Ian S Curthoys
Overview
Explore the profile of Ian S Curthoys including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
126
Citations
2531
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Curthoys I, Zee D, Dumas G, Pastras C, Dlugaiczyk J
Front Neurol
. 2025 Feb;
16:1533842.
PMID: 39968451
In this paper we give an introduction to the area, followed by brief reviews of the neural response to sound and vibration, and then the velocity storage integrator, before putting...
2.
Smith C, Curthoys I, Laitman J
Anat Rec (Hoboken)
. 2024 Jul;
PMID: 38965777
The mammalian inner ear contains the sensory organs responsible for balance (semicircular canals, utricle, and saccule) and hearing (cochlea). While these organs are functionally distinct, there exists a critical structural...
3.
Pastras C, Curthoys I
Audiol Res
. 2023 Nov;
13(6):910-928.
PMID: 37987337
Both auditory and vestibular primary afferent neurons can be activated by sound and vibration. This review relates the differences between them to the different receptor/synaptic mechanisms of the two systems,...
4.
Pastras C, Curthoys I, Asadnia M, McAlpine D, Rabbitt R, Brown D
J Neurosci
. 2023 Sep;
43(43):7149-7157.
PMID: 37775302
Amniotes evolved a unique postsynaptic terminal in the inner ear vestibular organs called the calyx that receives both quantal and nonquantal (NQ) synaptic inputs from Type I sensory hair cells....
5.
Curthoys I, Smith C, Burgess A, Dlugaiczyk J
Audiol Res
. 2023 Jun;
13(3):418-430.
PMID: 37366683
Angular acceleration stimulation of a semicircular canal causes an increased firing rate in primary canal afferent neurons that result in nystagmus in healthy adult animals. However, increased firing rate in...
6.
Dumas G, Curthoys I, Castellucci A, Dumas L, Perrin P, Schmerber S
Front Neurol
. 2023 Jun;
14:1183040.
PMID: 37360355
Nystagmus produced in response to air-conducted sound (ACS) stimulation-the Tullio phenomenon-is well known in patients with a semicircular canal (SCC) dehiscence (SCD). Here we consider the evidence that bone-conducted vibration...
7.
Pastras C, Curthoys I, Rabbitt R, Brown D
Sci Rep
. 2023 Jun;
13(1):10204.
PMID: 37353559
To examine mechanisms responsible for vestibular afferent sensitivity to transient bone conducted vibration, we performed simultaneous measurements of stimulus-evoked vestibular compound action potentials (vCAPs), utricular macula velocity, and vestibular microphonics...
8.
Hannigan I, Nham B, Wang C, Rosengren S, Kwok B, McGarvie L, et al.
Otol Neurotol
. 2023 May;
44(6):e419-e427.
PMID: 37254257
Object: Vestibular evoked myogenic potentials (VEMPs) and the subjective visual horizontal (SVH) (or vertical [SVV]) have both been considered tests of otolith function: ocular-VEMPs (oVEMPs) utricular function, cervical VEMPs (cVEMPs)...
9.
Curthoys I, McGarvie L, MacDougall H, Burgess A, Halmagyi G, Rey-Martinez J, et al.
Front Neurol
. 2023 Apr;
14:1147253.
PMID: 37114229
This paper is concerned mainly with the assumptions underpinning the actual testing procedure, measurement, and interpretation of the video head impulse test-vHIT. Other papers have reported in detail the artifacts...
10.
Pastras C, Gholami N, Jennings S, Zhu H, Zhou W, Brown D, et al.
Front Neurol
. 2023 Apr;
14:1109506.
PMID: 37051057
Introduction: Calyx bearing vestibular afferent neurons innervating type I hair cells in the striolar region of the utricle are exquisitely sensitive to auditory-frequency air conducted sound (ACS) and bone conducted...