Altered function of ventral striatum during reward-based decision making in old age

Mell, Thomas, Wartenburger, Isabell, Marschner, Alexander, Villringer, Arno, Reischies, Friedel M., Heekeren, Hauke R.

January 2009

Normal aging is associated with a decline in different cognitive domains and local structural atrophy as well as decreases in dopamine concentration and receptor density. To date, it is largely unknown how these reductions in dopaminergic neurotransmission affect human brain regions responsible for reward-based decision making in older adults. Using a learning criterion in a probabilistic object reversal task, we found a learning stage by age interaction in the dorsolateral prefrontal cortex (dIPFC) during decision making. While young adults recruited the dlPFC in an early stage of learning reward associations, older adults recruited the dlPFC when reward associations had already been learned. Furthermore, we found a reduced change in ventral striatal BOLD signal in older as compared to younger adults in response to high probability rewards. Our data are in line with behavioral evidence that older adults show altered stimulus-reward learning and support the view of an altered fronto-striatal interaction during reward-based decision making in old age, which contributes to prolonged learning of reward associations.

aging

fMRI

reward association learning

ventral striatum

decision making

dorsolateral prefrontal cortex

Language, Linguistics

Practice Effects on a Working Memory Task in Adult Survivors of Pediatric Brain Tumors: An fMRI Investigation

Na, Sabrina

09 May 2015

Behavioral studies have documented impaired working memory in childhood brain tumor survivors; however, neural mechanisms have yet to be identified using fMRI. The current study investigated BOLD response differences between twenty survivors (Mean age=23.1(4.14), 55% female) and twenty age- and gender-matched controls from the start to the end of a twenty minute 3-back task. There were no differences in task performance between groups or over time. Effects of practice were present in left prefrontal regions, with both groups showing decreases in activation as the task progressed. There were qualitative and quantitative differences in the brain regions that survivors recruited relative to controls in bilateral prefrontal (including the dorsolateral prefrontal cortex) and parietal cortices. Findings suggest that areas under top-down control of the dorsolateral prefrontal cortex become less activated with practice, and that survivors may require more top-down processing and attentional control to perform at similar levels to healthy controls.

Working memory

Magnetic resonance imaging

Neuropsychology

Long-term

Brain tumor survivorship

Dorsolateral prefrontal cortex

A neuromodula??o do c?rtex pr?-frontal dorsolateral na percep??o de tempo em contexto neutro ou emocionalmente ativo

Oliveira, Felipe Santos de

27 August 2014

Submitted by Automa??o e Estat?stica (sst@bczm.ufrn.br) on 2016-03-22T19:24:32Z No. of bitstreams: 1 FelipeSantosDeOliveira_TESE.pdf: 1841785 bytes, checksum: 66bb047469f843d38674d96acaa05fd9 (MD5) / Approved for entry into archive by Arlan Eloi Leite Silva (eloihistoriador@yahoo.com.br) on 2016-03-23T20:33:27Z (GMT) No. of bitstreams: 1 FelipeSantosDeOliveira_TESE.pdf: 1841785 bytes, checksum: 66bb047469f843d38674d96acaa05fd9 (MD5) / Made available in DSpace on 2016-03-23T20:33:27Z (GMT). No. of bitstreams: 1 FelipeSantosDeOliveira_TESE.pdf: 1841785 bytes, checksum: 66bb047469f843d38674d96acaa05fd9 (MD5) Previous issue date: 2014-08-27 / A percep??o temporal ? fundamental para a adapta??o ambiental em humanos e outras esp?- cies.O processamento temporal nos organismos, se desenvolveu atrav?s de diferentes sistemas neurais, cada qual respons?vel pelo processamento de diferentes escalas de tempo. Dentre as escalas mais estudadas,est? a que abrange o arranjo de segundos a minutos. Evid?ncias sugerem que o c?rtex pr?-frontal dorsolateral (CPFDL) possui rela??o com a percep??o do tempo na escala de segundos. No entanto, n?o se sabe se o d?ficit de percep??o temporal em pacientes com les?es cerebrais ou mesmo ?les?es revers?veis? causadas por estimula??o magn?tica transcraniana (EMT) nessa regi?o, sejam por perturba??es de outros processos cognitivos (como aten??o e mem?ria de trabalho) ou da percep??o do tempo propriamente dita. Estudos tamb?m relacionam a regi?o do CPFDL na regula??o emocional e especificamente no julgamento e a antecipa??o emocional. Diante disto, nosso objetivo foi estudar o papel do c?rtex pr?-frontal dorsolateral na percep??o de intervalos de tempo de est?mulos neutros e emocionalmente ativos, a partir dos efeitos da modula??o cortical atrav?s da estimula??o transcraniana por corrente cont?nua (ETCC), atrav?s da excita??o (corrente an?dica), inibi??o (corrente cat?dica) e o controle (sham), utilizando os intervalos de 4 e 8 segundos. Nossos resultados mostraram que h? uma subestimativa quando a figura ? apresentada por 8 segundos.Com a corrente an?dica no CPFDL direito ocorre uma subestimativa e com a corrente cat?dica no CPFDL esquerdo h? uma superestimava na reprodu??o do tempo com figuras neutras. Com figuras negativas, a corrente cat?dica sobre o CPFDL esquerdo ocasiona efeito inverso ao de figuras neutras, havendo subestimativa de tempo. O uso de figuras com val?ncia positiva ou negativa, melhoraram as estimativas para 8 segundas e o uso de figuras com val?ncia positiva inibem o efeito da ETCC no CPFDL na estimativa de tempo para 4 segundos. Com esse trabalho podemos concluir que o CPFDL tem um papel fundamental na percep??o de tempo e corresponde em grande parte aos est?gios de mem?ria e decis?o no modelo de rel?gio interno, que o hemisf?rio esquerdo participa na percep??o de tempo tanto em contextos neutros como emocionalmente ativos, Podemos concluir tamb?m que a ETCC e um m?todo eficaz para estudar as fun??es corticais na percep??o de tempo em termos de causa e efeito. / The time perception is critical for environmental adaptation in humans and other species. The temporal processing, has evolved through different neural systems, each responsible for processing different time scales. Among the most studied scales is that spans the arrangement of seconds to minutes. Evidence suggests that the dorsolateral prefrontal (DLPFC) cortex has relationship with the time perception scale of seconds. However, it is unclear whether the deficit of time perception in patients with brain injuries or even "reversible lesions" caused by transcranial magnetic stimulation (TMS) in this region, whether by disruption of other cognitive processes (such as attention and working memory) or the time perception itself. Studies also link the region of DLPFC in emotional regulation and specifically the judgment and emotional anticipation. Given this, our objective was to study the role of the dorsolateral prefrontal cortex in the time perception intervals of active and emotionally neutral stimuli, from the effects of cortical modulation by transcranial direct current stimulation (tDCS), through the cortical excitation (anodic current), inhibition (cathode current) and control (sham) using the ranges of 4 and 8 seconds. Our results showed that there is an underestimation when the picture was presented by 8 seconds, with the anodic current in the right DLPFC, there is an underestimation and with cathodic current in the left DLPFC, there is an overestimation of the time reproduction with neutral ones. The cathodic current over the left DLPFC leads to an inverse effect of neutral ones, an underestimation of time with negative pictures. Positive or negative pictures improved estimates for 8 second and positive pictures inhibited the effect of tDCS in DLPFC in estimating time to 4 seconds. With this work, we conclude that the DLPFC plays a key role in the o time perception and largely corresponds to the stages of memory and decision on the internal clock model. The left hemisphere participates in the perception of time in both active and emotionally neutral contexts, and we can conclude that the ETCC and an effective method to study the cortical functions in the time perception in terms of cause and effect.

CNPQ::CIENCIAS BIOLOGICAS: PSICOBIOLOGIA

Percep??o de tempo

Intervalo de tempo

Emo??o

ETCC

Pr?-frontal dorsolateral

Neural correlates of lucid dreaming and comparisons with phenomenological aspects

Lindberg, Markus

January 2014

Research on the neural correlates of lucid dreaming has recently gained more underlying data. By exploring seven studies that investigated the neural basis of lucid dreaming, this essay sought to examine which neural correlates are associated with lucid dreaming and how proposed neural correlates relate to phenomenological aspects. Dorsolateral prefrontal cortex (DLPFC) was judged as the region most associated with lucid dreaming, in support of a DLPFC hypothesis. Support for reactivation of DLPFC in lucid dreaming consisted of data from electroencephalography, functional magnetic resonance imaging, and transcranial direct current stimulation. Phenomenological aspects associated with this region involved meta-awareness, working-memory, decision-making, and conscious perception. Other regions of interest were parietal areas, frontal areas, and precuneus. Data was not always compatible, implying need for further research. The possibility of further research was judged as promising, based on a recent study inducing lucid dreaming in a significant percent of its test subjects.

Lucid dreaming

neural correlates

phenomenological aspects

non-lucid dreaming

dorsolateral prefrontal cortex

Neurosciences

Neurovetenskaper

The Effects of Age and Working Memory Ability on Frontal Lobe Oxygenation During Working Memory Tasks

Braasch, Marie Y.

02 July 2010

No description available.

Psychobiology

Psychology

near-infrared spectroscopy

NIRS

aging

working memory

dorsolateral prefrontal cortex

n-back

Stroop

Using near infrared spectroscopy to examine dorsolateral prefrontal activation patterns during working memory tasks in individuals with Attention Deficit Hyperactivity Disorder

Lupas, Kellina K.

16 June 2011

No description available.

Biology

Neurosciences

Psychobiology

Psychology

NIRS

ADHD

dorsolateral

activation

working memory

Stroop

N-back

The effect of depression on working memory : A systematic review

Breberina, Monika, Gustavsson, Vilma

January 2024

This systematic review explores the complex relationship between depression, dorsolateral prefrontal cortex (DLPFC) activity as measured by functional magnetic resonance imaging (fMRI), and working memory (WM) performance. Following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, a search was conducted on Medline EBSCO and Web of Science databases, specifically targeting peer-reviewed, published papers in English that utilised fMRI. Three studies meeting the inclusion criteria were included. Findings from the included studies yielded conflicting results. Some studies reported hyperactivation in the DLPFC among depressed individuals, suggesting a potential compensatory mechanism to address impairments during WM tasks. Conversely, other studies found no significant differences in DLPFC activity between depressed individuals and healthy controls. Regarding WM performance, studies revealed heterogeneity among depressed individuals compared to controls. While some indicated no significant differences between groups, others highlighted slower performance and decreased accuracy in depressed individuals. This review underscores the necessity for cohesive methodologies to advance understanding of depression-related cognitive impairments. While deficits in WM were observed in individuals with depression, the precise neural correlates of these impairments remain unclear, pointing to possibilities for further research and potential implications for clinical practice.

Depression

dorsolateral prefrontal cortex (DLPFC)

working memory

Neurosciences

Neurovetenskaper

Disfunção neuroquímica na depressão periparto / Neurochemistry dysfunction in peripartum depressive disorder

Rosa, Carlos Eduardo

16 March 2016

A depressão periparto (PPD) é subtipo altamente prevalente e subdiagnosticado do transtorno depressivo maior (MDD), e causa um importante sofrimento para a mulher, sua família e seu filho. Uma interação complexa entre hormônios, neurotransmissores e fatores genéticos e ambientais pode estar envolvida na etiologia da PPD. Contudo, estudos de neuroimagem na PPD ainda são escassos, particularmente os que identificam alterações neuroquímicas. Sabe-se que a região do córtex pré frontal dorsolateral (dlPFC) está relacionada à funções executivas no circuito pré frontal, e juntamente com o giro do cíngulo anterior (ACG) faz parte das vias neuronais envolvidas no processamento emocional, desde a geração, regulação e reavaliação do estado afetivo. Existem evidências de que ambas as áreas estejam disfuncionais na MDD. A avaliação neuroquímica obtida pela espectroscopia de próton por ressonância magnética (MRS) permite inferir o metabolismo, a neurotransmissão e a viabilidade do tecido neuronal de interesse destas áreas fronto-límbicas. Objetivo: comparar puérperas com depressão periparto (grupo PPD) com puérperas saudáveis (grupo HP) quanto à avaliação neuroquímica no dlPFC esquerdo e no ACG bilateral. Métodos: 36 puérperas do grupo PPD e 25 puérperas do grupo HP foram submetidas à duas entrevistas psiquiátricas estruturadas e à aplicação de questionários e escalas psicométricas, sendo a segunda avaliação realizada seccionalmente à MRS. A MRS foi adquirida pro MRI com campo de 3 Tesla, estando o volume de interesse (VOI) posicionado no dlPFC esquerdo e no ACG bilateral e processada pelo software LCModel. Os resultados neuroquímicos expressos em valores absolutos e normalizados pela creatina (razão metabólito/creatina) foram analisados por ANCOVA, incluindo a idade, o tempo de puerpério e o tipo de contraceptivo, enquanto covariáveis. Resultados: No dlPFC, o grupo PPD apresentou menores valores de Glu/Cr (-0,17; p=0,05), Glx (-0,95 mM; p=0,04), Glx/Cr (-0,22; p=0,03), NAA (-0,60 mM; p<0,01), e NAA/Cr (-0,13; p=0,02) em relação ao grupo HP. No ACG, o uso de hormônios contraceptivos somente com progestágenos resultou em um aumento dos valores de Glu (2,18 mM; p=0,03), Glx (1,84 mM; p=0,03), e redução de Cho/Cr (-0,08; p=0,03) quando comparados ao grupo que não utilizou somente progestágenos, independentemente dos grupos HP e PPD. Conclusão: Os níveis reduzidos de Glu e NAA no grupo PPD estão relacionados, respectivamente, à disfunção metabólica glutamatérgica e neuroglial no dlPFC, o que pode explicar sintomas cognitivos também relacionados à PPD, tal como já verificado no MDD. O uso de hormônios contraceptivos com progestágenos isoladamente interferiu com a neuroquímica do ACG, mas não se relacionou com a PPD. Embora o aumento do glutamato possa sugerir uma hiperfuncionalidade do ACG, e a redução da Cho/Cr representar diminuição de \"turnover\" da membrana lipídica ou da transdução sináptica, seu significado clínico e fisiopatológico ainda é incerto. Estes resultados contribuem com a compreensão dos substratos neuroquímicos de PPD / Peripartum depression (PPD) is a highly prevalent subtype of major depressive disorder (MDD) related to a significant loss for mother, family and baby. An Interaction between hormones, genetic, and environmental factors must be involved in its etiology. However, neuroimaging studies on PPD are still rare, particularly those that identify neurochemical changes. However, neuroimaging studies in PPD are still rare, particularly those that identify neurochemical changes. It is known that the region of the dorsolateral prefrontal cortex (dlPFC) is related to executive functions in the prefrontal circuit, and together with the anterior cingulate gyrus (ACG) is part of the neural pathways involved in emotional processing, including the generation, regulation, and reappraisal of affective state. And, there is evidence that both areas are dysfunctional in MDD. The neurochemical evaluation obtained by spectroscopy of proton magnetic resonance (MRS) allows to infer metabolism, neurotransmission and the viability of the neuronal tissue of interest these frontal-limbic areas. Objective: Compare postpartum women with peripartum depression (PPD group) with healthy postpartum women (HP group) regarding the neurochemical evaluation in the left dlPFC and bilateral ACG. Methods: 36 postpartum women of PPD group and 25 postpartum women of the HP group were subjected to two structured psychiatric interviews and questionnaires and psychometric scales, with the second evaluation performed sectionally at MRS. The MRS was obtained by 3-T MRI system with the volume of interest (VOI) positioned on the left dlPFC and bilateral ACG and processed by LC Model software. The neurochemical results expressed in absolute values and normalized by creatine (reason metabolite/creatine) were analyzed using ANCOVA, including age, postpartum time, the type of contraceptive as covariates. Results: In the dlPFC, PPD group presented significantly lower values of Glu/Cr (-0.17; p=0.05), Glx (-0.95mM; p=0.04), Glx/Cr (-0.22; p=0.03), NAA (-0.60mM; p<0.01), and NAA/Cr (-0.13; p=0.02) than HP. In ACG, progestogens isolated contraceptive hormones use resulted in significantly increased Glu (2.18mM; p=0.03), Glx (1.84mM; p=0.03), and reduced Cho/Cr (-0.08; p=0.03), compared to women without use them, regardless of diagnostic groups. Conclusions: The reduced levels of Glu and NAA in the PPD group are related respectively to the glutamatergic and neuroglial metabolic dysfunction in the dlPFC, which may explain cognitive symptoms also related to PPD as already verified in MDD. Progestogens isolated contraceptive hormones use interfered with neurochemistry of ACG, but not associated with PPD. Although the increase of glutamate may suggest an overactive ACG, and lower Cho/Cr represent decrease of the lipid membrane turnover or synaptic transduction its clinical and pathophysiological significance remains uncertain. These results contribute to the understanding of the neurochemical substrates of PPD

Anterior Cingulate Gyrus

Córtex Pré-frontal Dorsolateral

Depressão Periparto

Dorsolateral Prefrontal Cortex

Giro do Cíngulo Anterior

Magnetic Resonance Spectroscopy

Major Depressive Disorder

Peripartum Depression

Transtorno Depressivo Maior

Disfunção neuroquímica na depressão periparto / Neurochemistry dysfunction in peripartum depressive disorder

Carlos Eduardo Rosa

16 March 2016

A depressão periparto (PPD) é subtipo altamente prevalente e subdiagnosticado do transtorno depressivo maior (MDD), e causa um importante sofrimento para a mulher, sua família e seu filho. Uma interação complexa entre hormônios, neurotransmissores e fatores genéticos e ambientais pode estar envolvida na etiologia da PPD. Contudo, estudos de neuroimagem na PPD ainda são escassos, particularmente os que identificam alterações neuroquímicas. Sabe-se que a região do córtex pré frontal dorsolateral (dlPFC) está relacionada à funções executivas no circuito pré frontal, e juntamente com o giro do cíngulo anterior (ACG) faz parte das vias neuronais envolvidas no processamento emocional, desde a geração, regulação e reavaliação do estado afetivo. Existem evidências de que ambas as áreas estejam disfuncionais na MDD. A avaliação neuroquímica obtida pela espectroscopia de próton por ressonância magnética (MRS) permite inferir o metabolismo, a neurotransmissão e a viabilidade do tecido neuronal de interesse destas áreas fronto-límbicas. Objetivo: comparar puérperas com depressão periparto (grupo PPD) com puérperas saudáveis (grupo HP) quanto à avaliação neuroquímica no dlPFC esquerdo e no ACG bilateral. Métodos: 36 puérperas do grupo PPD e 25 puérperas do grupo HP foram submetidas à duas entrevistas psiquiátricas estruturadas e à aplicação de questionários e escalas psicométricas, sendo a segunda avaliação realizada seccionalmente à MRS. A MRS foi adquirida pro MRI com campo de 3 Tesla, estando o volume de interesse (VOI) posicionado no dlPFC esquerdo e no ACG bilateral e processada pelo software LCModel. Os resultados neuroquímicos expressos em valores absolutos e normalizados pela creatina (razão metabólito/creatina) foram analisados por ANCOVA, incluindo a idade, o tempo de puerpério e o tipo de contraceptivo, enquanto covariáveis. Resultados: No dlPFC, o grupo PPD apresentou menores valores de Glu/Cr (-0,17; p=0,05), Glx (-0,95 mM; p=0,04), Glx/Cr (-0,22; p=0,03), NAA (-0,60 mM; p<0,01), e NAA/Cr (-0,13; p=0,02) em relação ao grupo HP. No ACG, o uso de hormônios contraceptivos somente com progestágenos resultou em um aumento dos valores de Glu (2,18 mM; p=0,03), Glx (1,84 mM; p=0,03), e redução de Cho/Cr (-0,08; p=0,03) quando comparados ao grupo que não utilizou somente progestágenos, independentemente dos grupos HP e PPD. Conclusão: Os níveis reduzidos de Glu e NAA no grupo PPD estão relacionados, respectivamente, à disfunção metabólica glutamatérgica e neuroglial no dlPFC, o que pode explicar sintomas cognitivos também relacionados à PPD, tal como já verificado no MDD. O uso de hormônios contraceptivos com progestágenos isoladamente interferiu com a neuroquímica do ACG, mas não se relacionou com a PPD. Embora o aumento do glutamato possa sugerir uma hiperfuncionalidade do ACG, e a redução da Cho/Cr representar diminuição de \"turnover\" da membrana lipídica ou da transdução sináptica, seu significado clínico e fisiopatológico ainda é incerto. Estes resultados contribuem com a compreensão dos substratos neuroquímicos de PPD / Peripartum depression (PPD) is a highly prevalent subtype of major depressive disorder (MDD) related to a significant loss for mother, family and baby. An Interaction between hormones, genetic, and environmental factors must be involved in its etiology. However, neuroimaging studies on PPD are still rare, particularly those that identify neurochemical changes. However, neuroimaging studies in PPD are still rare, particularly those that identify neurochemical changes. It is known that the region of the dorsolateral prefrontal cortex (dlPFC) is related to executive functions in the prefrontal circuit, and together with the anterior cingulate gyrus (ACG) is part of the neural pathways involved in emotional processing, including the generation, regulation, and reappraisal of affective state. And, there is evidence that both areas are dysfunctional in MDD. The neurochemical evaluation obtained by spectroscopy of proton magnetic resonance (MRS) allows to infer metabolism, neurotransmission and the viability of the neuronal tissue of interest these frontal-limbic areas. Objective: Compare postpartum women with peripartum depression (PPD group) with healthy postpartum women (HP group) regarding the neurochemical evaluation in the left dlPFC and bilateral ACG. Methods: 36 postpartum women of PPD group and 25 postpartum women of the HP group were subjected to two structured psychiatric interviews and questionnaires and psychometric scales, with the second evaluation performed sectionally at MRS. The MRS was obtained by 3-T MRI system with the volume of interest (VOI) positioned on the left dlPFC and bilateral ACG and processed by LC Model software. The neurochemical results expressed in absolute values and normalized by creatine (reason metabolite/creatine) were analyzed using ANCOVA, including age, postpartum time, the type of contraceptive as covariates. Results: In the dlPFC, PPD group presented significantly lower values of Glu/Cr (-0.17; p=0.05), Glx (-0.95mM; p=0.04), Glx/Cr (-0.22; p=0.03), NAA (-0.60mM; p<0.01), and NAA/Cr (-0.13; p=0.02) than HP. In ACG, progestogens isolated contraceptive hormones use resulted in significantly increased Glu (2.18mM; p=0.03), Glx (1.84mM; p=0.03), and reduced Cho/Cr (-0.08; p=0.03), compared to women without use them, regardless of diagnostic groups. Conclusions: The reduced levels of Glu and NAA in the PPD group are related respectively to the glutamatergic and neuroglial metabolic dysfunction in the dlPFC, which may explain cognitive symptoms also related to PPD as already verified in MDD. Progestogens isolated contraceptive hormones use interfered with neurochemistry of ACG, but not associated with PPD. Although the increase of glutamate may suggest an overactive ACG, and lower Cho/Cr represent decrease of the lipid membrane turnover or synaptic transduction its clinical and pathophysiological significance remains uncertain. These results contribute to the understanding of the neurochemical substrates of PPD

Córtex Pré-frontal Dorsolateral

Depressão Periparto

Giro do Cíngulo Anterior

Transtorno Depressivo Maior

Anterior Cingulate Gyrus

Dorsolateral Prefrontal Cortex

Magnetic Resonance Spectroscopy

Major Depressive Disorder

Peripartum Depression

Performance of patients with ventromedial prefrontal, dorsolateral prefrontal, and non-frontal lesions on the Delis-Kaplan Executive Function System

Keifer, Ekaterina

01 December 2010

Executive functioning is a multidimensional concept encompassing higher-order adaptive abilities, such as judgment, decision-making, self-monitoring, planning, and emotional regulation. Disruption in executive functioning often results in devastating impairments in vitally-important areas of life, such as one's ability to hold employment and maintain social relationships. Executive functions have been associated primarily with the prefrontal cortex. However, the nature and degree of the association between frontal lobe damage and performance on executive functioning tests remains controversial. Research suggests that the association may vary based on the specific location of damage within the prefrontal cortex, as well as the used measure of executive functioning. Few investigations have systematically addressed these variables. The current study employed the lesion method to investigate the relationship between performance on a battery of executive functioning tests and damage to specific regions of the prefrontal cortex. Three groups of participants with lesions in one of the locations of interest [ventromedial prefrontal (VMPC, n = 14), dorsolateral prefrontal (DLPC, n = 14), and non-frontal (n = 18)] were administered the Delis-Kaplan Executive Function System (D-KEFS, 2001), a comprehensive battery of executive functioning tests. Results revealed no statistically-significant differences between group performances on the D-KEFS primary measures. However, a qualitative analysis of the results revealed several meaningful group differences. It appears that some relationship exists between frontal lobe damage, particularly in the DLPC, and decreased performance on several executive functioning tests but further research overcoming the methodological limitations of most existing literature on this topic is needed to clearly resolve this issue.

Delis-Kaplan Executive Function System

Dorsolateral Prefrontal Cortex

Executive functioning

Frontal lobe

Lesion

Ventromedial Prefrontal Cortex

Educational Psychology