Relationship between the prefrontal function and the severity of the emotional symptoms during a verbal fluency task in patients with major depressive disorder: A multi-channel NIRS study

Multi-channel near-infrared spectroscopy (NIRS) is a noninvasive and low-cost functional neuroimaging technique in psychiatric research, and it has been wildly used for detecting the spatiotemporal characteristics of brain activity. In order to evaluate the clinical value of NIRS data in the assistant diagnosis of major depressive disorder (MDD), prefrontal cortex (PFC) hemoglobin concentration exchange of 30 MDD patients combined with anxious and obsessive-compulsive symptom was detected by NIRS under voice fluency task (VFT), then the relationship between the severity of depressive, anxious and obsessive-compulsive symptom assessed by Hamilton Rating Scale for Depression (HAMD), Hamilton Anxiety Rating Scale (HAMA) and Yale-Brown Obsessive Compulsive Scale (Y-BOCS) with NIRS data in PFC was analyzed. Hypoactivation in lateral and lower PFC of MDD patients was confirmed in this study. Furthermore, Spearman correlation found that oxy-hemoglobin concentration ([oxy-Hb]) exchange in right-lateral PFC was associated with the severity of anxiety, while bilateral PFC and antero-medial PFC were associated with severity of depression. Meanwhile, no statistical correlation was observed on the severity of obsessive-compulsive symptom. The results prompted that MDD patients with anxiety and obsession-compulsion symptom showed a PFC hypoactivation state in NIRS. Furthermore, the function of right-lateral PFC was associated with anxiety symptom, while bilateral PFC and antero-medial PFC were associated with depression symptom. Different from depression and anxiety, obsession-compulsion may have a different biological character in PFC function.

[1]  J. Alvarez,et al.  Executive Function and the Frontal Lobes: A Meta-Analytic Review , 2006, Neuropsychology Review.

[2]  H N Wagner,et al.  Paralimbic hypoperfusion in unipolar depression. , 1994, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[3]  M. Herrmann,et al.  Cerebral oxygenation changes in the prefrontal cortex: Effects of age and gender , 2006, Neurobiology of Aging.

[4]  P Videbech,et al.  PET measurements of brain glucose metabolism and blood flow in major depressive disorder: a critical review , 2000, Acta psychiatrica Scandinavica.

[5]  W. Goodman,et al.  The Yale-Brown Obsessive Compulsive Scale. II. Validity. , 1989, Archives of general psychiatry.

[6]  A. Blasi,et al.  Illuminating the developing brain: The past, present and future of functional near infrared spectroscopy , 2010, Neuroscience & Biobehavioral Reviews.

[7]  A. Fallgatter,et al.  Functional near-infrared spectroscopy for the assessment of speech related tasks , 2012, Brain and Language.

[8]  U. Chaudhary,et al.  Frontal activation and connectivity using near-infrared spectroscopy: Verbal fluency language study , 2011, Brain Research Bulletin.

[9]  T. Kishimoto,et al.  Lower prefrontal activity in adults with obsessive–compulsive disorder as measured by near-infrared spectroscopy , 2013, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[10]  H. Yamasue,et al.  Activation of the prefrontal cortex to trauma-related stimuli measured by near-infrared spectroscopy in posttraumatic stress disorder due to terrorism. , 2003, Psychophysiology.

[11]  J. Soares,et al.  Relationship between regional cerebral blood flow and separate symptom clusters of major depression: A single photon emission computed tomography study using statistical parametric mapping , 2005, Neuroscience Letters.

[12]  Gary Boas Noninvasive Imaging of the Brain , 2004 .

[13]  T. Kishimoto,et al.  Reduced Prefrontal Hemodynamic Response in Pediatric Obsessive–Compulsive Disorder as Measured by Near-Infrared Spectroscopy , 2012, Child Psychiatry & Human Development.

[14]  M. Hamilton A RATING SCALE FOR DEPRESSION , 1960, Journal of neurology, neurosurgery, and psychiatry.

[15]  F. Jöbsis Noninvasive, infrared monitoring of cerebral and myocardial oxygen sufficiency and circulatory parameters. , 1977, Science.

[16]  Sungho Tak,et al.  NIRS-SPM: Statistical parametric mapping for near-infrared spectroscopy , 2009, NeuroImage.

[17]  M. Tamura,et al.  Impaired interhemispheric integration in brain oxygenation and hemodynamics in schizophrenia , 1993, Schizophrenia Research.

[18]  M. Tsuang,et al.  Clinical characteristics and family history in DSM-III obsessive-compulsive disorder. , 1986, The American journal of psychiatry.

[19]  Makoto Ito,et al.  Multichannel near-infrared spectroscopy in depression and schizophrenia: cognitive brain activation study , 2004, Biological Psychiatry.

[20]  H. Akiskal,et al.  Obsessive-compulsive-bipolar comorbidity: a systematic exploration of clinical features and treatment outcome. , 2002, The Journal of clinical psychiatry.

[21]  Takeshi Yamada,et al.  Reduced frontopolar activation during verbal fluency task associated with poor social functioning in late‐onset major depression: Multi‐channel near‐infrared spectroscopy study , 2008, Psychiatry and clinical neurosciences.

[22]  Atsushi Maki,et al.  Noninvasive near‐infrared topography of human brain activity using intensity modulation spectroscopy , 1996 .

[23]  Yoshihiro Tanaka,et al.  Anticipatory anxiety-induced changes in human lateral prefrontal cortex activity , 2007, Biological Psychology.

[24]  W. Drevets,et al.  Bipolar and major depressive disorder: Neuroimaging the developmental-degenerative divide , 2009, Neuroscience & Biobehavioral Reviews.

[25]  M. Hamilton The assessment of anxiety states by rating. , 1959, The British journal of medical psychology.

[26]  L. Altshuler,et al.  Regional fMRI hypoactivation and altered functional connectivity during emotion processing in nonmedicated depressed patients with bipolar II disorder. , 2012, The American journal of psychiatry.

[27]  E. Persad,et al.  Comorbidity of obsessive compulsive disorder in bipolar disorder. , 1995, Journal of affective disorders.

[28]  Michael F. Green,et al.  Cognitive training for divergent thinking in schizophrenia: A pilot study , 2009, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[29]  R. Parsey,et al.  Neuroanatomic correlates of psychopathologic components of major depressive disorder. , 2005, Archives of general psychiatry.

[30]  D. Delpy,et al.  Performance comparison of several published tissue near-infrared spectroscopy algorithms. , 1995, Analytical biochemistry.

[31]  Kiyoto Kasai,et al.  Multiple-time replicability of near-infrared spectroscopy recording during prefrontal activation task in healthy men , 2007, Neuroscience Research.

[32]  Y. Okamoto,et al.  Attenuated Left Prefrontal Activation during a Verbal Fluency Task in Patients with Depression , 2003, Neuropsychobiology.

[33]  Teruhiko Higuchi,et al.  Frontal and right temporal activations correlate negatively with depression severity during verbal fluency task: a multi-channel near-infrared spectroscopy study. , 2012, Journal of psychiatric research.

[34]  Masato Fukuda,et al.  Reduced frontopolar activation during verbal fluency task in schizophrenia: A multi-channel near-infrared spectroscopy study , 2008, Schizophrenia Research.

[35]  J. Kwon,et al.  Neural correlates of clinical symptoms and cognitive dysfunctions in obsessive–compulsive disorder , 2003, Psychiatry Research: Neuroimaging.

[36]  M. Ferrari,et al.  A brief review on the use of functional near-infrared spectroscopy (fNIRS) for language imaging studies in human newborns and adults , 2012, Brain and Language.

[37]  Mark S. George,et al.  Regional cerebral metabolism associated with anxiety symptoms in affective disorder patients , 2000, Biological Psychiatry.

[38]  Hiroshi Kunugi,et al.  Functional near-infrared spectroscopy reveals altered hemispheric laterality in relation to schizotypy during verbal fluency task , 2008, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[39]  Ken Inoue,et al.  Relationship between the prefrontal function during a cognitive task and the severity of the symptoms in patients with panic disorder: A multi-channel NIRS study , 2009, Psychiatry Research: Neuroimaging.

[40]  D. Drapier,et al.  Obsessive Compulsive Disorder Networks: Positron Emission Tomography and Neuropsychology Provide New Insights , 2013, PloS one.

[41]  K. Kasai,et al.  Gender difference in right lateral prefrontal hemodynamic response while viewing fearful faces: A multi-channel near-infrared spectroscopy study , 2009, Neuroscience Research.

[42]  T. Egner,et al.  Emotional processing in anterior cingulate and medial prefrontal cortex , 2011, Trends in Cognitive Sciences.

[43]  W. Goodman,et al.  The Yale-Brown Obsessive Compulsive Scale. I. Development, use, and reliability. , 1989, Archives of general psychiatry.

[44]  Masaki Kameyama,et al.  Frontal lobe function in bipolar disorder: A multichannel near-infrared spectroscopy study , 2006, NeuroImage.

[45]  S. Strakowski,et al.  Functional Magnetic Resonance Imaging Brain Activation in Bipolar Mania: Evidence for Disruption of the Ventrolateral Prefrontal-Amygdala Emotional Pathway , 2011, Biological Psychiatry.

[46]  Marco Ferrari,et al.  A brief review on the history of human functional near-infrared spectroscopy (fNIRS) development and fields of application , 2012, NeuroImage.

[47]  R. Dolan,et al.  Changes in regional cerebral blood flow on recovery from depression , 1995, Psychological Medicine.

[48]  W. Drevets Neuroimaging studies of mood disorders , 2000, Biological Psychiatry.

[49]  S. Rauch,et al.  Neurobiology of emotion perception I: the neural basis of normal emotion perception , 2003, Biological Psychiatry.

[50]  P. Jayakar,et al.  Near-Infrared Spectroscopy to Define Cognitive Frontal Lobe Functions , 2005, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[51]  Masaki Fumoto,et al.  Reduced prefrontal cortex activation during divergent thinking in schizophrenia: A multi-channel NIRS study , 2010, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[52]  Atsushi Sato,et al.  Changes in cerebral glucose utilization in patients with panic disorder treated with cognitive–behavioral therapy , 2006, NeuroImage.

[53]  L. Altshuler,et al.  Emotion processing and regulation in bipolar disorder: a review , 2012, Bipolar disorders.

[54]  Peter Falkai,et al.  The orbitofrontal cortex and its role in the assignment of behavioural significance , 2011, Neuropsychologia.

[55]  S. Alborzian,et al.  Brain metabolic changes in major depressive disorder from pre- to post-treatment with paroxetine , 1999, Psychiatry Research: Neuroimaging.

[56]  K. N’diaye,et al.  Decrease of Prefrontal Metabolism After Subthalamic Stimulation in Obsessive-Compulsive Disorder: A Positron Emission Tomography Study , 2010, Biological Psychiatry.

[57]  M. Fava,et al.  Clinical correlates and symptom patterns of anxious depression among patients with major depressive disorder in STAR*D , 2004, Psychological Medicine.

[58]  Lorena Hsu,et al.  Prevalence and Incidence Studies of Anxiety Disorders: A Systematic Review of the Literature , 2004, Canadian journal of psychiatry. Revue canadienne de psychiatrie.