题名

Spatiotemporal Changes of Neuronal Responses in the Primary Somatosensory Cortex to Noxious Tail Stimulation in Awake and Pentobarbital-Anesthetized Rats

DOI

10.4077/CJP.2015.BAD291

作者

Chung-Chih Kuo;Jye-Chang Lee;Ruei-Jen Chiou;Meng-Li Tsai;Chen-Tung Yen

关键词

ensemble single-unit activity ; laser evoked potential ; microelectrode array ; nociception ; pain ; sodium pentobarbital

期刊名称

The Chinese Journal of Physiology

卷期/出版年月

58卷5期(2015 / 10 / 31)

页次

332 - 342

内容语文

英文
英文摘要

Primary somatosensory cortex (SI) is a key area in the processing of nociceptor inputs to our consciousness. To clarify the columnar and laminar organization of SI for pain processing, we compared spatiotemporal changes in neuronal activities of the primary sensorimotor cortex (SmI) of the rat in response to noxious laser heat stimulation applied to the mid-tail. Longitudinal and vertical array microelectrodes were chronically implanted in the cerebral cortex. Evoked neuronal activities, including intracortical local field potentials (LFP) and ensemble single-unit activity (SU) around SmI were simultaneously recorded. The effect of pentobarbital on the neuronal responses was evaluated in comparison with the neuronal responses in conscious animals to explore the potential substrate of nociceptive processing in the conscious state. The results from the experiment with longitudinal microelectrode arrays indicated that noxious stimulation induced a neuronal response which was spread widely around the SmI of the conscious rat, and the range of neuronal responses was limited to the tail region of the SmI under anesthesia. The results from the experiment with vertical microelectrode arrays showed the universal neuronal responses through all cortical layers of the SmI in conscious rats, and sodium pentobarbital suppressed these neuronal responses in the supragranular layers significantly relative to the deeper layers and basal activity. These results imply that a wider range of cortical activation, both in the horizontal or vertical dimension, might be important for nociceptive processing in the conscious state.
主题分类 醫藥衛生 > 基礎醫學
参考文献
  1. Albe-Fessar, D.,Berkley, K.J.,Kruger, L.,Ralston, H.J., 3rd,Willis, W.D., Jr.(1985).Diencephalic mechanisms of pain sensation.Brain Res. Rev.,356,217-296.
  2. Allison, T.,Hume, A.L.(1981).A comparative analysis of short-latency somatosensory evoked potentials in man, monkey, cat, and rat.Exp. Neurol.,72,592-611.
  3. Antognini, J.F.(1997).The relationship among brain, spinal cord and anesthetic requirements.Med. Hypotheses,48,83-87.
  4. Arezzo, J.C.,Vaughan, H.G., Jr.,Legatt, A.D.(1981).Topography and intracranial sources of somatosensory evoked potentials in the monkey. II. Cortical components.Electroencephalogr. Clin. Neurophysiol.,51,1-18.
  5. Bingel, U.,Rose, M.,Glascher, J.,Buchel, C.(2007).fMRI reveals how pain modulates visual object processing in the ventral visual stream.Neuron,55,157-167.
  6. Chudler, E.H.,Anton, F.,Dubner, R.,Kenshalo, D.R., Jr.(1990).Responses of nociceptive SI neurons in monkeys and pain sensation in humans elicited by noxious thermal stimulation: effect of interstimulus interval.J. Neurophysiol.,63,559-569.
  7. Dong, Y.F.,Tang, J.S.,Yuan, B.,Jia, H.(1999).Morphine applied to the thalamic nucleus submedius produces a naloxone reversible antinociceptive effect in the rat.Neurosci. Lett.,271,17-20.
  8. Eccleston, C.,Crombez, G.(1999).Pain demands attention: a cognitive-affective model of the interruptive function of pain.Psychol. Bull.,125,356-366.
  9. Feldmeyer, D.,Lubke, J.,Silver, R.A.,Sakmann, B.(2002).Synaptic connections between layer 4 spiny neurone-layer 2/3 pyramidal cell pairs in juvenile rat barrel cortex: physiology and anatomy of interlaminar signalling within a cortical column.J. Physiol.,538,803-822.
  10. Feldmeyer, D.,Roth, A.,Sakmann, B.(2005).Monosynaptic connections between pairs of spiny stellate cells in layer 4 and pyramidal cells in layer 5A indicate that lemniscal and paralemniscal afferent pathways converge in the infragranular somatosensory cortex.J. Neurosci.,25,3423-3431.
  11. Granmo, M.,Jensen, T.,Schouenborg, J.(2013).Nociceptive transmission to rat primary somatosensory cortex-comparison of sedative and analgesic effects.PLoS One,8,e53966.
  12. Hofbauer, R.K.,Rainville, P.,Duncan, G.H.,Bushnell, M.C.(2001).Cortical representation of the sensory dimension of pain.J. Neurophysiol.,86,402-411.
  13. Kalliomaki, J.,Weng, H.R.,Nilsson, H.J.,Schouenborg, J.(1993).Nociceptive C fibre input to the primary somatosensory cortex (SI). A field potential study in the rat.Brain Res.,622,262-270.
  14. Kalliomaki, J.,Weng, H.R.,Nilsson, H.J.,Yu, Y.B.,Schouenborg, J.(1993).Multiple spinal pathways mediate cutaneous nociceptive C fibre input to the primary somatosensory cortex (SI) in the rat.Brain Res.,622,271-279.
  15. Kenshalo, D.R.(ed.)(1968).The Skin Senses.Springfield, IL, USA:Thomas, C.C..
  16. Kenshalo, D.R., Jr.,Isensee, O.(1983).Responses of primate SI cortical neurons to noxious stimuli.J. Neurophysiol.,50,1479-1496.
  17. Kuo, C.C.,Chiou, R.J.,Liang, K.C.,Yen, C.T.(2009).Differential involvement of the anterior cingulate and primary sensorimotor cortices in sensory and affective functions of pain.J. Neurophysiol.,101,1201-1210.
  18. Kuo, C.C.,Yen, C.T.(2005).Comparison of anterior cingulate and primary somatosensory neuronal responses to noxious laser-heat stimuli in conscious, behaving rats.J. Neurophysiol.,94,1825-1836.
  19. Laaris, N.,Carlson, G.C.,Keller, A.(2000).Thalamic-evoked synaptic interactions in barrel cortex revealed by optical imaging.J. Neurosci.,20,1529-1537.
  20. Lamour, Y.,Guilbaud, G.,Willer, J.C.(1983).Rat somatosensory (SmI) cortex: II. Laminar and columnar organization of noxious and non-noxious inputs.Exp. Brain Res.,49,46-54.
  21. Lamour, Y.,Willer, J.C.,Guilbaud, G.(1983).Rat somatosensory (SmI) cortex: I. Characteristics of neuronal responses to noxious stimulation and comparison with responses to non-noxious stimulation.Exp. Brain Res.,49,35-45.
  22. Lee, J.C.,Yen, C.T.(2001).Frequency coding ability of the somatosensory thalamocortical system and its modulation by anesthesia depth.Chinese J. Physiol.,44,89-95.
  23. Lubke, J.,Roth, A.,Feldmeyer, D.,Sakmann, B.(2003).Morphometric analysis of the columnar innervation domain of neurons connecting layer 4 and layer 2/3 of juvenile rat barrel cortex.Cereb. Cortex,13,1051-1063.
  24. Meyer, H.S.,Schwarz, D.,Wimmer, V.C.,Schmitt, A.C.,Kerr, J.N.,Sakmann, B.,Helmstaedter, M.(2011).Inhibitory interneurons in a cortical column form hot zones of inhibition in layers 2 and 5A.Proc. Natl. Acad. Sci. USA,108,16807-16812.
  25. Nuwer, M.R.(1998).Fundamentals of evoked potentials and common clinical applications today.Electroencephalogr. Clin. Neurophysiol.,106,142-148.
  26. Petersen, C.C.,Hahn, T.T.,Mehta, M.,Grinvald, A.,Sakmann, B.(2003).Interaction of sensory responses with spontaneous depolarization in layer 2/3 barrel cortex.Proc. Natl. Acad. Sci. USA,100,13638-13643.
  27. Qiao, Z.M.,Wang, J.Y.,Han, J.S.,Luo, F.(2008).Dynamic processing of nociception in cortical network in conscious rats: a laser-evoked field potential study.Cell. Mol. Neurobiol.,28,671-687.
  28. Rainville, P.,Carrier, B.,Hofbauer, R.K.,Bushnell, M.C.,Duncan, G.H.(1999).Dissociation of sensory and affective dimensions of pain using hypnotic modulation.Pain,82,159-171.
  29. Sato, H.,Shimanuki, Y.,Saito, M.,Toyoda, H.,Nokubi, T.,Maeda, Y.,Yamamoto, T.,Kang, Y.(2008).Differential columnar processing in local circuits of barrel and insular cortices.J. Neurosci.,28,3076-3089.
  30. Schubert, D.,Kotter, R.,Luhmann, H.J.,Staiger, J.F.(2006).Morphology, electrophysiology and functional input connectivity of pyramidal neurons characterizes a genuine layer Va in the primary somatosensory cortex.Cereb. Cortex,16,223-236.
  31. Shaw, F.Z.,Chen, R.F.,Tsao, H.W.,Yen, C.T.(1999).Comparison of touch- and laser heat-evoked cortical field potentials in conscious rats.Brain Res.,824,183-196.
  32. Shaw, F.Z.,Chen, R.F.,Tsao, H.W.,Yen, C.T.(1999).A multichannel system for recording and analysis of cortical field potentials in freely moving rats.J. Neurosci. Methods,88,33-43.
  33. Shaw, F.Z.,Chen, R.F.,Yen, C.T.(2001).Dynamic changes of touchand laser heat-evoked field potentials of primary somatosensory cortex in awake and pentobarbital-anesthetized rats.Brain Res.,911,105-115.
  34. Shyu, B.C.(ed.),Chien, C.C.(ed.)(2009).Nocrveptive and Neuropathic Pain: Mechanisms and Treatments.Kerala, India:Research Signpost.
  35. Sun, J.J.,Yang, J.W.,Shyu, B.C.(2006).Current source density analysis of laser heat-evoked intra-cortical field potentials in the primary somatosensory cortex of rats.Neuroscience,140,1321-1336.
  36. Toda, T.,Taoka, M.(2002).Hierarchical somesthetic processing of tongue inputs in the postcentral somatosensory cortex of conscious macaque monkeys.Exp. Brain Res.,147,243-251.
  37. Tsai, M.L.,Kuo, C.C.,Sun, W.Z.,Yen, C.T.(2004).Differential morphine effects on short- and long-latency laser-evoked cortical responses in the rat.Pain,110,665-674.
  38. Tsai, M.L.,Yen, C.T.(2003).A simple method for fabricating horizontal and vertical microwire arrays.J. Neurosci. Methods,131,107-110.
  39. Wang, N.,Zhang, Y.,Wang, J.Y.,Gao, G.,Luo, F.(2010).Effects of pentobarbital anesthesia on nociceptive processing in the medial and lateral pain pathways in rats.Neurosci. Bull.,26,188-196.
  40. Woolsey, T.A.,Van der Loos, H.(1970).The structural organization of layer IV in the somatosensory region (SI) of mouse cerebral cortex. The description of a cortical field composed of discrete cytoarchitectonic units.Brain Res.,17,205-242.
  41. Yen, C.T.,Huang, C.H.,Fu, S.E.(1994).Surface temperature change, cortical evoked potential and pain behavior elicited by CO2 lasers.Chinese J. Physiol.,37,193-199.
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