Longitudinal Volumetric Assessment of Ventricular Enlargement in Pet Dogs Trained for Functional Magnetic Resonance Imaging (fMRI) Studies.
MRI
attention
awake canine neuroimaging
brain
hydrocephalus
ventriculomegaly
Journal
Veterinary sciences
ISSN: 2306-7381
Titre abrégé: Vet Sci
Pays: Switzerland
ID NLM: 101680127
Informations de publication
Date de publication:
04 Sep 2020
04 Sep 2020
Historique:
received:
04
08
2020
revised:
28
08
2020
accepted:
02
09
2020
entrez:
9
9
2020
pubmed:
10
9
2020
medline:
10
9
2020
Statut:
epublish
Résumé
Recent studies suggest that clinically sound ventriculomegaly in dogs could be a preliminary form of the clinically significant hydrocephalus. We evaluated changes of ventricular volumes in awake functional magnetic resonance imaging (fMRI) trained dogs with indirectly assessed cognitive abilities over time (thus avoiding the use of anaesthetics, which can alter the pressure). Our research question was whether ventricular enlargement developing over time would have any detrimental effect on staying still while being scanned; which can be extrapolated to the ability to pay attention and to exert inhibition. Seven healthy dogs, 2-8 years old at the baseline scan and 4 years older at rescan, participated in a rigorous and gradual training for staying motionless (<2 mm) in the magnetic resonance (MR) scanner without any sedation during 6 minute-long structural MR sequences. On T1 structural images, volumetric analyses of the lateral ventricles were completed by software guided semi-automated tissue-type segmentations performed with FMRIB Software Library (FSL, Analysis Group, Oxford, UK). We report significant enlargement for both ventricles (left: 47.46 %, right: 46.07 %) over time while dogs retained high levels of attention and inhibition. The results suggest that even considerable ventricular enlargement arising during normal aging does not necessarily reflect observable pathological changes in behavior.
Sections du résumé
BACKGROUND
BACKGROUND
Recent studies suggest that clinically sound ventriculomegaly in dogs could be a preliminary form of the clinically significant hydrocephalus. We evaluated changes of ventricular volumes in awake functional magnetic resonance imaging (fMRI) trained dogs with indirectly assessed cognitive abilities over time (thus avoiding the use of anaesthetics, which can alter the pressure). Our research question was whether ventricular enlargement developing over time would have any detrimental effect on staying still while being scanned; which can be extrapolated to the ability to pay attention and to exert inhibition.
METHODS
METHODS
Seven healthy dogs, 2-8 years old at the baseline scan and 4 years older at rescan, participated in a rigorous and gradual training for staying motionless (<2 mm) in the magnetic resonance (MR) scanner without any sedation during 6 minute-long structural MR sequences. On T1 structural images, volumetric analyses of the lateral ventricles were completed by software guided semi-automated tissue-type segmentations performed with FMRIB Software Library (FSL, Analysis Group, Oxford, UK).
RESULTS AND CONCLUSION
CONCLUSIONS
We report significant enlargement for both ventricles (left: 47.46 %, right: 46.07 %) over time while dogs retained high levels of attention and inhibition. The results suggest that even considerable ventricular enlargement arising during normal aging does not necessarily reflect observable pathological changes in behavior.
Identifiants
pubmed: 32899680
pii: vetsci7030127
doi: 10.3390/vetsci7030127
pmc: PMC7558420
pii:
doi:
Types de publication
Journal Article
Langues
eng
Subventions
Organisme : Hungarian EFOP
ID : EFOP-3.62.-NEUR-I-H and NEUR-II-H
Organisme : Hungarian National Research Development and Innovation Office
ID : OTKA FK 128242; K 132372
Organisme : János Bolyai Research Scholarship of the Hungarian Academy of Sciences
ID : -
Organisme : BIAL Foundation
ID : 169/16
Organisme : European Research Council
ID : 680040
Pays : International
Organisme : Hungarian Academy of Sciences
ID : F01/031
Organisme : Hungarian Brain Research Program
ID : 2017-1.2.1-NKP-2017-00002
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