These results strongly suggest that chronic pains may have molecular and cellular mechanisms which are different from nociceptive pain and acute pain.
这些结果有力地提示,慢性痛具有有别于伤害性痛和急性痛的分子和细胞机制。
Conclusion Intrathecal FC can reduce the mechanical and heat hyperalgesia in mice with bone cancer pain, and the astrocytes may play a role in the nociceptive transmission at the spinal level.
结论鞘内注射氟代柠檬酸能明显减轻骨癌痛小鼠机械痛敏和热痛敏,提示星形胶质细胞在脊髓水平参与疼痛信息传递。
Sensory, motor, cognitive and emotional activation in dental pain anticipation may indicate that brain nociceptive network can be affected by hint.
对疼痛期待所产生的感觉、情绪、认知及运动的皮层兴奋,证明大脑伤害性信息网络是直接受到暗示影响的。
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