preprints_ui: 7pn9r_v1

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Data license: ODbL (database) & original licenses (content) · Data source: Open Science Framework

id	title	description	date_created	date_modified	date_published	original_publication_date	publication_doi	provider	is_published	reviews_state	version	is_latest_version	preprint_doi	license	tags_list	tags_data	contributors_list	contributors_data	first_author	subjects_list	subjects_data	download_url	has_coi	conflict_of_interest_statement	has_data_links	has_prereg_links	prereg_links	prereg_link_info	last_updated
7pn9r_v1	Durable modulation of deep brain circuits for treatments of anxiety-related disorders	Mental disorders affect nearly every fifth person. In about one third of the cases, there is no adequate treatment. Circuit modulation with low-intensity ultrasound provides new noninvasive and targeted treatment option. Low-intensity, sustained ultrasound promotes circuit reorganization specifically at the desired deep brain targets, thus providing the necessary reset. In this work, we will quantify the magnitude and duration of these neuroplastic effects, and apply the stimuli to the amygdala to reduce anxiety in primates. The approach, based on 650 kHz ultrasound, is projected to translate into clinical trials performed on the Insightec brain system.	2024-10-28T16:29:40.418238	2024-10-28T16:38:01.257573	2024-10-28T16:37:46.116201			focusarchive	1	accepted	1	1	https://doi.org/10.31225/osf.io/7pn9r	CC-By Attribution 4.0 International		[]	Jan Kubanek	[{"id": "d4nzh", "name": "Jan Kubanek", "index": 0, "orcid": "0000-0003-0527-5559", "bibliographic": true}]	Jan Kubanek	Medicine and Health Sciences; Life Sciences; Engineering	[{"id": "59bacc5654be81033c4e4a6d", "text": "Medicine and Health Sciences"}, {"id": "59bacc5654be81033c4e4a6e", "text": "Life Sciences"}, {"id": "59bacc5654be81033c4e4a6f", "text": "Engineering"}]	https://osf.io/download/671fbc003e0ee50920bfa310	0				null		2025-04-09T21:06:18.447857