Ester Miyuki Nakamura-Palacios

Behavioral effects of transcranial Direct Current Stimulation (tDCS) induced dorsolateral prefrontal cortex plasticity in alcohol dependence

Transcranial Direct Current Stimulation (tDCS) has been shown to reduce acute substance craving in drug addicts, and improve cognition in neuropsychiatric patients. Here we aimed to explore further tDCS induced behavioral and neurophysiological modulation including assessment of relapse rate over a prolonged time course in alcoholism. We examined the effects of repeated anodal tDCS (2mA, 35 cm(2), 20min) over the left dorsolateral prefrontal cortex (DLPFC) on relapse to the use of alcohol in alcoholics from outpatient services, who received additional routine clinical treatment. Furthermore, event related potentials (ERPs), cognitive and frontal executive processes, craving, depressive and anxiety symptoms were obtained before and after treatment. From thirteen alcoholic subjects, seven were randomized to sham-tDCS and six to real tDCS treatment (once a week for five consecutive weeks). Depressive symptoms and craving were reduced to a larger extent in the tDCS group compared to the sham group (p=0.005 and p=0.015, respectively). On the other hand, active tDCS was able to block the increase in neural activation triggered by alcohol related and neutral cues in prefrontal cortex (PFC) as indexed by ERP as seen in the sham-tDCS group. Finally, there was a trend for increased change in executive function in the tDCS group compared to the sham-tDCS group (p=0.082), and, similarly, a trend for more relapses in the tDCS group compared to sham tDCS (four alcoholic subjects (66.7%) vs. one (14.3%), p=0.053).These results confirm the previous findings of tDCS effects on craving in alcoholism and also extend these findings as we showed also tDCS-related mood improvement. However, potential increase in relapse is possible; thus the clinical value of an increase in craving and improvement in depression and executive function needs to be carefully assessed in further studies; including investigation of optimal parameters of stimulation.

A randomized controlled trial of targeted prefrontal cortex modulation with tDCS in patients with alcohol dependence

Preliminary small studies have shown that transcranial direct current stimulation (tDCS) reduces craving in alcoholic subjects. It is unclear whether tDCS also leads to changes in clinically meaningful outcomes for alcohol dependence in a properly powered phase II randomized clinical trial. We aimed to investigate whether repetitive tDCS changes the risk of alcohol use relapse in severe alcoholics from outpatient services. Thirty-five subjects were randomized to receive active bilateral [left cathodal/right anodal over the dorsolateral prefrontal cortex (dlPFC)] repetitive (five consecutive days) tDCS (2 mA, 35 cm2, two times daily stimulation for 13 min with a 20-min interval) or sham-tDCS. There were two dropouts before treatment. From 33 alcoholic subjects, 17 (mean age 45.5±8.9 s.d., 16 males) were randomized to sham and 16 (44±7.8 s.d., 16 males) to real tDCS treatment. By the end of the six months of follow-up, two subjects treated with sham (11.8%) and eight treated with real tDCS (50%) were still alcohol-abstinent [p=0.02, Long-rank (Mantel-Cox) Test, HR=0.35 (95% CI, 0.14-0.85)]. No differences with regard to changes on scores of craving, frontal function, global mental status, depressive or anxiety symptoms were observed between groups. However, subjects from the tDCS group improved with regard to their overall perception of quality of life (p=0.02), and increased their scores in the environment domain (p=0.04) after treatment. Bilateral tDCS over dlPFC reduces relapse probability in severe alcoholic subjects and results in improved perception of quality of life.

Auditory event-related potentials (P3) and cognitive changes induced by frontal direct current stimulation in alcoholics according to Lesch alcoholism typology

Frontal lobe dysfunction is a hallmark of alcohol dependence. Recent studies have shown that a simple but powerful technique of cortical modulation--transcranial direct current stimulation (tDCS)--can induce significant cognitive changes. We therefore aimed to assess the clinical and electrophysiological (as indexed by P3) effects of tDCS of left dorsolateral prefrontal cortex (DLPFC) in different types of alcoholic patients according to Leschs typology. We enrolled 49 alcoholic subjects, aged between 18 and 75 yr, during the subacute abstinence period to participate in this study. Subjects underwent event-related potential (ERP) registration of alcohol-related and neutral sounds before, during and after active tDCS (1 mA, 35 cm², during 10 min) or sham procedure in a counterbalanced and randomized order. Frontal assessment battery (FAB) and five items of the Obsessive Compulsive Drinking Scale were applied at the beginning and at the end of each experimental session. ERP analysis showed an increase in the mean amplitude of P3 associated with alcohol-related sounds after tDCS. This effect was not seen for neutral sounds. This change was more pronounced in Lesch IV alcoholics. Secondary exploratory analysis showed a significant improvement of FAB performance after active tDCS compared to sham tDCS in Lesch IV alcoholics only. We showed clinical and electrophysiological evidence of tDCS-induced frontal activity enhancement that was specific for Lesch IV alcoholics. Given that frontal dysfunction may contribute to the loss of control over drinking behaviour, local increase in frontal activity induced by tDCS might have a beneficial clinical impact in the future.

Deficits of spatial learning and working memory in spontaneously hypertensive rats

It is possible that behavioral dysfunction, including cognitive, perceptual and psychomotor impairments in hypertensive subjects, can be the result of the high blood pressure. The aim of this study was to evaluate the performance of the spontaneously hypertensive rats (SHR) in the acquisition and execution of tasks in an 8-arm radial maze. Male Wistar normotensive rats (CON, n = 11) and SHR (n = 12), 3 months old, were first submitted to a series of training sessions to enter each of the 8 arms once in a given session (task acquisition), and errors (revisiting an arm in the same session) were computed. Errors before and after two delay intervals (5 s and 1 h, introduced between the fourth and fifth arm choice) were measured. These delayed tests allowed us to evaluate the working memory in different terms. It was observed that the SHR group made slightly more errors during the acquisition sessions and in the execution of the post-delay of 5-s interval tests, and significantly in the execution of the post-delay of 1-h interval tests compared to the CON. These results show that the SHR has a deficiency in the performance of the radial maze, suggestive of impairment of learning and working memory, mainly for a long-term memory, corroborating the hypothesis about the possible behavioral consequences of hypertension.

Bilateral Transcranial Direct Current Stimulation Over Dorsolateral Prefrontal Cortex Changes the Drug-cued Reactivity in the Anterior Cingulate Cortex of Crack-cocaine Addicts

BACKGROUND Patients addicted to crack-cocaine routinely have difficulty sustaining treatment, which could be related to dysfunctional cerebral activity that occurs in addiction. OBJECTIVE To investigate the indirect electrophysiological effects of single transcranial direct current stimulation (tDCS) on cocaine-addicted brains. METHODS The patients received either left cathodal/right anodal or sham stimulation over the DLPFC. The region of interest was the anterior cingulate cortex (ACC) during the N2 time window (200-350 ms). Event-related potentials in the ACC were measured during visual presentation of crack-related cues or neutral cues. RESULTS Low-resolution brain electromagnetic tomography (LORETA) indicated that exposure to crack-related images led to increased activity in the ACC in the sham group, while the tDCS group showed decreased ACC activity after visualization of drug cues. CONCLUSION Prefrontal tDCS specifically modulated the ACC response during exposure to visual drug cues in crack-cocaine users.

Effects of a non-focal plasticity protocol on apathy in moderate Alzheimer's disease: a randomized, double-blind, sham-controlled trial.

BACKGROUND Apathy is the most common neuropsychiatric symptom in Alzheimers disease (AD) and it is associated with changes in prefrontal neural circuits involved with generation of voluntary actions. To date no effective treatment for apathy has been demonstrated. OBJECTIVE We aimed to investigate the effects and safety of repetitive transcranial direct current stimulation (tDCS) on apathy in moderate AD patients. METHODS Forty patients were randomized to receive either active or sham-tDCS over the left dorsolateral prefrontal cortex (DLPFC). Patients received six sessions of intervention during 2 weeks and were evaluated at baseline, at week 1 and 2, and after 1 week without intervention. Clinical raters, patients, and caregivers were blinded. The primary outcome was apathy. Global cognition and neuropsychiatric symptoms were examined as secondary outcomes. RESULTS The mean MMSE score at baseline was 15.2 ± 2.9 and the mean Apathy Scale score was 27.7 ± 6.7. Changes on apathy scores over time were not different between active and sham tDCS (P = 0.552 for repeated measures). Further analyses confirm that changes from baseline did not differ between groups after the sixth session (active tDCS -1.95 (95%CI -3.49, -0.41); sham-tDCS -2.05 (95%CI -3.68, -0.42); P = 0.989]. Similarly, tDCS had no effect on secondary outcomes (P > 0.40). tDCS was well tolerated and not associated with significant adverse effects. CONCLUSION In this adequately powered study for minimal clinically significant difference, our findings show that using the parameters we chose for this study, repeated anodal tDCS over the left DLPFC had no effect on apathy in elderly patients with moderate AD.

Cognitive related electrophysiological changes induced by non-invasive cortical electrical stimulation in crack-cocaine addiction

Prefrontal dysfunction is a hallmark in drug addiction, yet interventions exploring modulation of prefrontal cortex function in drug addiction have not been fully investigated with regard to physiological alterations. We tested the hypothesis that non-invasive prefrontal stimulation would change neural activity in crack-cocaine addiction, investigating the effects of transcranial Direct Current Stimulation (tDCS) of Dorsolateral Prefrontal Cortex (DLPFC) induced cortical excitability modulation on the visual P3 Event Related Potentials (ERP) component under neutral and drug cue exposition in crack-cocaine addicts. Thirteen crack-cocaine users were randomly distributed to receive five applications (once a day, every other day) of bilateral (left cathodal/right anodal) tDCS (20 min, 2 mA, 35 cm2) or sham tDCS over the DLPFC. Brain activity was measured under crack-related or neutral visual-cued ERPs. There were significant differences in P3-related parameters when comparing group of stimulation (active vs. sham tDCS) and number of sessions (single vs. repetitive tDCS). After a single session of tDCS, P3 current intensity in the left DLPFC increased during neutral cues and decreased during crack-related cues. This effect was opposite to what was observed in the sham-tDCS group. In contrast, repetitive tDCS increased current density not only in the DLPFC, but also in a wider array of prefrontal areas, including presumably the frontopolar cortex (FPC) orbitofrontal cortex (OFC) and anterior cingulate cortex (ACC), when subjects were visualizing crack-related cues. Thus, single and repetitive application of tDCS can impact cognitive processing of neutral and especially crack-related visual cues in prefrontal areas, which may be of importance for treatment of crack-cocaine addiction.

A Randomized Placebo-Controlled Trial of Targeted Prefrontal Cortex Modulation with Bilateral tDCS in Patients with Crack-Cocaine Dependence.

Background: Transcranial direct current stimulation over the dorsolateral prefrontal cortex has been shown to be clinically useful in the treatment of drug addiction. Methods: We conducted a double-blind randomized clinical trial aiming to assess the effects of bilateral dorsolateral prefrontal cortex transcranial direct current stimulation (left cathodal/right anodal) on crack-cocaine addiction. We defined craving as the primary outcome, and other clinical measurements, including depressive and anxiety symtoms, and quality of life, as secondary outcomes. Seventeen male crack-cocaine users (mean age 30.4±9.8 SD) were randomized to receive 5 sessions of active transcranial direct current stimulation (2 mA, 35cm2, for 20 minutes), every other day, and 19 males (mean age 30.3±8.4 SD) to receive sham-transcranial direct current stimulation (placebo) as control group. Results: Craving scores were significantly reduced in the transcranial direct current stimulation group after treatment when compared with sham-transcranial direct current stimulation (P=.028) and baseline values (P=.003), and decreased linearly over 4 weeks (before, during, and after treatment) in the transcranial direct current stimulation group only (P=.047). Changes of anxiety scores towards increase in the sham-transcranial direct current stimulation and decrease in the transcranial direct current stimulation group (P=.03), and of the overall perception of quality of life (P=.031) and of health (P=.048) towards decrease in the sham-transcranial direct current stimulation group and increase in the transcranial direct current stimulation group differed significantly between groups. Conclusions: Repetitive bilateral transcranial direct current stimulation over the dorsolateral prefrontal cortex reduced craving for crack-cocaine use, decreased anxiety, and improved quality of life. We hypothesize that transcranial direct current stimulation effects may be associated with increased prefrontal processing and regulation of craving behavior.

Drinking and driving: a decrease in executive frontal functions in young drivers with high blood alcohol concentration

This study correlated the executive frontal functions with blood alcohol concentration (BAC) in night drivers in a Brazilian city. Of 592 drivers randomly recruited between December 17, 2005 and May 5, 2006, during nighttime hours on main streets or avenues with intense vehicle traffic in Vitória, Brazil, 444 had the BAC determined by a portable digital breath alcohol analyzer and 389 were submitted to a frontal function examination by a frontal assessment battery (FAB). A high percentage (24.4%) of drivers presented alcohol in their blood. Most of these drivers were male (82%), and nearly half (43.7%) were young adults (aged between 20 and 30 years). The results showed an inverse relationship between the BAC and FAB total scores, with a higher BAC corresponding to a smaller FAB total score, delineating a progressive decrease in frontal function with increasing concentrations of alcohol. The most intriguing result was that alcohol-induced impairment on frontal executive function was particularly important in young adults, and more specifically in the motor programming subset of FAB, an executive function highly involved in driving skills. Considering the worldwide evidence of the high-risk involvement of youth in automobile crashes, the effects of alcohol in young adults need to be more thoroughly examined by cognitive studies, and more direct preventive solutions need to be taken focusing on this age range.

D1 dopamine and NMDA receptors interactions in the medial prefrontal cortex: Modulation of spatial working memory in rats

Dopamine (DA) and N-methyl-D-aspartate (NMDA) receptors seem to be critically involved in working memory processing in the medial prefrontal cortex (mPFC). Effects of NMDA receptors blockade on dopamine D1 receptors activation in the mPFC on spatial working memory was investigated. Adult male Wistar rats, well trained in an eight-arm radial maze and bilaterally cannulated in the mPFC, received intracortical administrations of saline (SAL) or SKF-38393 (DA D1 receptor agonist) followed, 10 min later, by MK-801 (non-competitive NMDA receptor antagonist). They were tested in 1 h delayed tasks after 5 min of the second administration. SKF-38393 (0.56 and 1.8 microg) was disruptive to working memory, increasing significantly the number of errors in the 1 h post-delay performance when administered into the mPFC. MK-801, at doses with no significant effects alone (0.32 or 1.0 microg), reduced significantly the disruptive effect of 0.56 microg SKF-38393. These results showed that the disruptive effect of DA D(1) receptors activation in the mPFC on working memory was significantly reduced by an open-channel NMDA receptor blockade, suggesting that the processing of working memory in the mPFC involving DA D1 receptors depend, at least in part, of NMDA receptors activity in this cortical area.