Failure to breathe persists without air hunger or alarm following amygdala seizures
Gail I.S. Harmata, Ariane E. Rhone, Christopher K. Kovach, Sukhbinder Kumar, Md Rakibul Mowla, Rup K. Sainju, Yasunori Nagahama, Hiroyuki Oya, Brian K. Gehlbach, Michael A. Ciliberto, Rashmi N. Mueller, Hiroto Kawasaki, Kyle T.S. Pattinson, Kristina Simonyan, Paul W. Davenport, Matthew A. Howard III, Mitchell Steinschneider, Aubrey C. Chan, George B. Richerson, John A. Wemmie, Brian J. Dlouhy
Gail I.S. Harmata, Ariane E. Rhone, Christopher K. Kovach, Sukhbinder Kumar, Md Rakibul Mowla, Rup K. Sainju, Yasunori Nagahama, Hiroyuki Oya, Brian K. Gehlbach, Michael A. Ciliberto, Rashmi N. Mueller, Hiroto Kawasaki, Kyle T.S. Pattinson, Kristina Simonyan, Paul W. Davenport, Matthew A. Howard III, Mitchell Steinschneider, Aubrey C. Chan, George B. Richerson, John A. Wemmie, Brian J. Dlouhy
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Research Article Neuroscience

Failure to breathe persists without air hunger or alarm following amygdala seizures

Abstract

Postictal apnea is thought to be a major cause of sudden unexpected death in epilepsy (SUDEP). However, the mechanisms underlying postictal apnea are unknown. To understand causes of postictal apnea, we used a multimodal approach to study brain mechanisms of breathing control in 20 patients (ranging from pediatric to adult) undergoing intracranial electroencephalography for intractable epilepsy. Our results indicate that amygdala seizures can cause postictal apnea. Moreover, we identified a distinct region within the amygdala where electrical stimulation was sufficient to reproduce prolonged breathing loss persisting well beyond the end of stimulation. The persistent apnea was resistant to rising CO2 levels, and air hunger failed to occur, suggesting impaired CO2 chemosensitivity. Using es-fMRI, a potentially novel approach combining electrical stimulation with functional MRI, we found that amygdala stimulation altered blood oxygen level–dependent (BOLD) activity in the pons/medulla and ventral insula. Together, these findings suggest that seizure activity in a focal subregion of the amygdala is sufficient to suppress breathing and air hunger for prolonged periods of time in the postictal period, likely via brainstem and insula sites involved in chemosensation and interoception. They further provide insights into SUDEP, may help identify those at greatest risk, and may lead to treatments to prevent SUDEP.

Authors

Gail I.S. Harmata, Ariane E. Rhone, Christopher K. Kovach, Sukhbinder Kumar, Md Rakibul Mowla, Rup K. Sainju, Yasunori Nagahama, Hiroyuki Oya, Brian K. Gehlbach, Michael A. Ciliberto, Rashmi N. Mueller, Hiroto Kawasaki, Kyle T.S. Pattinson, Kristina Simonyan, Paul W. Davenport, Matthew A. Howard III, Mitchell Steinschneider, Aubrey C. Chan, George B. Richerson, John A. Wemmie, Brian J. Dlouhy

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Figure 7

Amygdala is functionally connected to the pons, medulla, and insula.

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Amygdala is functionally connected to the pons, medulla, and insula. (A)...
(A) Schematic of electrical stimulation concurrent with functional MRI paradigm (es-fMRI; adapted from Rocchi, Oya, and colleagues, ref. 70). EPI, echo planar imaging; TR, repetition time. (B) Axial MRI of P352’s bilateral temporal lobes with zoomed view of right amygdala. Stimulated contacts R2–R3 (red circles) are located within the pAIR site. (C) Continuous stimulation of R2–R3 at bedside (light gray shading) induced persistant apnea. (D) During es-fMRI, the same site was stimulated with stimulation pulses (red lines) with some disruption to the subject’s normal breathing. (E) BOLD response associated with stimulation of site R2–R3 in P352. Stimulation of the R2–R3 site caused a significant decrease of BOLD activity within the medulla (t value = 3.89, P < 0.001; top panel) and superior part of the pons (t value = 3.85, P < 0.001; middle panel). Stimulation of the pAIR site significantly increased BOLD activation in the ventral part of the insula (t value = 3.74, P < 0.001; bottom panel). (F) Axial MRI of P352 with zoomed view of the right amygdala and anterior temporal cortex. Stimulated contacts R3–R4 are shown with red circles. (G) Stimulation of this site at bedside (light gray) was not associated with changes in breathing. (H) Stimulation during es-fMRI caused minimal or no changes in breathing. (I) Comparison of BOLD activity in each ROI by stimulation site. R2–R3 stimulation (pAIR site, magenta) significantly decreased BOLD activity in the medulla and pons while increasing BOLD activity in the ventral insula. In contrast, stimulation in the amygdala but outside the pAIR site and AIR site (dark gray) revealed no significant BOLD changes in the medulla or pons. Stimulation outside the amygdala in the contralateral left insula was used as a control site (white) and did not result in significant BOLD changes in the brainstem. *P < 0.05.