- Hoang-Dang, Bianca;
- Halavi, Sabrina;
- Rotstein, Natalie;
- Spivak, Norman;
- Dang, Nolan;
- Cvijanovic, Luka;
- Hiller, Sonja;
- Vallejo-Martelo, Mauricio;
- Rosenberg, Benjamin;
- Swenson, Andrew;
- Becerra, Sergio;
- Sun, Michael;
- Revett, Malina;
- Kronemyer, David;
- Berlow, Rustin;
- Craske, Michelle;
- Suthana, Nanthia;
- Monti, Martin;
- Zbozinek, Tomislav;
- Bookheimer, Susan;
- Kuhn, Taylor
BACKGROUND: The amygdala is highly implicated in an array of psychiatric disorders but is not accessible using currently available noninvasive neuromodulatory techniques. Low-intensity transcranial focused ultrasound (TFUS) is a neuromodulatory technique that has the capability of reaching subcortical regions noninvasively. METHODS: We studied healthy older adult participants (N = 21, ages 48-79 years) who received TFUS targeting the right amygdala and left entorhinal cortex (active control region) using a 2-visit within-participant crossover design. Before and after TFUS, behavioral measures were collected via the State-Trait Anxiety Inventory and an emotional reactivity and regulation task utilizing neutral and negatively valenced images from the International Affective Picture System. Heart rate and self-reported emotional valence and arousal were measured during the emotional reactivity and regulation task to investigate subjective and physiological responses to the task. RESULTS: Significant increases in both self-reported arousal in response to negative images and heart rate during emotional reactivity and regulation task intertrial intervals were observed when TFUS targeted the amygdala; these changes were not evident when the entorhinal cortex was targeted. No significant changes were found for state anxiety, self-reported valence to the negative images, cardiac response to the negative images, or emotion regulation. CONCLUSIONS: The results of this study provide preliminary evidence that a single session of TFUS targeting the amygdala may alter psychophysiological and subjective emotional responses, indicating some potential for future neuropsychiatric applications. However, more work on TFUS parameters and targeting optimization is necessary to determine how to elicit changes in a more clinically advantageous way.