Habenula volume in bipolar disorder and major depressive disorder: a high-resolution magnetic resonance imaging study
Savitz, Jonathan B.
Nugent, Allison C.
Roiser, Jonathan P.
Bain, Earle E.
Zarate, Carlos A.
Manji, Husseini K.
Cannon, Dara M.
Charney, Dennis S.
Drevets, Wayne C.
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Savitz, Jonathan B. Nugent, Allison C.; Bogers, Wendy; Roiser, Jonathan P.; Bain, Earle E.; Neumeister, Alexander; Zarate, Carlos A.; Manji, Husseini K.; Cannon, Dara M.; Marrett, Sean; Henn, Fritz; Charney, Dennis S.; Drevets, Wayne C. (2011). Habenula volume in bipolar disorder and major depressive disorder: a high-resolution magnetic resonance imaging study. Biological Psychiatry 69 (4), 336-343
Background: Increased activity of the habenula has been implicated in the etiology of major depressive disorder (MDD), in which reductions in habenula volume are present after death. We conducted the first magnetic resonance imaging analysis of habenula volume in MDD and bipolar disorder (BD). Methods: High-resolution images (resolution approximately.4mm(3)) were acquired with a 3T scanner, and a pulse sequence was optimized for tissue contrast resolution. The habenula was manually segmented by one rater blind to diagnosis. Seventy-four healthy control subjects (HC) were compared with both medicated (lithium/divalproex, n = 15) and unmedicated, depressed BD (n = 22) patients; unmedicated, depressed MDD patients (n = 28); and unmedicated MDD patients in remission (n = 32). Results: The unmedicated BD patients displayed significantly smaller absolute (p &lt; .01) and normalized (p &lt; .05) habenula volumes than the HC subjects. In post hoc assessments analyzing men and women separately, the currently-depressed women with MDD had smaller absolute (p &lt; .05) habenula volumes than the HC women. None of the other psychiatric groups differed significantly from the HC group. Conclusions: We provide further evidence for the involvement of the habenula in affective illness but suggest that a reduction in volume might be more pronounced in unmedicated, depressed BD subjects and female currently depressed MDD subjects. The habenula plays major roles in the long-term modification of monoamine transmission and behavioral responses to stress and in the suppression of dopamine cell activity after the absence of an expected reward. A reduction in habenula volume might thus have functional consequences that contribute to the risk for developing affective disease.