Changes in regional cerebral blood flow during acute electroconvulsive therapy in patients with depression

Takano, Harumasa; Motohashi, Nobutaka; Uema, Takeshi; Ogawa, Kenichi; Ohnishi, Takashi; Nishikawa, Masami; Kashima, Haruo; Matsuda, Hiroshi

doi:10.1192/bjp.bp.106.023036

Cited by 76 publications

(57 citation statements)

References 22 publications

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“…60,61 Our data differ with brain imaging findings from electroconvulsive shock therapy (ECT) in depressed patients, as ECT results in prefrontal and ACC metabolic decreases. [62][63][64] Although both non-pharmacological techniques affect neuronal circuits, the mechanism of action to achieve changes in mood in TRD patients might not be the same. 4 Our observation of a trend in right-to-left baseline BA 24 CMRglc asymmetry is in line with recent …”

Section: Discussionmentioning

confidence: 99%

HF-rTMS Treatment in Medication-Resistant Melancholic Depression:Results from¹⁸FDG-PET Brain Imaging

Baeken¹,

Raedt

Hove³

et al. 2009

CNS spectr.

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Section: Discussionmentioning

confidence: 99%

HF-rTMS Treatment in Medication-Resistant Melancholic Depression:Results from¹⁸FDG-PET Brain Imaging

Baeken¹,

Raedt

Hove³

et al. 2009

CNS spectr.

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“…35 Findings to support a measurable neuroendocrine involvement with nonconvulsive methods (repetitive TMS and VNS) comparable to that of ECT are lacking, probably because these treatment modalities do not engage centrencephalic centres.…”

Section: Evidence For the Theorymentioning

confidence: 99%

How Does Electroconvulsive Therapy Work? Theories on its Mechanism

Bolwig

2011

Can J Psychiatry

136

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This article reviews 3 current theories of electroconvulsive therapy (ECT). One theory points to generalized seizures as essential for the therapeutic efficacy of ECT. Another theory highlights the normalization of neuroendocrine dysfunction in melancholic depression as a result of ECT. A third theory is based on recent findings of increased hippocampal neurogenesis and synaptogenesis in experimental animals given electroconvulsive seizures. Presently, the endocrine theory has the strongest foundation to explain the working mechanism of ECT.

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“…Dabei wurde zum Zeitpunkt der Anfallsinduktion eine gesteigerte Aktivität im anterioren fronto-temporalen Kortex und in subkortikalen Strukturen (Thalamus, Basalganglien) beobachtet, wohingegen 30 Sekunden nach Anfallsinduktion die bilateralen parietalen und okzipitalen Kortizes eine erhöhte zerebrale Aktivität aufwiesen [23]. Übereinstimmend mit den SPECT-Befunden konnten zwei Untersuchungen mittels O 15 -H 2 O PET zerebrale Aktivitätssteigerungen während eines Krampfanfalls nachweisen [24,25]. Takano und Mitarbeiter fanden erhöhte iktale Perfusion in frontalen, temporalen und parietalen Kortizes sowie in Basalganglien, Amygdala und Hirnstamm [24].…”

Section: Iktale Effekteunclassified

“…Übereinstimmend mit den SPECT-Befunden konnten zwei Untersuchungen mittels O 15 -H 2 O PET zerebrale Aktivitätssteigerungen während eines Krampfanfalls nachweisen [24,25]. Takano und Mitarbeiter fanden erhöhte iktale Perfusion in frontalen, temporalen und parietalen Kortizes sowie in Basalganglien, Amygdala und Hirnstamm [24]. In einer nachfolgenden Arbeit konnten die Autoren aufzeigen, dass die erfolgreiche Induktion eines Anfalls im Vergleich zu insuffizienter Anfallsauslösung mit verstärkter Aktivität in den bezeichneten Gehirnstrukturen verbunden ist [25].…”

Section: Iktale Effekteunclassified

Elektrokonvulsive Therapie bei Depression: Welche Erkenntnisse erbringen fMRT-, PET- und SPECT-Untersuchungen?

Depping

Nolte

Palm

et al. 2014

Fortschr Neurol Psychiatr

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Electroconvulsive therapy (ECT) is the most potent and rapidly acting of all antidepressant treatments in major depressive disorder (MDD). Nuclear and functional magnetic (fMRI) brain imaging studies of ECT have substantially contributed to the neurobiological understanding of this treatment modality. Neuroimaging methods may also validate potential mechanisms of antidepressant action. Models of neural dysfunction in MDD suggest impaired modulation of activity within a cortico-limbic circuitry, along with alterations in the functional organisation of multiple brain networks implicated in emotional processes. Nuclear imaging techniques have demonstrated consistent patterns of ECT-induced ictal changes in brain activity that appear to be linked to efficacy and side effects of ECT. Interictally, widespread alterations of brain function have been reported, however, results remain inconclusive. FMRI studies of ECT have demonstrated longer-lasting, interictal changes of neural activity in multiple cerebral regions that are in accordance with functional neuroanatomical models of mood disorders. Future research detailing ECT interactions with brain pathophysiology in MDD could potentially provide a clinically useful framework to better predict ECT treatment response and/or side effects, and may also facilitate the development of more focused brain stimulation techniques.

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Changes in regional cerebral blood flow during acute electroconvulsive therapy in patients with depression

Abstract: These results suggest a relationship between the centrencephalic system and seizure generalisation. Further, they suggest that some neural mechanisms of action of ECT are mediated via brain regions including the anterior cingulate and medial frontal cortex and thalamus.

Cited by 76 publications

References 22 publications

HF-rTMS Treatment in Medication-Resistant Melancholic Depression:Results from¹⁸FDG-PET Brain Imaging

HF-rTMS Treatment in Medication-Resistant Melancholic Depression:Results from¹⁸FDG-PET Brain Imaging

How Does Electroconvulsive Therapy Work? Theories on its Mechanism

Elektrokonvulsive Therapie bei Depression: Welche Erkenntnisse erbringen fMRT-, PET- und SPECT-Untersuchungen?

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Changes in regional cerebral blood flow during acute electroconvulsive therapy in patients with depression

Abstract: These results suggest a relationship between the centrencephalic system and seizure generalisation. Further, they suggest that some neural mechanisms of action of ECT are mediated via brain regions including the anterior cingulate and medial frontal cortex and thalamus.

Cited by 76 publications

References 22 publications

HF-rTMS Treatment in Medication-Resistant Melancholic Depression:Results from18FDG-PET Brain Imaging

HF-rTMS Treatment in Medication-Resistant Melancholic Depression:Results from18FDG-PET Brain Imaging

How Does Electroconvulsive Therapy Work? Theories on its Mechanism

Elektrokonvulsive Therapie bei Depression: Welche Erkenntnisse erbringen fMRT-, PET- und SPECT-Untersuchungen?

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Product

Resources

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HF-rTMS Treatment in Medication-Resistant Melancholic Depression:Results from¹⁸FDG-PET Brain Imaging

HF-rTMS Treatment in Medication-Resistant Melancholic Depression:Results from¹⁸FDG-PET Brain Imaging