Abstract
Concerning the physiological correlates of pain, the brain stem is considered to be one core region that is activated by noxious input. In animal studies, different slopes of skin heating (SSH) with noxious heat led to activation in different columns of the midbrain periaqueductal gray (PAG). The present study aimed at finding a method for differentiating structures in PAG and other brain stem structures, which are associated with different qualities of pain in humans according to the structures that were associated with different behavioral significances to noxious thermal stimulation in animals. Brain activity was studied by functional MRI in healthy subjects in response to steep and shallow SSH with noxious heat. We found differential activation to different SSH in the PAG and the rostral ventromedial medulla (RVM). In a second experiment, we demonstrate that the different SSH were associated with different pain qualities. Our experiments provide evidence that brainstem structures, i.e., the PAG and the RVM, become differentially activated by different SSH. Therefore, different SSH can be utilized when brain stem structures are investigated and when it is aimed to activate these structures differentially. Moreover, percepts of first pain were elicited by shallow SSH whereas percepts of second pain were elicited by steep SSH. The stronger activation of these brain stem structures to SSH, eliciting percepts of second vs. first pain, might be of relevance for activating different coping strategies in response to the noxious input with the two types of SSH.
Highlights
Nociceptive stimulation evokes activity in a number of brain structures including the brain stem
We found activation to both slopes of skin heating (SSH) in the painful HOT conditions compared to baseline in an inferior part of the periaqueductal gray (PAG), probably including www.frontiersin.org nucleus Raphe dorsalis (NRD) according to (Paxinos and Huang, 1995) [t (15) = 3.354, p < 0.005, x, y, z: 0, −29, −20] (Figure 2A, No 3)
No significant differences were found for the comparison between steep and shallow SSH in the WARM conditions (PAG [t (15) = 0.18, p > 0.1], NRD [t (15) = 1.57, p > 0.1], and rostral ventromedial medulla (RVM) [t (15) = 0.53, p > 0.1])
Summary
Nociceptive stimulation evokes activity in a number of brain structures including the brain stem. Studies in rats indicate that brain stem structures related to nociception like the periaqueductal gray (PAG) and the nucleus Raphe magnus (NRM) in the rostral ventromedial medulla (RVM), are activated differentially by different slopes of skin heating (SSH) (Lumb et al, 2002; Lu et al, 2004; Parry et al, 2008). Placebo analgesia was directly associated with the activity of PAG and RVM (Eippert et al, 2009) This might be of clinical importance because a specific activation of the brain stem could be associated with a reduction of pain perception. Such a pain-modulation would be interesting especially for chronic pain patients
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