Summary
Focal brain stimulation (FBS) of the periaqueductal gray (PAG) produces reliable anti-nociception. The use of different electrode configurations alters the distribution of excitation as well as the locus of cells being stimulated, making it difficult to compare results across laboratories. This study compared the analgesic properties of bipolar electrodes delivering biphasic current and monopolar electrodes delivering either a biphasic or a monophasic current to the ventral PAG. Naloxone reversibility of the analgesia was also tested. Results indicate that biphasic current with either monopolar or bipolar electrodes is more likely to elicit analgesia than monophasic current using monopolar electrodes. Naloxone reversed the analgesia produced by the monopolar/monophasic model, but only attenuated the monopolar/biphasic FBS and did not affect the analgesia produced by the bipolar/biphasic configuration. Biphasic current delivered through bipolar electrodes results in the sequential activation of different cell populations. Use of bipolar electrodes may widen the distribution of excitation beyond that of either monopolar configuration. Thus, a wider neural field of excitation may cause a bleedover of the field of stimulation into two systems (one opiate and one nonopiate).
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Baskin DS, Mehler WR, Hosobuchi Y, Richardson DE, Adams JE, Flitter MA (1986) Autopsy analysis of the safety, efficacy and cartography of electrical stimulation of the central gray in humans. Brain Res 371:231–236
Cannon JT, Prieto GJ, Lee A, Liebeskind JC (1982) Evidence for opioid and non-opioid forms of stimulation-produced analgesia in the rat. Brain Res 243:315–321
Fardin F, Oliveras J-L, Besson J-M (1984a) A reinvestigation of the analgesic effects induced by stimulation of the peria-queductal gray matter in the rat. I. The production of behavioral side effects together with analgesia. Brain Res 306:105–123
Fardin V, Oliveras J-L, Besson J-M (1984b) A reinvestigation of the analgesic effects induced by stimulation of the periaqueductal gray matter in the rat. II. Differential characteristics of the analgesia induced by ventral and dorsal PAG stimulation. Brain Res 306:125–139
Fields HL, (1988) Sources of variability in the sensation of pain. Pain 33:195–200
Klatt DS, Guinan MJ, Culhane ES, Carstens E, Watkins LR (1988) The dorsal raphe nucleus: a re-evaluation of its proposed role in opiate analgesia systems. Brain Res 447:246–252
Mayer D, Wolfle T, Akil H, Carder B, Liebeskind J (1971) Analgesia from electrical stimulation in the brainstem of the rat. Science 174:1351–1354
Pellegrino L, Pellegrino A, Cushman A (1981) A stereotaxic atlas of the rat brain. Plenum Press, New York
Ranck Jr JB (1985) Which elements are excited in electrical stimulation of the mammalian nervous system. Brain Res 98:417–440
Ranck JB (1981) Extracellular stimulation. In: Patterson MM, Kesner RP (eds) Electrical stimulation research techniques. Academic Press, New York, pp 1–59
Reynolds D (1969) Surgery in the rat during electrical analgesia induced by focal brain stimulation. Science 164:444–445
Thorn BE, Applegate L, Johnson SW (1989) The relative efficacy of periaqueductal gray subdivisions and adjacent loci in ability to elicit analgesia and their naloxone reversibility. Behav Neurosci 103:644–665
Yaksh TL (1979) Central nervous system sites mediating opiate analgesia. Adv Pain Res Ther 3:411–426
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Thorn, B.E., Applegate, L. & Jones, K. The relative efficacy of monopolar vs. bipolar electrodes in stimulation-produced analgesia. Exp Brain Res 79, 266–270 (1990). https://doi.org/10.1007/BF00608235
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00608235