Brain structures and networks responsible for stimulation-induced memory flashbacks during forniceal deep brain stimulation for Alzheimer's disease

Jürgen Germann; Gavin J.B. Elias; Alexandre Boutet; Keshav Narang; Clemens Neudorfer; Andreas Horn; Aaron Loh; Wissam Deeb; Bryan Salvato; Leonardo Almeida; Kelly D. Foote; Paul B. Rosenberg; David F. Tang-Wai; David A. Wolk; Anna D. Burke; Stephen Salloway; Marwan N. Sabbagh; M. Mallar Chakravarty; Gwenn S. Smith; Constantine G. Lyketsos; Michael S. Okun; Andres M. Lozano

doi:10.1002/alz.12238

Brain structures and networks responsible for stimulation-induced memory flashbacks during forniceal deep brain stimulation for Alzheimer's disease

Jürgen Germann
, Gavin J.B. Elias
, Alexandre Boutet
, Keshav Narang
, Clemens Neudorfer
, Andreas Horn
, Aaron Loh
, Wissam Deeb
, Bryan Salvato
, Leonardo Almeida
, Kelly D. Foote
, Paul B. Rosenberg
, David F. Tang-Wai
, David A. Wolk
, Anna D. Burke
, Stephen Salloway
, Marwan N. Sabbagh
, M. Mallar Chakravarty
, Gwenn S. Smith
, Constantine G. Lyketsos

Michael S. Okun, Andres M. Lozano

Research output: Contribution to journal › Article › peer-review

32 Scopus citations

Abstract

Introduction: Fornix deep brain stimulation (fx-DBS) is under investigation for treatment of Alzheimer's disease (AD). We investigated the anatomic correlates of flashback phenomena that were reported previously during acute diencephalic stimulation. Methods: Thirty-nine patients with mild AD who took part in a prior fx-DBS trial (NCT01608061) were studied. After localizing patients’ implanted electrodes and modeling the volume of tissue activated (VTA) by DBS during systematic stimulation testing, we performed (1) voxel-wise VTA mapping to identify flashback-associated zones; (2) machine learning–based prediction of flashback occurrence given VTA overlap with specific structures; (3) normative functional connectomics to define flashback-associated brain-wide networks. Results: A distinct diencephalic region was associated with greater flashback likelihood. Fornix, bed nucleus of stria terminalis, and anterior commissure involvement predicted memory events with 72% accuracy. Flashback-inducing stimulation exhibited greater functional connectivity to a network of memory-evoking and autobiographical memory-related sites. Discussion: These results clarify the neuroanatomical substrates of stimulation-evoked flashbacks.

Original language	English (US)
Pages (from-to)	777-787
Number of pages	11
Journal	Alzheimer's and Dementia
Volume	17
Issue number	5
DOIs	https://doi.org/10.1002/alz.12238
State	Published - May 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 The Authors. Alzheimer's & Dementia published by Wiley Periodicals LLC on behalf of Alzheimer's Association

Keywords

Alzheimer's disease
brain connectivity
deep brain stimulation
fornix
magnetic resonance imaging
memory

Publisher link

10.1002/alz.12238

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Germann, J., Elias, G. J. B., Boutet, A., Narang, K., Neudorfer, C., Horn, A., Loh, A., Deeb, W., Salvato, B., Almeida, L., Foote, K. D., Rosenberg, P. B., Tang-Wai, D. F., Wolk, D. A., Burke, A. D., Salloway, S., Sabbagh, M. N., Chakravarty, M. M., Smith, G. S., ... Lozano, A. M. (2021). Brain structures and networks responsible for stimulation-induced memory flashbacks during forniceal deep brain stimulation for Alzheimer's disease. Alzheimer's and Dementia, 17(5), 777-787. https://doi.org/10.1002/alz.12238

Germann, J, Elias, GJB, Boutet, A, Narang, K, Neudorfer, C, Horn, A, Loh, A, Deeb, W, Salvato, B, Almeida, L, Foote, KD, Rosenberg, PB, Tang-Wai, DF, Wolk, DA, Burke, AD, Salloway, S, Sabbagh, MN, Chakravarty, MM, Smith, GS, Lyketsos, CG, Okun, MS & Lozano, AM 2021, 'Brain structures and networks responsible for stimulation-induced memory flashbacks during forniceal deep brain stimulation for Alzheimer's disease', Alzheimer's and Dementia, vol. 17, no. 5, pp. 777-787. https://doi.org/10.1002/alz.12238

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title = "Brain structures and networks responsible for stimulation-induced memory flashbacks during forniceal deep brain stimulation for Alzheimer's disease",

abstract = "Introduction: Fornix deep brain stimulation (fx-DBS) is under investigation for treatment of Alzheimer's disease (AD). We investigated the anatomic correlates of flashback phenomena that were reported previously during acute diencephalic stimulation. Methods: Thirty-nine patients with mild AD who took part in a prior fx-DBS trial (NCT01608061) were studied. After localizing patients{\textquoteright} implanted electrodes and modeling the volume of tissue activated (VTA) by DBS during systematic stimulation testing, we performed (1) voxel-wise VTA mapping to identify flashback-associated zones; (2) machine learning–based prediction of flashback occurrence given VTA overlap with specific structures; (3) normative functional connectomics to define flashback-associated brain-wide networks. Results: A distinct diencephalic region was associated with greater flashback likelihood. Fornix, bed nucleus of stria terminalis, and anterior commissure involvement predicted memory events with 72\% accuracy. Flashback-inducing stimulation exhibited greater functional connectivity to a network of memory-evoking and autobiographical memory-related sites. Discussion: These results clarify the neuroanatomical substrates of stimulation-evoked flashbacks.",

keywords = "Alzheimer's disease, brain connectivity, deep brain stimulation, fornix, magnetic resonance imaging, memory",

author = "J{\"u}rgen Germann and Elias, \{Gavin J.B.\} and Alexandre Boutet and Keshav Narang and Clemens Neudorfer and Andreas Horn and Aaron Loh and Wissam Deeb and Bryan Salvato and Leonardo Almeida and Foote, \{Kelly D.\} and Rosenberg, \{Paul B.\} and Tang-Wai, \{David F.\} and Wolk, \{David A.\} and Burke, \{Anna D.\} and Stephen Salloway and Sabbagh, \{Marwan N.\} and Chakravarty, \{M. Mallar\} and Smith, \{Gwenn S.\} and Lyketsos, \{Constantine G.\} and Okun, \{Michael S.\} and Lozano, \{Andres M.\}",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors. Alzheimer's \& Dementia published by Wiley Periodicals LLC on behalf of Alzheimer's Association",

year = "2021",

month = may,

doi = "10.1002/alz.12238",

language = "English (US)",

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T1 - Brain structures and networks responsible for stimulation-induced memory flashbacks during forniceal deep brain stimulation for Alzheimer's disease

AU - Germann, Jürgen

AU - Elias, Gavin J.B.

AU - Boutet, Alexandre

AU - Narang, Keshav

AU - Neudorfer, Clemens

AU - Horn, Andreas

AU - Loh, Aaron

AU - Deeb, Wissam

AU - Salvato, Bryan

AU - Almeida, Leonardo

AU - Foote, Kelly D.

AU - Rosenberg, Paul B.

AU - Tang-Wai, David F.

AU - Wolk, David A.

AU - Burke, Anna D.

AU - Salloway, Stephen

AU - Sabbagh, Marwan N.

AU - Chakravarty, M. Mallar

AU - Smith, Gwenn S.

AU - Lyketsos, Constantine G.

AU - Okun, Michael S.

AU - Lozano, Andres M.

PY - 2021/5

Y1 - 2021/5

N2 - Introduction: Fornix deep brain stimulation (fx-DBS) is under investigation for treatment of Alzheimer's disease (AD). We investigated the anatomic correlates of flashback phenomena that were reported previously during acute diencephalic stimulation. Methods: Thirty-nine patients with mild AD who took part in a prior fx-DBS trial (NCT01608061) were studied. After localizing patients’ implanted electrodes and modeling the volume of tissue activated (VTA) by DBS during systematic stimulation testing, we performed (1) voxel-wise VTA mapping to identify flashback-associated zones; (2) machine learning–based prediction of flashback occurrence given VTA overlap with specific structures; (3) normative functional connectomics to define flashback-associated brain-wide networks. Results: A distinct diencephalic region was associated with greater flashback likelihood. Fornix, bed nucleus of stria terminalis, and anterior commissure involvement predicted memory events with 72% accuracy. Flashback-inducing stimulation exhibited greater functional connectivity to a network of memory-evoking and autobiographical memory-related sites. Discussion: These results clarify the neuroanatomical substrates of stimulation-evoked flashbacks.

AB - Introduction: Fornix deep brain stimulation (fx-DBS) is under investigation for treatment of Alzheimer's disease (AD). We investigated the anatomic correlates of flashback phenomena that were reported previously during acute diencephalic stimulation. Methods: Thirty-nine patients with mild AD who took part in a prior fx-DBS trial (NCT01608061) were studied. After localizing patients’ implanted electrodes and modeling the volume of tissue activated (VTA) by DBS during systematic stimulation testing, we performed (1) voxel-wise VTA mapping to identify flashback-associated zones; (2) machine learning–based prediction of flashback occurrence given VTA overlap with specific structures; (3) normative functional connectomics to define flashback-associated brain-wide networks. Results: A distinct diencephalic region was associated with greater flashback likelihood. Fornix, bed nucleus of stria terminalis, and anterior commissure involvement predicted memory events with 72% accuracy. Flashback-inducing stimulation exhibited greater functional connectivity to a network of memory-evoking and autobiographical memory-related sites. Discussion: These results clarify the neuroanatomical substrates of stimulation-evoked flashbacks.

KW - Alzheimer's disease

KW - brain connectivity

KW - deep brain stimulation

KW - fornix

KW - magnetic resonance imaging

KW - memory

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UR - https://www.scopus.com/pages/publications/85100167896#tab=citedBy

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DO - 10.1002/alz.12238

M3 - Article

C2 - 33480187

AN - SCOPUS:85100167896

SN - 1552-5260

VL - 17

SP - 777

EP - 787

JO - Alzheimer's and Dementia

JF - Alzheimer's and Dementia

IS - 5

ER -

Brain structures and networks responsible for stimulation-induced memory flashbacks during forniceal deep brain stimulation for Alzheimer's disease

Abstract

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