Author
Listed:
- D. A. Martins
(King’s College London)
- N. Mazibuko
(King’s College London)
- F. Zelaya
(King’s College London)
- S. Vasilakopoulou
(King’s College London)
- J. Loveridge
(King’s College London)
- A. Oates
(South London and Maudsley NHS Foundation Trust)
- S. Maltezos
(South London and Maudsley NHS Foundation Trust
King’s College London)
- M. Mehta
(King’s College London)
- S. Wastling
(King’s College London
University College London
National Hospital for Neurology and Neurosurgery)
- M. Howard
(King’s College London)
- G. McAlonan
(King’s College London)
- D. Murphy
(King’s College London)
- S. C. R. Williams
(King’s College London)
- A. Fotopoulou
(University College London)
- U. Schuschnig
(PARI GmbH)
- Y. Paloyelis
(King’s College London)
Abstract
Could nose-to-brain pathways mediate the effects of peptides such as oxytocin (OT) on brain physiology when delivered intranasally? We address this question by contrasting two methods of intranasal administration (a standard nasal spray, and a nebulizer expected to improve OT deposition in nasal areas putatively involved in direct nose-to-brain transport) to intravenous administration in terms of effects on regional cerebral blood flow during two hours post-dosing. We demonstrate that OT-induced decreases in amygdala perfusion, a key hub of the OT central circuitry, are explained entirely by OT increases in systemic circulation following both intranasal and intravenous OT administration. Yet we also provide robust evidence confirming the validity of the intranasal route to target specific brain regions. Our work has important translational implications and demonstrates the need to carefully consider the method of administration in our efforts to engage specific central oxytocinergic targets for the treatment of neuropsychiatric disorders.
Suggested Citation
D. A. Martins & N. Mazibuko & F. Zelaya & S. Vasilakopoulou & J. Loveridge & A. Oates & S. Maltezos & M. Mehta & S. Wastling & M. Howard & G. McAlonan & D. Murphy & S. C. R. Williams & A. Fotopoulou &, 2020.
"Effects of route of administration on oxytocin-induced changes in regional cerebral blood flow in humans,"
Nature Communications, Nature, vol. 11(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-14845-5
DOI: 10.1038/s41467-020-14845-5
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