Subgenual cingulate cortex activity in predicting risk factor and treatment response in depression

DOI: https://doi.org/10.22225/wmj.3.2.743.53-60
Keywords: depression, anterior cingulate cortex, subgenual, biomarker, fMRI

Abstract

Major depressive disorder (MDD) contributes significantly to morbidity, disability, and decreased quality of life, despite the expansion of treatment options. This, in part, is caused by a lack of valid, applicable, and reliable biomarkers to predict the risk, treatment response, and prognosis of depression. In recent years, the anterior cingulate cortex, in particular pars subgenual (sgACC), has received much attention due to its potential utilization as a neural endophenotype for depression. This essay will discuss the functional activity of sgACC, mostly by functional magnetic resonance imaging, in relation to predicting risk for developing depression, predicting patient response-to-treatment, and eventually, to create a platform for personalized psychiatric approach to each patient. The caveats and conditions need to be met will also be discussed, in order to firmly establish sgACC activity as a valid biomarker for depression.

References

Prince M, Patel V, Saxena S, Maj M, Maselko J, Phillips MR, et al. No health without mental health. Lancet. 2007;370(9590):859-77.

Kessler RC, Berglund P, Demler O, Jin R, Koretz D, Merikangas KR, et al. The epidemiology of major depressive disorder: results from the National Comorbidity Survey Replication (NCS-R). JAMA : the journal of the American Medical Association. 2003;289(23):3095-105.

American Psychiatric Association. Diagnostic and Statistical Manual of Mental Disorders. 4 ed. Washington, DC: American Psychiatric Association; 2000.

Trivedi MH, Rush AJ, Wisniewski SR, Nierenberg AA, Warden D, Ritz L, et al. Evaluation of outcomes with citalopram for depression using measurement-based care in STAR*D: Implications for clinical practice. American Journal of Psychiatry. 2006;163(1):28-40.

Holtzheimer PE, Mayberg HS. Stuck in a rut: rethinking depression and its treatment. Trends in Neurosciences. 2011;34(1):1-9.

Caspi A, Moffitt TE. Gene-environment interactions in psychiatry: joining forces with neuroscience. Nat Rev Neurosci. 2006;7(7):583-90.

Singh I, Rose N. Biomarkers in psychiatry. Nature. 2009;460(7252):202-7.

Malhotra AK, Zhang JP, Lencz T. Pharmacogenetics in psychiatry: translating research into clinical practice. Mol Psychiatry. 2012;17(8):760-9.

Perna G, BAlletta R, Nemeroff CB. Precision psychiatry: Personalized clinical approach to depression. Biomedical and Neurobiological Background. 2018;1:245-61.

Sullivan PF, Neale MC, Kendler KS. Genetic epidemiology of major depression: review and meta-analysis. The American journal of psychiatry. 2000;157(10):1552-62.

Mehl MR. The lay assessment of subclinical depression in daily life. Psychological Assessment. 2006;18(3):340-5.

Morgan MA, LeDoux JE. Differential contribution of dorsal and ventral medial prefrontal cortex to the acquisition and extinction of conditioned fear in rats. Behavioral neuroscience. 1995;109(4):681-8.

Sullivan RM, A.Gratton. Lateralized effects of medial prefrontal cortex lesions on neuroendocrine and autonomic stress responses in rats. The Journal of neuroscience : the official journal of the Society for Neuroscience. 1999;19(7):2834-40.

Botteron KN, Raichle ME, Drevets WC, Heath AC, Todd RD. Volumetric reduction in left subgenual prefrontal cortex in early onset depression. Biological Psychiatry. 2002;51(4):342-4.

Drevets WC, Price JL, Simpson JR, Jr., Todd RD, Reich T, Vannier M, et al. Subgenual prefrontal cortex abnormalities in mood disorders. Nature. 1997;386(6627):824-7.

Frodl T, Jager M, Born C, Ritter S, Kraft E, Zetzsche T, et al. Anterior cingulate cortex does not differ between patients with major depression and healthy controls, but relatively large anterior cingulate cortex predicts a good clinical course. Psychiatry research. 2008;163(1):76-83.

Erkstrom A. How and when the fMRI BOLD signal relates to underlying neural activity: The danger in dissociation. Brain Research Reviews. 2010;62:233-44.

Racine E, Bar-Ilan O, Illes J. fMRI in the public eye. Nature Reviews Neuroscience. 2005;6:159-64.

Boes AD, McCormick LM, Coryell WH, Nopoulos P. Rostral anterior cingulate cortex volume correlates with depressed mood in normal healthy children. Biological Psychiatry. 2008;63(4):391-7.

Masten CL, Eisenberger NI, Borofsky LA, McNealy K, Pfeifer JH, Dapretto M. Subgenual anterior cingulate responses to peer rejection: A marker of adolescents' risk for depression. Development and Psychopathology. 2011;23(01):283-92.

Gotlib IH, Hamilton JP, Cooney RE, Singh MK, Henry ML, Joormann J. Neural processing of reward and loss in girls at risk for major depression. Arch Gen Psychiatry. 2010;67(4):380-7.

Hankin BL. Future directions in vulnerability to depression among youth: Integrating risk factors and processes across multiple levels of analysis. Journal of Clinical Child and Adolescent Psychology. 2012;41(5):708-11.

Mayberg HS, Brannan SK, Mahurin RK, Jerabek PA, Brickman JS, Tekell JL, et al. Cingulate function in depression: a potential predictor of treatment response. NeuroReport. 1997;8(4):1057-61.

Samson AC, Meisenzahl E, Scheuerecker J, Rose E, Schoepf V, Wiesmann M, et al. Brain activation predicts treatment improvement in patients with major depressive disorder. Journal of Psychiatric Research. 2011;45(9):1214-22.

Roy M, Harvey PO, Berlim MT, Mamdani F, beaulieu MM, Turecki G. Medial prefrontal cortex activity during memory encoding of pictures and its relation to symptomatic improvement after citalopram treatment in patients with major depression. Journal of Psychiatry Neuroscience. 2010;35:152-62.

Chen C-H, Ridler K, Suckling J, Williams S, Fu CHY, Merlo-Pich E, et al. Brain Imaging Correlates of Depressive Symptom Severity and Predictors of Symptom Improvement After Antidepressant Treatment. Biological Psychiatry. 2007;62(5):407-14.

Fu CHY, Steiner H, Costafreda SG. Predictive neural biomarkers of clinical response in depression: A meta-analysis of functional and structural neuroimaging studies of pharmacological and psychological therapies. Neurobiology of Disease. in press(0).

Little A. Treatment-resistant depression. American Family Physician. 2009;80(2):167-72.

Siegle GJ, Carter CS, Thase ME. Use of fMRI to predict recovery from unipolar depression with cognitive behavior therapy. American Journal of Psychiatry. 2006;163(4):735-8.

Fu CHY, Williams SCR, Cleare AJ, Scott J, Mitterschiffthaler MT, Walsh ND, et al. Neural Responses to Sad Facial Expressions in Major Depression Following Cognitive Behavioral Therapy. Biological Psychiatry. 2008;64(6):505-12.

Konarski JZ, Kennedy SH, Segal ZV, Lau MA, Bieling PJ, McIntyre RS, et al. Predictors of nonresponse to cognitive behavioural therapy or venlafaxine using glucose metabolism in major depressive disorder. Journal of Psychiatry and Neuroscience. 2009;34(3):175-80.

Argyelan M, et al. Subgenual cingulate cortical activity predicts the efficacy of electroconvulsive therapy. Translational Psychiatry. 2016;6:e789.

Ritchey M, Dolcos F, Eddington KM, Strauman TJ, Cabeza R. Neural correlates of emotional processing in depression: Changes with cognitive behavioral therapy and predictors of treatment response. Journal of Psychiatric Research. 2011;45(5):577-87.

Bennett CM, Wolford GL, Miller MB. The principled control of false positives in neuroimaging. Journal of Social, Cognitive, and Affective Neuroscience. 2009;4(4):417-22.

Logothetis NK. What we can do and what we cannot do with fMRI. Nature. 2008;453:869-78.

Barthas F, et al. Cingulate Overexpression of Mitogen-Activated Protein Kinase Phosphatase-1 as a Key Factor for Depression. Biological Psychiatry. 2017;8(5):370-9.

Segal ZV, Pearson JL, Thase ME. Challenges in preventing relapse in major depression: Report of a National Institute of Mental Health Workshop on state of the science of relapse prevention in major depression. Journal of affective disorders. 2003;77(2):97-108.

Hickie IB, Scott EM, Hermens DF, Naismith SL, Guastella AJ, Kaur M, et al. Applying clinical staging to young people who present for mental health care. Early Intervention in Psychiatry. 2012:no-no.

Nierenberg AA, Farabaugh AH, Alpert JE, Gordon J, Worthington JJ, Rosenbaum JF, et al. Timing of onset of antidepressant response with fluoxetine treatment. American Journal of Psychiatry. 2000;157(9):1423-8.

Phan JH, Quo CF, Wang MD. Functional genomics and proteomics in the clinical neurosciences: data mining and bioinformatics. Progress in Brain Research. 2006;158:83-108.

Uher R, Tansey KE, Malki K, Perlis RH. Biomarkers predicting treatment outcome in depression: what is clinically significant? Pharmacogenomics. 2012;13(2):233-40.

Gallagher P, Robinson LJ, Gray JM, Young AH, Porter RJ. Neurocognitive Function Following Remission in Major Depressive Disorder: Potential Objective Marker of Response? Australian and New Zealand Journal of Psychiatry. 2007;41(1):54-61.

Zeng L-L, Shen H, Liu L, Wang L, Li B, Fang P, et al. Identifying major depression using whole-brain functional connectivity: a multivariate pattern analysis. Brain. 2012;135(5):1498-507.

Published
2018-11-29
How to Cite
Supit, A. S. A., & Roosdy, I. (2018). Subgenual cingulate cortex activity in predicting risk factor and treatment response in depression. WMJ (Warmadewa Medical Journal), 3(2), 53-60. https://doi.org/10.22225/wmj.3.2.743.53-60
Issue
Vol. 3 No. 2 (2018): November 2018
Section
Articles
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