Baliki Marwan, Calvo Oscar, Chialvo Dante R, Apkarian A Vania
Department of Physiology, Northwestern University Medical School, Chicago, IL, 60611, USA.
Mol Pain. 2005 May 26;1:18. doi: 10.1186/1744-8069-1-18.
Well-established methods are available to measure thermal and mechanical sensitivity in awake behaving rats. However, they require experimenter manipulations and tend to emphasize reflexive behaviors. Here we introduce a new behavioral test, with which we examine thermal sensitivity of rats with neuropathic injury. We contrast thermal hyperalgesia between spared nerve injury and chronic constriction injury rats. This device is a fully automated thermal sensitivity assessment tool designed to emphasize integrated learned responses to thermal painful and non-painful stimuli that are applied dynamically to a surface on which the animal is standing. It documents escape behavior in awake, unrestrained animals to innocuous and noxious heating of the floor where the animal is located. Animals learn to minimize pain by escaping to the opposite non-heated side; escape latency is recorded. On this device, thermal stimulus-response curves showed > 6 degrees C leftward shift in both groups of neuropathic rats. In contrast, when these animals were tested on hotplate the stimulus-response shift was < 2 degrees C. Spared nerve injury rats showed even less evidence for thermal hyperalgesia when thermal sensitivity was tested by measuring paw withdrawal to infrared heating, plantar test. The implications of test dependent magnitude of thermal hyperalgesia are discussed from the viewpoint of the tests used, as well as the animal models studied. It is argued that the dynamic thermal operant task reveals the relevance of the neuropathic injury associated pain-like behavior in relation to the whole organism.
已有成熟的方法可用于测量清醒行为大鼠的热敏感性和机械敏感性。然而,这些方法需要实验者进行操作,并且往往侧重于反射行为。在此,我们引入一种新的行为测试,用于检测神经病理性损伤大鼠的热敏感性。我们对比了 spared nerve injury(保留神经损伤)和慢性压迫性损伤大鼠之间的热痛觉过敏情况。该装置是一种全自动热敏感性评估工具,旨在强调对动态施加于动物站立表面的热痛性和非痛性刺激的综合习得反应。它记录清醒、不受束缚的动物对其所在地板的无害和有害加热的逃避行为。动物学会通过逃到相对的未加热侧来尽量减少疼痛;记录逃避潜伏期。在该装置上,两组神经病理性大鼠的热刺激 - 反应曲线均向左偏移超过6摄氏度。相比之下,当在热板上对这些动物进行测试时,刺激 - 反应偏移小于2摄氏度。当通过测量对红外加热的爪退缩(足底测试)来测试热敏感性时,保留神经损伤大鼠的热痛觉过敏证据甚至更少。从所使用的测试以及所研究的动物模型的角度讨论了热痛觉过敏测试依赖性程度的影响。有人认为,动态热操作性任务揭示了神经病理性损伤相关的疼痛样行为与整个生物体的相关性。