Author
Listed:
- Yuhao Huang
(Stanford University)
- Bina W. Kakusa
(Stanford University)
- Austin Feng
(Stanford University)
- Sandra Gattas
(Stanford University)
- Rajat S. Shivacharan
(Stanford University)
- Eric B. Lee
(Stanford University)
- Jonathon J. Parker
(Stanford University)
- Fiene M. Kuijper
(Stanford University)
- Daniel A. N. Barbosa
(Stanford University)
- Corey J. Keller
(Stanford University
Veterans Affairs Palo Alto Healthcare System, and the Sierra Pacific Mental Illness, Research, Education, and Clinical Center (MIRECC))
- Cara Bohon
(Stanford University)
- Abanoub Mikhail
(Stanford University)
- Casey H. Halpern
(Stanford University)
Abstract
The insulo-opercular network functions critically not only in encoding taste, but also in guiding behavior based on anticipated food availability. However, there remains no direct measurement of insulo-opercular activity when humans anticipate taste. Here, we collect direct, intracranial recordings during a food task that elicits anticipatory and consummatory taste responses, and during ad libitum consumption of meals. While cue-specific high-frequency broadband (70–170 Hz) activity predominant in the left posterior insula is selective for taste-neutral cues, sparse cue-specific regions in the anterior insula are selective for palatable cues. Latency analysis reveals this insular activity is preceded by non-discriminatory activity in the frontal operculum. During ad libitum meal consumption, time-locked high-frequency broadband activity at the time of food intake discriminates food types and is associated with cue-specific activity during the task. These findings reveal spatiotemporally-specific activity in the human insulo-opercular cortex that underlies anticipatory evaluation of food across both controlled and naturalistic settings.
Suggested Citation
Yuhao Huang & Bina W. Kakusa & Austin Feng & Sandra Gattas & Rajat S. Shivacharan & Eric B. Lee & Jonathon J. Parker & Fiene M. Kuijper & Daniel A. N. Barbosa & Corey J. Keller & Cara Bohon & Abanoub , 2021.
"The insulo-opercular cortex encodes food-specific content under controlled and naturalistic conditions,"
Nature Communications, Nature, vol. 12(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-23885-4
DOI: 10.1038/s41467-021-23885-4
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