document.write("
"); document.write("
Bastian,\ L.*\ ; Naher,\ T.*\ ; V. Ngo,\ H.*\ ; Kroemer,\ N.B.*\ ; Mednick,\ S.*\ ; Fries,\ P.*\ ; Born,\ J.
"); document.write("
Corrigendum to “Open-loop transcutaneous vagus nerve stimulation ofsleep slow oscillations” [Brain Stimul 18 (1) (2025) 241].
"); document.write("
Brain Stimul. 18, 1252-1252 (2025)
"); document.write("
"); document.write("
"); document.write("
Ester-Nacke,\ T.\ ; Veit,\ R.\ ; Thomanek,\ J.\ ; Book,\ M.\ ; Tamble,\ L.\ ; Beermann,\ M.\ ; Löffler,\ D.\ ; Salvador,\ R.*\ ; Ruffini,\ G.*\ ; Heni,\ M.\ ; Birkenfeld,\ A.L.\ ; Plewnia,\ C.*\ ; Preissl,\ H.\ ; Kullmann,\ S.
"); document.write("
Repeated net-tDCS of the hypothalamus appetite-control network enhances inhibitory control and decreases sweet food intake in persons with overweight or obesity.
"); document.write("
Brain Stimul. 18, 863-874 (2025)
"); document.write("
"); document.write("
"); document.write("
Müller,\ S.J.*\ ; Teckentrup,\ V.*\ ; Rebollo,\ I.*\ ; Hallschmid,\ M.\ ; Kroemer,\ N.B.*
"); document.write("
Vagus nerve stimulation increases stomach-brain coupling via a vagal afferent pathway.
"); document.write("
Brain Stimul. 15, 1279-1289 (2022)
"); document.write("
"); document.write("
"); document.write("
Teckentrup,\ V.*\ ; Neubert,\ S.*\ ; Santiago,\ J.C.\ ; Hallschmid,\ M.\ ; Walter,\ M.*\ ; Kroemer,\ N.B.*
"); document.write("
Non-invasive stimulation of vagal afferents reduces gastric frequency.
"); document.write("
Brain Stimul. 13, 470-473 (2020)
"); document.write("
");