Establishing the ferret as a gyrencephalic animal model of traumatic brain injury: Optimization of controlled cortical impact procedures

Establishing the ferret as a gyrencephalic animal model of traumatic brain injury: Optimization of controlled cortical impact procedures

•Subject-specific MRI-guided coordinates overcame anatomical variability.•The temporalis muscle should be detached from the midline and reflected.•The craniotomy should be closed to avoid the temporalis muscle pushing on the brain.•This optimized surgical procedure created scaled injury in a reprodu...

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Bibliographic Details
Published in:Journal of neuroscience methods Vol. 285; pp. 82 - 96
Main Authors: Schwerin, Susan C., Hutchinson, Elizabeth B., Radomski, Kryslaine L., Ngalula, Kapinga P., Pierpaoli, Carlo M., Juliano, Sharon L.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 15-06-2017
Subjects:
Acute
Animals
Antibiotics
Astrocytes
Behavior
Brain Injuries, Traumatic - pathology
Brain Injuries, Traumatic - physiopathology
Brain Mapping
Calcium-Binding Proteins
CCI
Chronic
Cognitive
Craniotomy
Disease Models, Animal
DNA-Binding Proteins - metabolism
Exploratory Behavior - physiology
Ferrets
Gait - physiology
Glial Fibrillary Acidic Protein - metabolism
Image Processing, Computer-Assisted
Immunohistochemistry
Impairment
Inflammation
Landmarks
Magnetic Resonance Imaging
Male
Microfilament Proteins
Microglia
Motor
MRI
Neocortex - diagnostic imaging
Neocortex - pathology
Psychomotor Performance
Recognition, Psychology - physiology
Reproducibility
Surgery
TBI
Temporalis
Trauma Severity Indices
White matter
HPI
Immunohistochemistry
MRI
Impairment
IBA-1
WPI
Surgery
TBI
Cognitive
Behavior
PBS
Motor
Astrocytes
Acute
CCI
Inflammation
ROI
White matter
GFAP
Microglia
NOR
Chronic
Antibiotics
Reproducibility
Landmarks
Craniotomy
DPI
Temporalis
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Description
Summary:•Subject-specific MRI-guided coordinates overcame anatomical variability.•The temporalis muscle should be detached from the midline and reflected.•The craniotomy should be closed to avoid the temporalis muscle pushing on the brain.•This optimized surgical procedure created scaled injury in a reproducible location.•Behavior and astrocyte/microglial responses were scaled to injury severity. Although rodent TBI studies provide valuable information regarding the effects of injury and recovery, an animal model with neuroanatomical characteristics closer to humans may provide a more meaningful basis for clinical translation. The ferret has a high white/gray matter ratio, gyrencephalic neocortex, and ventral hippocampal location. Furthermore, ferrets are amenable to behavioral training, have a body size compatible with pre-clinical MRI, and are cost-effective. We optimized the surgical procedure for controlled cortical impact (CCI) using 9 adult male ferrets. We used subject-specific brain/skull morphometric data from anatomical MRIs to overcome across-subject variability for lesion placement. We also reflected the temporalis muscle, closed the craniotomy, and used antibiotics. We then gathered MRI, behavioral, and immunohistochemical data from 6 additional animals using the optimized surgical protocol: 1 control, 3 mild, and 1 severely injured animals (surviving one week) and 1 moderately injured animal surviving sixteen weeks. The optimized surgical protocol resulted in consistent injury placement. Astrocytic reactivity increased with injury severity showing progressively greater numbers of astrocytes within the white matter. The density and morphological changes of microglia amplified with injury severity or time after injury. Motor and cognitive impairments scaled with injury severity. The optimized surgical methods differ from those used in the rodent, and are integral to success using a ferret model. We optimized ferret CCI surgery for consistent injury placement. The ferret is an excellent animal model to investigate pathophysiological and behavioral changes associated with TBI.
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ISSN:0165-0270
1872-678X
DOI:10.1016/j.jneumeth.2017.05.010