T. Alexy, S. Sangkatumvong, P. Connes, E. Pais, J. Tripette et al., Sickle cell disease: Selected aspects of pathophysiology, Clinical Hemorheology and Microcirculation, pp.155-166, 2010.

G. Aston-jones and J. D. Cohen, An Integrative Theory of Locus CoeruleusNorepinephrine Function: Adaptive Gain and Optimal Performance, Annu. Rev. Neurosci, vol.28, pp.403-450, 2005.

A. Balci, S. Karazincir, Y. Beyoglu, C. Cingiz, R. Davran et al., Quantitative Brain Diffusion-Tensor MRI Findings in Patients With Sickle Cell Disease, AJR Am. J. Roentgenol, vol.198, pp.1167-1174, 2012.

M. N. Baliki, B. Petre, S. Torbey, K. M. Herrmann, L. Huang et al., Corticostriatal functional connectivity predicts transition to chronic back pain, Nat. Neurosci, vol.15, pp.1117-1119, 2012.

S. K. Ballas, Pain management of sickle cell disease, Hematol. Oncol. Clin. North Am, vol.19, pp.785-802, 2005.

S. K. Ballas, K. Gupta, and P. Adams-graves, Sickle cell pain: A critical reappraisal, Blood, vol.120, pp.3647-3656, 2012.

A. B. Barrett, A. Palmieri, and B. A. Parris, The Prefrontal Cortex and Suggestion: Hypnosis vs. Placebo Effects, Front. Psychol, 2016.

E. E. Benarroch, The locus ceruleus norepinephrine system: Functional organization and potential clinical significance, 2009.

C. W. Berridge and E. D. Abercrombie, Relationship between locus coeruleus discharge rates and rates of norepinephrine release within neocortex as assessed by in vivo microdialysis, Neuroscience, vol.93, pp.1263-1270, 1999.

C. W. Berridge and B. D. Waterhouse, The locus coeruleus-noradrenergic system: modulation of behavioral state and state-dependent cognitive processes, Brain Res. Rev, vol.42, pp.33-84, 2003.

R. R. Bhatt, S. R. Martin, S. Evans, K. Lung, T. D. Coates et al., The effect of hypnosis on pain and peripheral blood flow in sickle-cell disease: a pilot study, J. Pain Res, vol.10, pp.1635-1644, 2017.

S. Birnbaum, K. T. Gobeske, J. Auerbach, J. R. Taylor, and A. F. Arnsten, A Role for Norepinephrine in Stress-Induced Cognitive Deficits: a-1-Adrenoceptor Mediation in the Prefrontal Cortex, Biol. Psychiatry, vol.46, pp.1266-1274, 1999.

K. G. Borelli, C. Ferreira-netto, N. C. Coimbra, and M. L. Brandão, Fos-like immunoreactivity in the brain associated with freezing or escape induced by inhibition of either glutamic acid decarboxylase or GABA A receptors in the dorsal periaqueductal gray, Brain Res, vol.1051, pp.100-111, 2005.

A. M. Brandow, C. L. Stucky, C. A. Hillery, R. G. Hoffmann, and J. A. Panepinto, Patients with sickle cell disease have increased sensitivity to cold and heat, Am. J. Hematol, vol.88, pp.37-43, 2013.

A. M. Brandow, R. A. Farley, and J. A. Panepinto, Neuropathic Pain in Patients With Sickle Cell Disease. Pediatr, Blood Cancer, vol.61, pp.512-517, 2014.

M. Brett, J. Anton, R. Valabrgue, and J. Poline, Region of interest analysis using an SPM toolbox, 8th International Conference on Functional Mapping of the Human Brain, 2002.

F. Brighina, A. Piazza, G. Vitello, A. Aloisio, A. Palermo et al., rTMS of the prefrontal cortex in the treatment of chronic migraine: a pilot study, J. Neurol. Sci, vol.227, pp.67-71, 2004.

M. Case, H. Zhang, J. Mundahl, Y. Datta, S. Nelson et al., Characterization of functional brain activity and connectivity using EEG and fMRI in patients with sickle cell disease, Neuroimage Clin, vol.14, pp.1-17, 2017.

M. Case, S. Shirinpour, H. Zhang, Y. H. Datta, S. C. Nelson et al., Increased Theta Band EEG Power in Sickle Cell Disease Patients, J. Pain Res, vol.11, pp.67-76, 2018.

G. Cataldo, S. Rajput, K. Gupta, and D. A. Simone, Sensitization of nociceptive spinal neurons contributes to pain in a transgenic model of sickle cell disease, Pain, vol.156, pp.722-730, 2015.

J. M. Cedarbaum and G. K. Aghajanian, Afferent projections to the rat locus coeruleus as determined by a retrograde tracing technique, J. Comp. Neurol, vol.178, pp.1-16, 1978.

R. R. Bhatt, NeuroImage: Clinical, vol.21, p.101686, 2019.

R. Chen, J. Krejza, M. Arkuszewski, R. A. Zimmerman, E. H. Herskovits et al., Brain morphometric analysis predicts decline of intelligence quotient in children with sickle cell disease: A preliminary study, Adv. Med. Sci, vol.62, pp.151-157, 2017.

T. D. Coates, P. Chalacheva, L. Zeltzer, and M. Khoo, Autonomic Nervous System Involvement in Sickle Cell Disease, Clin. Hemorheol. Microcirc, vol.68, issue.2-3, pp.251-262, 2018.

J. Coloigner, Y. Kim, A. Bush, S. Choi, M. C. Balderrama et al., Contrasting resting-state fMRI abnormalities from sickle and non-sickle anemia, PLoS One, vol.12, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01710679

R. Colombatti, M. Lucchetta, M. Montanaro, P. Rampazzo, M. Ermani et al., Cognition and the Default Mode Network in Children with Sickle Cell Disease: A Resting State Functional MRI Study, PLoS One, vol.11, 2016.

A. B. Conforto, A. L. Gonçalves, J. P. Mercante, V. Z. Guendler, J. R. Ferreira et al., Randomized, proof-of-principle clinical trial of active transcranial magnetic stimulation in chronic migraine, Cephalalgia, vol.34, pp.464-472, 2014.

P. Connes and T. D. Coates, Autonomic nervous system dysfunction: Implication in sickle cell disease, C. R. Biol, vol.336, pp.142-147, 2013.

A. Dahlström and K. Fuxe, Evidence for the existence of monoamine-containing neurons in the central nervous system, Acta Physiol. Scand, 1964.

J. W. Dalley, R. N. Cardinal, and T. W. Robbins, Prefrontal executive and cognitive functions in rodents: neural and neurochemical substrates, Neurosci. Biobehav. Rev, vol.28, pp.771-784, 2004.

D. S. Darbari, J. P. Hampson, E. Ichesco, N. Kadom, G. Vezina et al., Frequency of Hospitalizations for Pain and Association with Altered Brain Network Connectivity in Sickle Cell Disease, J. Pain, vol.16, pp.1077-1086, 2015.

C. Destrieux, B. Fischl, A. Dale, and E. Halgren, Automatic parcellation of human cortical gyri and sulci using standard anatomical nomenclature, NeuroImage, vol.53, pp.1-15, 2010.

F. Dias-antunes, V. Goltran-sobral-propheta, H. Andrade-vasconcelos, and R. Cipolotti, Neuropathic pain in patients with sickle cell disease: a cross-sectional study assessing teens and young adults, Ann. Hematol, vol.96, pp.1121-1125, 2017.

M. Downes, F. J. Kirkham, P. T. Telfer, and M. De-haan, Assessment of Executive Functions in Preschool Children With Sickle Cell Anemia, J. Int. Neuropsychol. Soc, vol.24, pp.949-954, 2018.

M. Downes, F. J. Kirkham, C. Berg, P. Telfer, and M. De-haan, Executive performance on the preschool executive task assessment in children with sickle cell anemia and matched controls, Child Neuropsychol, vol.25, pp.278-285, 2019.

H. Eichenbaum, Prefrontal-hippocampal interactions in episodic memory, Nat. Rev. Neurosci, 2017.

R. Elliott, Executive functions and their disorders, Br. Med. Bull, 2003.

S. M. Gustin, C. C. Peck, L. B. Cheney, P. M. Macey, G. M. Murray et al., Pain and Plasticity: Is Chronic Pain Always Associated with Somatosensory Cortex Activity and Reorganization?, J. Neurosci, vol.32, pp.14874-14884, 2012.

A. Hänsel and R. Von-känel, The ventro-medial prefrontal cortex: a major link between the autonomic nervous system, regulation of emotion, and stress reactivity?, Biopsychosoc. Med, vol.2, 2008.

K. R. Hwang, S. H. Chan, and J. Y. Chan, Noradrenergic neurotransmission at PVN in locus ceruleus-induced baroreflex suppression in rats, Am. J. Phys, 1998.

A. Irimia, M. C. Chambers, C. M. Torgerson, and J. D. Van-horn, Circular representation of human cortical networks for subject and population-level connectomic visualization, NeuroImage, vol.60, pp.1340-1351, 2012.

E. Jacob, V. W. Chan, C. Hodge, L. Zeltzer, D. Zurakowski et al., Sensory and thermal quantitative testing in children with sickle cell disease, J. Pediatr. Hematol. Oncol, vol.37, pp.185-189, 2015.

M. P. Jensen and D. R. Patterson, Hypnotic approaches for chronic pain management: Clinical implications of recent research findings, Am. Psychol, vol.69, pp.167-177, 2014.

M. P. Jensen, M. A. Day, and J. Miró, Neuromodulatory treatments for chronic pain: efficacy and mechanisms, Nat. Rev. Neurol, vol.10, pp.167-178, 2014.

J. D. Jett and D. A. Morilak, Too Much of a Good Thing: Blocking Noradrenergic Facilitation in Medial Prefrontal Cortex Prevents the Detrimental Effects of Chronic Stress on Cognition, Neuropsychopharmacology, vol.38, pp.585-595, 2012.

B. E. Jones and T. Z. Yang, The efferent projections from the reticular formation and the locus coeruleus studied by anterograde and retrograde axonal transport in the rat, J. Comp. Neurol, vol.242, pp.56-92, 1985.

R. Kaushal, B. K. Taylor, A. B. Jamal, L. Zhang, F. Ma et al., GABA-A receptor activity in the noradrenergic locus coeruleus drives trigeminal neuropathic pain in the rat; contribution of NAÎ ± 1 receptors in the medial prefrontal cortex, Neuroscience, vol.334, pp.148-159, 2016.

N. I. Keren, C. T. Lozar, K. C. Harris, P. S. Morgan, and M. A. Eckert, In vivo mapping of the human locus coeruleus, NeuroImage, vol.47, pp.1261-1267, 2009.

M. Khaleel, M. Puliyel, P. Shah, J. Sunwoo, R. M. Kato et al., Individuals with sickle cell disease have a significantly greater vasoconstriction response to thermal pain than controls and have significant vasoconstriction in response to anticipation of pain, Am. J. Hematol, pp.1-22, 2017.

Y. Kiyokawa, T. Kikusui, Y. Takeuchi, and Y. Mori, Mapping the neural circuit activated by alarm pheromone perception by c-Fos immunohistochemistry, Brain Res, vol.1043, pp.145-154, 2005.

H. S. Lee, M. A. Kim, and B. D. Waterhouse, Retrograde double-labeling study of common afferent projections to the dorsal raphe and the nuclear core of the locus coeruleus in the rat, J. Comp. Neurol, vol.481, pp.179-193, 2005.

C. M. Leonard, Finding prefrontal cortex in the rat, Brain Res, vol.1645, pp.1-3, 2016.

M. Llorca-torralba, G. Borges, F. Neto, J. A. Mico, and E. Berrocoso, Noradrenergic Locus Coeruleus pathways in pain modulation, Neuroscience, vol.338, pp.93-113, 2016.

P. H. Luppi, G. Aston-jones, H. Akaoka, G. Chouvet, and M. Jouvet, Afferent projections to the rat locus coeruleus demonstrated by retrograde and anterograde tracing with cholera-toxin B subunit and Phaseolus vulgaris leucoagglutinin, Neuroscience, vol.65, pp.119-160, 1995.

I. Martins, M. G. De-vries, A. Teixeira-pinto, J. Fadel, S. P. Wilson et al., Noradrenaline increases pain facilitation from the brain during inflammatory pain, Neuropharmacology, vol.71, pp.299-307, 2013.

I. Martins, P. Carvalho, M. G. De-vries, A. Teixeira-pinto, S. P. Wilson et al., Increased Noradrenergic Neurotransmission to a Pain Facilitatory Area of the Brain Is Implicated in Facilitation of Chronic Pain, Anesthesiology, vol.123, pp.642-653, 2015.

A. Marzo, N. K. Totah, R. M. Neves, N. K. Logothetis, and O. Eschenko, Unilateral electrical stimulation of rat locus coeruleus elicits bilateral response of norepinephrine neurons and sustained activation of medial prefrontal cortex, J. Neurophysiol, vol.111, pp.2570-2588, 2014.

B. S. Mcewen, Protection and damage from acute and chronic stress: Allostasis and allostatic overload and relevance to the pathophysiology of psychiatric disorders, Ann. N. Y. Acad. Sci, vol.1032, pp.1-7, 2004.

B. Mcewen and T. Seeman, Allostatic Load and Allostasis, 2009.

A. Noteb,

T. E. Nichols and A. P. Holmes, Nonparametric Permutation Tests For Functional Neuroimaging: A Primer with Examples, Hum. Brain Mapp, vol.15, pp.1-25, 2001.

J. D. O'leary, M. W. Crawford, I. Odame, G. D. Shorten, and P. A. Mcgrath, Thermal Pain and Sensory Processing in Children With Sickle Cell Disease, Clin. J. Pain, vol.30, pp.244-250, 2014.

F. B. Piel, M. H. Steinberg, and D. C. Rees, Sickle Cell Disease, N. Engl. J. Med, vol.376, pp.1561-1573, 2017.

O. S. Platt, W. Rosenstock, and M. A. Espeland, Influence of Sickle Hemoglobinopathies on Growth and Development, N. Engl. J. Med, vol.311, pp.7-12, 1984.

D. C. Rees, T. N. Williams, and M. T. Gladwin, Sickle-cell disease, Lancet, vol.376, issue.10, p.61029, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00552602

M. Rubinov and O. Sporns, Complex network measures of brain connectivity: Uses and interpretations, NeuroImage, vol.52, pp.1059-1069, 2010.

J. Sallet, R. B. Mars, M. P. Noonan, F. Neubert, S. Jbabdi et al., The Organization of Dorsal Frontal Cortex in Humans and Macaques, J. Neurosci, vol.33, pp.12255-12274, 2013.

E. R. Samuels and E. Szabadi, Functional Neuroanatomy of the Noradrenergic Locus Coeruleus: Its Roles in the Regulation of Arousal and Autonomic Function Part I: Principles of Functional Organisation, Curr. Neuropharmacol, vol.6, pp.235-253, 2008.

S. Sangkatumvong, M. C. Khoo, R. Kato, J. A. Detterich, A. Bush et al., Peripheral vasoconstriction and abnormal parasympathetic response to sighs and transient hypoxia in sickle cell disease, Am. J. Respir. Crit. Care Med, vol.184, pp.474-481, 2011.

J. Schatz and R. Buzan, Decreased corpus callosum size in sickle cell disease: Relationship with cerebral infarcts and cognitive functioning, J. Int. Neuropsychol. Soc, vol.12, pp.24-33, 2006.

R. Scott-mackin, P. Insel, M. Diana-truran, B. P. Elliot-vichinsky, L. D. Neumayr et al., Neuroimaging abnormalities in adults with sickle cell anemia associations with cognition, Neurology, vol.82, pp.835-841, 2014.

D. A. Seminowicz and M. Moayedi, The Dorsolateral Prefrontal Cortex in Acute and Chronic Pain, J. Pain, vol.18, pp.1027-1035, 2017.

C. Shih, H. Chan, and H. Chan, Participation of hypothalamic paraventricular nucleus in locus ceruleus-induced baroreflex suppression in rats, Am. J. Phys, vol.269, pp.46-52, 1995.

P. E. Simson, Blockade of a2-adrenergic receptors markedly potentiates glutamateevoked activity of locus coeruleus neurons, Int. J. Neurosci, vol.106, pp.95-99, 2001.

W. R. Smith, L. T. Penberthy, V. E. Bovbjerg, D. K. Mcclish, J. D. Roberts et al., Daily assessment of pain in adults with sickle cell disease, Ann. Intern. Med, vol.148, pp.94-101, 2008.

J. M. Spielberg, Graph theoretic general linear model (GTG): a MATLAB toolbox, 2014.

R. R. Bhatt, NeuroImage: Clinical, vol.21, p.101686, 2019.

, Structure and function of complex brain networks, Dialogues Clin. Neurosci, vol.4, pp.247-262, 2013.

G. M. Sullivan and R. Feinn, Using Effect Size-or Why the P Value Is Not Enough, J. Grad. Med. Educ, vol.4, pp.279-282, 2012.

A. V. Swift, M. J. Cohen, G. W. Hynd, J. M. Wisenbaker, K. M. Mckie et al., Neuropsychologic Impairment in Children With Sickle Cell Anemia, Pediatrics, vol.84, pp.1077-1085, 1989.

E. Szabadi, Functional neuroanatomy of the central noradrenergic system, J. Psychopharmacol, vol.27, pp.659-693, 2013.

B. K. Taylor and K. N. Westlund, The noradrenergic locus coeruleus as a chronic pain generator, J. Neurosci. Res, vol.95, pp.1336-1346, 2017.

Y. Umezaki, B. W. Badran, W. H. Devries, J. Moss, T. Gonzales et al., The Efficacy of Daily Prefrontal Repetitive Transcranial Magnetic Stimulation (rTMS) for Burning Mouth Syndrome (BMS): A Randomized Controlled Single-blind Study, Brain Stimul, vol.9, pp.234-242, 2016.

. Van-den, M. P. Heuvel, S. C. De-lange, A. Zalesky, C. Seguin et al., Proportional thresholding in resting-state fMRI functional connectivity networks and consequences for patient-control connectome studies: Issues and recommendations, NeuroImage, vol.152, pp.437-449, 2017.

E. P. Vichinsky, L. D. Neumayr, J. I. Gold, M. W. Weiner, R. R. Rule et al., Neuropsychological dysfunction and neuroimaging abnormalities in neurologically intact adults with sickle cell anemia, JAMA, vol.303, pp.1823-1831, 2010.

Z. J. Wang, D. J. Wilkie, and R. Molokie, Neurobiological Mechanisms of Pain in Sickle Cell Disease. Hematol. Am Soc Hematol Educ Progr, pp.403-408, 2010.

K. N. Westlund, R. M. Bowker, M. G. Ziegler, and J. D. Coulter, Noradrenergic projections to the spinal cord of the rat, Brain Res, vol.263, pp.15-31, 1983.

S. Whitfield-gabrieli and A. Nieto-castanon, Conn: A Functional Connectivity Toolbox for Correlated and Anticorrelated Brain Networks, Brain Connect, vol.2, pp.125-141, 2012.

D. J. Wilkie, R. Molokie, D. Boyd-seal, M. L. Suarez, Y. O. Kim et al., Patient-reported outcomes: descriptors of nociceptive and neuropathic pain and barriers to effective pain management in adult outpatients with sickle cell disease, J. Natl. Med. Assoc, vol.102, pp.18-27, 2010.

C. Woo, M. Roy, J. T. Buhle, and T. D. Wager, Distinct Brain Systems Mediate the Effects of Nociceptive Input and Self-Regulation on Pain, PLoS Biol, vol.13, 2015.

B. Xing, Y. Li, and W. Gao, Norepinephrine versus Dopamine and their Interaction in Modulating Synaptic Function in the Prefrontal Cortex, Brain Res, vol.1641, pp.217-233, 2016.

F. Zeidan, J. A. Grant, C. A. Brown, J. G. Mchaffie, and R. C. Coghill, Mindfulness meditation-related pain relief: Evidence for unique brain mechanisms in the regulation of pain, Neurosci. Lett, vol.520, pp.165-173, 2012.

F. Zeidan, N. M. Emerson, S. R. Farris, J. N. Ray, Y. Jung et al., Mindfulness Meditation-Based Pain Relief Employs Different Neural Mechanisms Than Placebo and Sham Mindfulness Meditation-Induced Analgesia, J. Neurosci, vol.35, pp.15307-15325, 2015.

R. R. Bhatt, NeuroImage: Clinical, vol.21, p.101686, 2019.