Repeated Transcranial Direct Current Stimulation Prevents Abnormal Behaviors Associated with Abstinence from Chronic Nicotine Consumption
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Bindman LJ, Lippold OC, Redfearn JW (1964). The action of brief polarizing currents on the cerebral cortex of the rat (1) during current flow and (2) in the production of long-lasting after-effects. J Physiol 172: 369–382.
Bindman LJ, Richardson HC (1969). Persisting changes in the firing pattern of single cortical units responding at short latency to weak somatic stimuli in the anaesthetized rat. J Physiol 202: 53P–55P.
Boggio PS, Ferrucci R, Rigonatti SP, Covre P, Nitsche M, Pascual-Leone A et al (2006). Effects of transcranial direct current stimulation on working memory in patients with Parkinson's disease. J Neurol Sci 249: 31–38.
Boggio PS, Liguori P, Sultani N, Rezende L, Fecteau S, Fregni F (2009). Cumulative priming effects of cortical stimulation on smoking cue-induced craving. Neurosci Lett 463: 82–86.
Brody AL, Mandelkern MA, London ED, Childress AR, Lee GS, Bota RG et al (2002). Brain metabolic changes during cigarette craving. Arch Gen Psychiatry 59: 1162–1172.
Brunoni AR, Ferrucci R, Fregni F, Boggio PS, Priori A (2012). Transcranial direct current stimulation for the treatment of major depressive disorder: a summary of preclinical, clinical and translational findings. Prog Neuropsychopharmacol Biol Psychiatry 39: 9–16.
Due DL, Huettel SA, Hall WG, Rubin DC (2002). Activation in mesolimbic and visuospatial neural circuits elicited by smoking cues: evidence from functional magnetic resonance imaging. Am J Psychiatry 159: 954–960.
Feil J, Zangen A (2010). Brain stimulation in the study and treatment of addiction. Neurosci Biobehav Rev 34: 559–574.
Ferrucci R, Bortolomasi M, Vergari M, Tadini L, Salvoro B, Giacopuzzi M et al (2009). Transcranial direct current stimulation in severe, drug-resistant major depression. J Affect Disord 118: 215–219.
Fraser PE, Rosen AC (2012). Transcranial direct current stimulation and behavioral models of smoking addiction. Front Psychiatry 3: 79.
Fregni F, Boggio PS, Nitsche M, Bermpohl F, Antal A, Feredoes E et al (2005). Anodal transcranial direct current stimulation of prefrontal cortex enhances working memory. Exp Brain Res 166: 23–30.
Fregni F, Liguori P, Fecteau S, Nitsche MA, Pascual-Leone A, Boggio PS (2008). Cortical stimulation of the prefrontal cortex with transcranial direct current stimulation reduces cue-provoked smoking craving: a randomized, sham-controlled study. J Clin Psychiatry 69: 32–40.
Hughes JR, Stead LF, Lancaster T (2007). Antidepressants for smoking cessation. Cochrane Database Syst Rev CD000031 doi:10.1002/14651858.CD000031.pub3.
Iniguez SD, Warren BL, Parise EM, Alcantara LF, Schuh B, Maffeo ML et al (2009). Nicotine exposure during adolescence induces a depression-like state in adulthood. Neuropsychopharmacology 34: 1609–1624.
Karreman M, Moghaddam B (1996). The prefrontal cortex regulates the basal release of dopamine in the limbic striatum: an effect mediated by ventral tegmental area. J Neurochem 66: 589–598.
Lam RW (2012). Onset, time course and trajectories of improvement with antidepressants. Eur Neuropsychopharmacol 22 (Suppl 3): S492–S498.
Liebetanz D, Fregni F, Monte-Silva KK, Oliveira MB, Amancio-dos-Santos A, Nitsche MA et al (2006). After-effects of transcranial direct current stimulation (tDCS) on cortical spreading depression. Neurosci Lett 398: 85–90.
Liebetanz D, Koch R, Mayenfels S, Konig F, Paulus W, Nitsche MA (2009). Safety limits of cathodal transcranial direct current stimulation in rats. Clin Neurophysiol 120: 1161–1167.
McBride D, Barrett SP, Kelly JT, Aw A, Dagher A (2006). Effects of expectancy and abstinence on the neural response to smoking cues in cigarette smokers: an fMRI study. Neuropsychopharmacology 31: 2728–2738.
Nitsche MA, Boggio PS, Fregni F, Pascual-Leone A (2009). Treatment of depression with transcranial direct current stimulation (tDCS): a review. Exp Neurol 219: 14–19.
Nitsche MA, Nitsche MS, Klein CC, Tergau F, Rothwell JC, Paulus W (2003). Level of action of cathodal DC polarisation induced inhibition of the human motor cortex. Clin Neurophysiol 114: 600–604.
Nitsche MA, Paulus W (2000). Excitability changes induced in the human motor cortex by weak transcranial direct current stimulation. J Physiol 527 (Pt 3): 633–639.
O'Brien CP (2008). Review. Evidence-based treatments of addiction. Philos Trans R Soc Lond B Biol Sci 363: 3277–3286.
Ohn SH, Park CI, Yoo WK, Ko MH, Choi KP, Kim GM et al (2008). Time-dependent effect of transcranial direct current stimulation on the enhancement of working memory. Neuroreport 19: 43–47.
Paxinos G, Franklin K (2001) The mouse brain in stereotaxic coordinate 2nd edn. Academic Press.
Porsolt RD, Le Pichon M, Jalfre M (1977). Depression: a new animal model sensitive to antidepressant treatments. Nature 266: 730–732.
Purpura DP, McMurtry JG (1965). Intracellular Activities and evoked potential changes during polarization of motor cortex. J Neurophysiol 28: 166–185.
Rigonatti SP, Boggio PS, Myczkowski ML, Otta E, Fiquer JT, Ribeiro RB et al (2008). Transcranial direct stimulation and fluoxetine for the treatment of depression. Eur Psychiatry 23: 74–76.
Stagg CJ, Nitsche MA (2011). Physiological basis of transcranial direct current stimulation. Neuroscientist 17: 37–53.
Stead LF, Lancaster T (2012). Combined pharmacotherapy and behavioural interventions for smoking cessation. Cochrane Database Syst Rev 10: CD008286.
Taber MT, Fibiger HC (1993). Electrical stimulation of the medial prefrontal cortex increases dopamine release in the striatum. Neuropsychopharmacology 9: 271–275.
Taber MT, Fibiger HC (1995). Electrical stimulation of the prefrontal cortex increases dopamine release in the nucleus accumbens of the rat: modulation by metabotropic glutamate receptors. J Neurosci 15 (5 Pt 2): 3896–3904.
Walf AA, Frye CA (2007). The use of the elevated plus maze as an assay of anxiety-related behavior in rodents. Nature Protocols 2: 322–328.
Wilson SJ, Sayette MA, Fiez JA (2004). Prefrontal responses to drug cues: a neurocognitive analysis. Nat Neurosci 7: 211–214.