clearly linked to PTPS and detailed quantitative sensory characterization data have so far not been presented, comparing PTPS and pain-free patients. Methods: Neurophysiological characterization was performed in 17 patients with PTPS and 24 pain-free postthoracotomy patients using a detailed quantitative sensory testing protocol and psychometric questionnaires. Results: Pain and pain-free patients had increased thresholds to tactile detection (P=0.001 and P=0.01) and cool detection (P<0.001 and P<0.01) on the operated side versus the contralateral side. Pain patients also had increased thresholds for warmth detection (P<0.001) and heat pain (P<0.01) on the operated side. The PTPS patients demonstrated increased side-to-side differences for warmth detection (P<0.01), heat pain (P<0.05), and cool detection (P<0.05) thresholds compared with pain-free patients. Pain patients also more frequently experienced cool hyperesthesia (8 of 17 vs. 1 of 24, P<0.01), but no differences were found for pressure pain, temporal summation, or sensory mapping to cool (200 cm 2 vs. 76 cm 2, P=0.18). Hospital Anxiety and Depression Scale scores were higher for PTPS than for pain-free patients (P<0.01). Discussion: Neurophysiological assessments indicate nerve injury to be common in pain and pain-free patients after thoracotomy. The combination of increased thresholds together with hyperesthesia, suggests consequences of nerve injury to be more pronounced in PTPS patients.
AB - Objectives: The postthoracotomy pain syndrome (PTPS) has a prevalence of 30% to 40%. Although intraoperative nerve damage during thoracotomy has been demonstrated, it has not been clearly linked to PTPS and detailed quantitative sensory characterization data have so far not been presented, comparing PTPS and pain-free patients. Methods: Neurophysiological characterization was performed in 17 patients with PTPS and 24 pain-free postthoracotomy patients using a detailed quantitative sensory testing protocol and psychometric questionnaires. Results: Pain and pain-free patients had increased thresholds to tactile detection (P=0.001 and P=0.01) and cool detection (P<0.001 and P<0.01) on the operated side versus the contralateral side. Pain patients also had increased thresholds for warmth detection (P<0.001) and heat pain (P<0.01) on the operated side. The PTPS patients demonstrated increased side-to-side differences for warmth detection (P<0.01), heat pain (P<0.05), and cool detection (P<0.05) thresholds compared with pain-free patients. Pain patients also more frequently experienced cool hyperesthesia (8 of 17 vs. 1 of 24, P<0.01), but no differences were found for pressure pain, temporal summation, or sensory mapping to cool (200 cm 2 vs. 76 cm 2, P=0.18). Hospital Anxiety and Depression Scale scores were higher for PTPS than for pain-free patients (P<0.01). Discussion: Neurophysiological assessments indicate nerve injury to be common in pain and pain-free patients after thoracotomy. The combination of increased thresholds together with hyperesthesia, suggests consequences of nerve injury to be more pronounced in PTPS patients.
U2 - 10.1097/ajp.0b013e3182261650
DO - 10.1097/ajp.0b013e3182261650
M3 - Journal article
C2 - 21705872
SN - 0749-8047
VL - 28
SP - 136
EP - 142
JO - Clinical Journal of Pain
JF - Clinical Journal of Pain
IS - 2
ER -