Does experienced pain affects local brain volumes? Insights from a clinical acute pain model

  1. Laura Torrecillas-Martínez 1
  2. Andrés Catena 2
  3. Francisco O'Valle 3
  4. Miguel Padial-Molina 4
  5. Pablo Galindo-Moreno 4
  1. 1 University of Pennsylvania
    info

    University of Pennsylvania

    Filadelfia, Estados Unidos

    ROR https://ror.org/00b30xv10

  2. 2 Universidad de Granada, Departamento de Psicología Experimental
  3. 3 Universidad de Granada, Departamento de Patología
  4. 4 Universidad de Granada, Departamento de Estomatología
Mostrar afiliaciones +
Revista:
International journal of clinical and health psychology

ISSN: 1697-2600

Año de publicación: 2019

Volumen: 19

Número: 2

Páginas: 115-123

Tipo: Artículo

DOI: 10.1016/J.IJCHP.2019.01.001 DIALNET GOOGLE SCHOLAR lock_openAcceso abierto editor

Otras publicaciones en: International journal of clinical and health psychology

Resumen

Antecedentes/Objetivo:Se trata de determinar la asociación entre dolor percibido y morfometría cerebral en tres etapas postquirúrgicas (anestesia, dolor y analgesia), en un modelo de dolor agudo. Método:Se obtuvo una imagen cerebral estructural de alta resolución y posteriormente se extrajeron los terceros molares mandibulares impactados. Se realizó un análisis morfométrico para determinar volumen cerebral y forma de núcleos subcorticales. Se realizaron análisis de regresión múltiple, siendo la intensidad del dolor el predictor, y el volumen y la forma de los núcleos subcorticales, medidos pre-cirugía, las variables dependientes. Resultados:El dolor experimentado fue mayor en la etapa de dolor que en las de anestesia y analgesia, y mayor en anestesia que en analgesia. El dolor se asoció con el volumen de materia gris en áreas corticales (insula, giros frontal medial y temporal, precuneus y cingulado anterior) y subcorticales (hipocampo, tálamo, putamen y amígdala). El número de áreas asociadas al dolor experimentado fue mayor en la etapa de dolor que en las de anestesia y analgesia. Conclusiones:La relación entre volumen cerebral regional y forma de núcleos subcorticales con la intensidad del dolor no es fijo, sino que varía en función de la etapa post-quirúrgica (magnitud del dolor).

Ver financiación

Información de financiación

This investigation was partially supported by Research Groups #CTS-138, #CTS-176 and #CTS-1028. ( Junta de Andalucía, Spain). LTM also was supported by the Talentia Scholarship Program of the Regional Ministry for Innovation, Science and Enterprise (Junta de Andalucía) and this research was conducted as part of her PDh project. The authors would like to thank to Unidad de Excelencia Salud, Comportamiento y Cerebro.

Financiadores

Referencias bibliográficas

  • Apkarian, A.V., Mutso, A.A., Centeno, M.V., Kan, L., Wu, M., Levinstein, M., Banisadr, G., Gobeske, K.T., Miller, R.J., Radulovic, J., Hen, R., Kessler, J.A., Role of adult hippocampal neurogenesis in persistent pain. Pain 157 (2015), 418–428, 10.1097/j.pain.0000000000000332.
  • Apkarian, A.V., Sosa, Y., Sonty, S., Levy, R.M., Harden, R.N., Parrish, T.B., Gitelman, D.R., Chronic back pain is associated with decreased prefrontal and thalamic gray matter density. Journal of Neuroscience 24 (2004), 10410–10415, 10.1523/JNEUROSCI. 2541-04.2004.
  • Ashburner, J., A fast diffeomorphic image registration algorithm. NeuroImage 38 (2007), 95–113, 10.1016/j.neuroimage.2007.07.007.
  • Atlas, L.Y., Lindquist, M.A., Bolger, N., Wager, T.D., Brain mediators of the effects of noxious heat on pain. Pain 155 (2014), 1632–1648, 10.1016/j.pain.2014.05.015.
  • Avivi-Arber, L., Lee, J.C., Sessle, B.J., Dental Occlusal Changes Induce Motor Cortex Neuroplasticity. Journal of Dental Research 94 (2015), 1757–1764, 10.1177/0022034515602478.
  • Baliki, M.N., Apkarian, A.V., Nociception, Pain Negative Moods, and Behavior Selection. Neuron 87 (2015), 474–491, 10.1016/j.neuron.2015.06.005.
  • Baliki, M.N., Geha, P.Y., Apkarian, A.V., Chialvo, D.R., Beyond feeling: Chronic pain hurts the brain, disrupting the default-mode network dynamics. Journal of Neuroscience 28 (2008), 1398–1403, 10.1523/JNEUROSCI. 4123-07.2008.
  • Baliki, M.N., Petre, B., Torbey, S., Herrmann, K.M., Huang, L., Schnitzer, T.J., Fields, H.L., Apkarian, A.V., Corticostriatal functional connectivity predicts transition to chronic back pain. Nature Neuroscience 15 (2012), 1117–1119 https://doi.org/10.1038/nn.3153.
  • Barad, M.J., Ueno, T., Younger, J., Chatterjee, N., Mackey, S., Complex regional pain syndrome is associated with structural abnormalities in pain-related regions of the human brain. Journal of Pain 15 (2014), 197–203, 10.1016/j.jpain.2013.10.011.
  • Berger, S.E., Vachon-Presseau, É., Abdullah, T.B., Baria, A.T., Schnitzer, T.J., Apkarian, A.V., Hippocampal morphology mediates biased memories of chronic pain. NeuroImage 166 (2018), 86–98, 10.1016/j.neuroimage.2017.10.030.
  • Catena, A., Martínez-Zaldívar, C., Diaz-Piedra, C., Torres-Espínola, F.J., Brandi, P., Pérez-García, M., Decsi, T., Koletzko, B., Campoy, C., On the relationship between head circumference, brain size, prenatal long-chain PUFA/5-methyltetrahydrofolate supplementation and cognitive abilities during childhood. British Journal of Nutrition 29 (2017), 1–9, 10.1017/S0007114516004281.
  • Cauda, F., Palermo, S., Costa, T., Torta, R., Duca, S., Vercelli, U., Geminiani, G., Torta, D.M., Gray matter alterations in chronic pain: A network-oriented meta-analytic approach. NeuroImage Clinical 4 (2014), 676–686, 10.1016/j.nicl.2014.04.007.
  • Coppieters, I., Meeus, M., Kregel, J., Caeyenberghs, K., De Pauw, R., Goubert, D., Cagnie, B., Relations between brain alterations and clinical pain measures in chronic musculoskeletal pain: A systematic review. Journal of Pain 17 (2016), 949–962, 10.1016/j.jpain.2016.04.005.
  • DaSilva, A.F., Becerra, L., Pendse, G., Chizh, B., Tully, S., Borsook, D., Colocalized structural and functional changes in the cortex of patients with trigeminal neuropathic pain. PloS one, 3, 2008, e3396, 10.1371/journal.pone.0003396.
  • Diaz-Piedra, C., Catena, A., Miro, E., Martinez, M.P., Sanchez, A.I., Buela-Casal, G., The impact of pain on anxiety and depression is mediated by objective and subjective sleep characteristics in fibromyalgia patients. Clinical Journal of Pain 30 (2014), 852–859 https://doi.org/10.1097/AJP. 0000000000000040.
  • Emerson, N.M., Zeidan, F., Lobanov, O., Hadsel, V., Martucci, M.S., Quevedo, K.T., Starr, A.S., Nahman-Averbuch, C.J., Weissman-Fogel, H., Granovsky, I., Yarnitsky, Y., Coghill, D.R.C., Pain sensitivity is inversely related to regional grey matter density in the brain. Pain 15 (2014), 566–573, 10.1016/j.pain.2013.12.004.
  • Erpelding, N., Moayedi, M., Davis, K.D., Cortical thickness correlates of pain and temperature sensitivity. Pain 153 (2012), 1602–1609, 10.1016/j.pain.2012.03.012.
  • Ezzati, A., Zimmerman, M.E., Katz, M.J., Sundermann, E.E., Smith, J.L., Lipton, M.L., Lipton, R.B., Hippocampal subfields differentially correlate with chronic pain in older adults. Brain Research 1573 (2014), 54–62, 10.1016/j.brainres.2014.05.025.
  • Garcia-Larrea, L., Peyron, R., Pain matrices and neuropathic pain matrices: A review. Pain, 154 Suppl 1 (2013), S29–S43, 10.1016/j.pain.2013.09.001.
  • Geha, P.Y., Baliki, M.N., Harden, R.N., Bauer, W.R., Parrish, T.B., Apkarian, A.V., The brain in chronic CRPS pain: Abnormal gray-white matter interactions in emotional and autonomic regions. Neuron 60 (2008), 570–581, 10.1016/j.neuron.2008.08.022.
  • Gerstner, G., Ichesco, E., Quintero, A., Schmidt-Wilcke, T., Changes in regional gray and white matter volume in patients with myofascial-type temporomandibular disorders: a voxel-based morphometry study. Journal of Orofacial Pain 25 (2011), 99–106.
  • Grant, J.A., Courtemanche, J., Rainville, P., A non-elaborative mental stance and decoupling of executive and pain-related cortices predicts low pain sensitivity in Zen meditators. Pain 152 (2011), 150–156, 10.1016/j.pain.2010.10.006.
  • Hayasaka, S., Phan, K.L., Liberzon, I., Worsley, K., Nichols, J.T.E., Nonstationary cluster-size inference with random field and permutation methods. Neuroimage 22 (2004), 676–687, 10.1016/j.neuroimage.2004.01.041.
  • Kairys, A.E., Schmidt-Wilcke, T., Puiu, T., Ichesco, E., Labus, J.S., Martucci, K., Farmer, M.A., Ness, T.J., Deutsch, G., Mayer, E.A., Mackey, S., Apkarian, A.V., Maravilla, K., Clauw, D.J., Harris, R.E., Increased brain gray matter in the primary somatosensory cortex is associated with increased pain and mood disturbance in patients with interstitial cystitis/painful bladder syndrome. Journal of Urology. 193 (2015), 131–137, 10.1016/j.juro.2014.08.042.
  • Kennedy, K.M., Erickson, K.I., Rodrigue, K.M., Voss, M.W., Colcombe, S.J., Kramer, A.F., Acker, J.D., Raz, N., Age-related differences in regional brain volumes: A comparison of optimized voxel-based morphometry to manual volumetry. Neurobiology of Aging 30 (2009), 1657–1676, 10.1016/j.neurobiolaging.2007.12.020.
  • Khan, S.A., Keaser, M.L., Meiller, T.F., Seminowicz, D.A., Altered structure and function in the hippocampus and medial prefrontal cortex in patients with burning mouth syndrome. Pain 155 (2014), 1472–1480, 10.1016/j.pain.2014.04.022.
  • Krause, T., Asseyer, S., Taskin, B., Floel, A., Witte, A.V., Mueller, K., Fiebach, J.B., Villringer, K., Villringer, A., Jungehulsing, G.J., The Cortical Signature of Central Poststroke Pain: Gray Matter Decreases in Somatosensory. Insular, and Prefrontal Cortices. Cerebral Cortex 26 (2014), 80–88, 10.1093/cercor/bhu177.
  • Kuchinad, A., Schweinhardt, P., Seminowicz, D.A., Wood, P.B., Chizh, B.A., Bushnell, M.C., Accelerated brain gray matter loss in fibromyalgia patients: Premature aging of the brain?. Journal of Neuroscience 27 (2007), 4004–4007, 10.1523/JNEUROSCI. 0098-07.2007.
  • Lazaridou, A., Kim, J., Cahalan, C.M., Loggia, M.L., Franceschelli, O., Berna, C., Schur, P., Napadow, V., Edwards, R.R., Effects of cognitive-behavioral therapy (CBT)on brain connectivity supporting catastrophizing in fibromyalgia. Clinical Journal of Pain, 33, 2017, 215, 10.1097/AJP. 0000000000000422.
  • Li, M., Yan, J., Li, S., Wang, T., Zhan, W., Wen, H., Ma, X., Zhang, Y., Tian, J., Jiang, G., Reduced volume of gray matter in patients with trigeminal neuralgia. Brain Imaging and Behavior 11 (2017), 486–492, 10.1007/s11682-016-9529-2.
  • Loggia, M.L., Kim, J., Gollub, R.L., Vangel, M.G., Kirsch, I., Kong, J., Wasan, A.D., Napadow, V., Default mode network connectivity encodes clinical pain: An arterial spin labeling study. Pain 154 (2013), 24–33, 10.1016/j.pain.2012.07.029.
  • Maihöfner, C., Handwerker, H.O., Neundorfer, B., Birklein, F., Patterns of cortical reorganization in complex regional pain syndrome. Neurology 61 (2003), 1707–1715, 10.1212/01.WNL. 0000098939.02752.8E.
  • Mansour, A.R., Baliki, M.N., Huang, L., Torbey, S., Herrmann, K.M., Schnitzer, T.J., Apkarian, A.V., Brain white matter structural properties predict transition to chronic pain. Pain 154 (2013), 2160–2168, 10.1016/j.pain.2013.06.044.
  • Martikainen, I.K., Nuechterlein, E.B., Pecina, M., Love, T.M., Cummiford, C.M., Green, C.R., Stohler, C.S., Zubieta, J.K., Chronic Back Pain Is Associated with Alterations in Dopamine Neurotransmission in the Ventral Striatum. Journal of Neuroscience 35 (2015), 9957–9965, 10.1523/JNEUROSCI. 4605-14.2015.
  • Megías, A., Petrova, D., Navas, J.F., Cándido, A., Maldonado, A., Catena, A., Neuroanatomical variations as a function of experience in a complex daily task: A VBM and DTI study on driving experience. Brain Imaging and Behavior 12 (2018), 653–662, 10.1007/s11682-017-9725-8.
  • Moayedi, M., Weissman-Fogel, I., Crawley, A.P., Goldberg, M.B., Freeman, B.V., Tenenbaum, H.C., Davis, K.D., Contribution of chronic pain and neuroticism to abnormal forebrain gray matter in patients with temporomandibular disorder. NeuroImage 55 (2011), 277–286, 10.1016/j.neuroimage.2010.12.013.
  • Moayedi, M., Weissman-Fogel, I., Salomons, T.V., Crawley, A., Goldberg,.P., Freeman, M.B., Tenenbaum, B.V., Davis, H.C.K.D., White matter brain and trigeminal nerve abnormalities in temporomandibular disorder. Pain 153 (2012), 1467–1477, 10.1016/j.pain.2012.04.003.
  • Moore, R.A., Gay-Escoda, C., Figueiredo, R., Tóth-Bagi, Z., Dietrich, Z., Milleri, S., Torres-Lagares, D., Hill, C.M., García-García, A., Coulthard, P., Wojtowicz, A., Matenko, D., Peñarrocha-Diago, M., Cuadripani, S., Pizà-Vallespir, B., Guerrero-Bayón, C., Bertolotti, M., Contini, M.P., Scartoni, S., Nizzardo, A., Capriati, A., Magg, C.M., Dexketoprofen/tramadol: Randomised double-blind trial and confirmation of empirical theory of combination analgesics in acute pain. Journal of Headache and Pain, 16, 2015, 541, 10.1186/s10194-015-0541-5.
  • Ortega, F.B., Campos, D., Cadenas-Sanchez, C., Altmäe, S., Martínez-Zaldívar, C., Martín-Matillas, M., Catena, A., Campoy, C., Physical fitness and shapes of subcortical brain structures in children. British Journal of Nutrition 27 (2017), 1–10, 10.1017/S0007114516001239.
  • Patenaude, B., Smith, S.M., Kennedy, D.N., Jenkinson, M., A Bayesian model of shape and appearance for subcortical brain segmentation. NeuroImage 56 (2011), 907–922, 10.1016/j.neuroimage.2011.02.046.
  • Ramos-Alvarez, M.M., Moreno-Fernández, M.M., Valdés-Conroy, B., Catena, A., Criteria of the peerreview process for publication of experimental and quasi-experimental research in Psychology: A guide for creating research papers. International Journal of Clinical and Health Psychology 8 (2008), 751–764.
  • Rodriguez-Raecke, R., Niemeier, A., Ihle, K., Ruether, W., May, A., Structural brain changes in chronic pain reflect probably neither damage nor atrophy. PloS one, 8, 2013, e54475, 10.1371/journal.pone.0054475.
  • Salomons, T.V., Iannetti, G.D., Liang, M., Wood, J.N., The “Pain Matrix” in Pain-Free Individuals. JAMA Neurology 73 (2016), 755–756, 10.1001/jamaneurol.2016.0653.
  • Schmidt-Wilcke, T., Ganssbauer, S., Neuner, T., Bogdahn, U., May, A., Subtle grey matter changes between migraine patients and healthy controls. Cephalalgia 28 (2008), 1–4, 10.1111/j.1468-2982.2007.01428.x.
  • Schmidt-Wilcke, T., Leinisch, E., Ganssbauer, S., Draganski, B., Bogdahn, U., Altmeppen, J., May, A., Affective components and intensity of pain correlate with structural differences in gray matter in chronic back pain patients. Pain 125 (2006), 89–97, 10.1016/j.pain.2006.05.004.
  • Schmieder, G., Stankov, G., Zerle, G., Schinzel, S., Brune, K., Observer-blind study with metamizole versus tramadol and butylscopolamine in acute biliary colic pain. Arzneimittel-Forschung 43 (1993), 1216–1221.
  • Segerdahl, A.R., Mezue, M., Okell, T.W., Farrar, J.T., Tracey, I., The dorsal posterior insula subserves a fundamental role in human pain. Nature Neuroscience 18 (2015), 499–500 https://doi.org/10.1038/nn.3969.
  • Seminowicz, D.A., Shpaner, M., Keaser, M.L., Krauthamer, G.M., Mantegna, J., Dumas, J.A., Newhouse, P.A., Filippi, C.G., Keefe, F.J., Naylor, M.R., Cognitive-behavioral therapy increases prefrontal cortex gray matter in patients with chronic pain. Journal of Pain 14 (2013), 1573–1584, 10.1016/j.jpain.2013.07.020.
  • Seminowicz, D.A., Wideman, T.H., Naso, L., Hatami-Khoroushahi, Z., Fallatah, S., Ware, M.A., Jarzem, P., Bushnell, M.C., Shir, Y., Ouellet, J.A., Stone, L.S., Effective treatment of chronic low back pain in humans reverses abnormal brain anatomy and function. Journal of Neuroscience 31 (2011), 7540–7550, 10.1523/JNEUROSCI. 5280-10.2011.
  • Senes, A.M., Calvo, A.M., Colombini-Ishikiriama, B.L., Goncalves, P.Z., Dionisio, T.J., Santána, E., Brozoski, D.T., Lauris, J.R.P., Faria, F.A.C., Santos, C.F., Efficacy and Safety of 2% and 4% Articaine for Lower Third Molar Surgery. Journal Dental Research 94 (2015), 166S–173S, 10.1177/0022034515596313.
  • Song, X.W., Dong, Z.Y., Long, X.Y., Li, S.F., Zuo, X.N., Zhu, C.Z., He, Y., Yan, C.G., Zang, Y.F., REST: A toolkit for resting-state functional magnetic resonance imaging data processing. PloS one, 6, 2011, e25031, 10.1371/journal.pone.0025031.
  • Starr, C.J., Sawaki, L., Wittenberg, G.F., Burdette, J.H., Oshiro, Y., Quevedo, A.S., McHaffie, J.G., Coghill, R.C., The contribution of the putamen to sensory aspects of pain: Insights from structural connectivity and brain lesions. Brain 134 (2011), 1987–2004 https://doi.org/10.1093/brain/awr117.
  • Tanasescu, R., Cottam, W.J., Condon, L., Tench, C.R., Auer, D.P., Functional reorganisation in chronic pain and neural correlates of pain sensitisation: A coordinate based meta-analysis of 266 cutaneous pain fMRI studies. Neuroscience and Biobehavioral Reviews 68 (2016), 120–133, 10.1016/j.neubiorev.2016.04.001.
  • Teutsch, S., Herken, W., Bingel, U., Schoell, E., May, A., Changes in brain gray matter due to repetitive painful stimulation. NeuroImage 42 (2008), 845–849 10.1016/j.neuroimage.2008.05.044.
  • Tracey, I., Bushnell, M.C., How neuroimaging studies have challenged us to rethink: Is chronic pain a disease?. Journal of Pain 10 (2009), 1113–1120, 10.1016/j.jpain.2009.09.001.
  • Tsai, Y.H., Yuan, R., Patel, D., Chandrasekaran, S., Weng, H.H., Yang, J.T., Lin, C.P., Biswal, B.B., Altered structure and functional connection in patients with classical trigeminal neuralgia. Human Brain Mapping 39 (2018), 609–621 https://doi.org/10.1002/hbm.23696.
  • Vachon-Presseau, E., Roy, M., Martel, M.O., Caron, E., Marin, M.F., Chen, J., Albouy, G., Plante, I., Sullivan, M.J., Lupien, S.J., Rainville, P., The stress model of chronic pain: Evidence from basal cortisol and hippocampal structure and function in humans. Brain 136 (2013), 815–827 https://doi.org/10.1093/brain/aws371.
  • Valet, M., Gundelm, H., Sprenger, T., Sorg, C., Muhlau, M., Zimmer, C., Henningsen, P., Tolle, T.R., Patients with pain disorder show gray-matter loss in pain-processing structures: A voxel-based morphometric study. Psychosomatic Medicine, 71, 2009, 4 https: // doi.1097/PSY.0b013e31818d1e02.
  • Wilcox, S.L., Gustin, S.M., Macey, P.M., Peck, C.C., Murray, G.M., Henderson, L.A., Anatomical changes within the medullary dorsal horn in chronic temporomandibular disorder pain. NeuroImage 117 (2015), 258–266 https://doi.10.1016/j.neuroimage.2015.05.014.
Fuente de los datos: Dialnet