A venous mechanism of ventriculomegaly shared between traumatic brain injury and normal ageing

Recently, age-related timing dissociation between the superficial and deep venous systems has been observed; this was particularly pronounced in patients with normal pressure hydrocephalus, suggesting a common mechanism of ventriculomegaly. Establishing the relationship between venous drainage and v...

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Published inBrain (London, England : 1878) Vol. 143; no. 6; pp. 1843 - 1856
Main Authors Aso, Toshihiko, Sugihara, Genichi, Murai, Toshiya, Ubukata, Shiho, Urayama, Shin-ichi, Ueno, Tsukasa, Fujimoto, Gaku, Thuy, Dinh Ha Duy, Fukuyama, Hidenao, Ueda, Keita
Format Journal Article
LanguageEnglish
Published England Oxford University Press 01.06.2020
Subjects
Adult
Aged
Aging - pathology
Aging - physiology
Brain Injuries, Traumatic - diagnostic imaging
Brain Injuries, Traumatic - metabolism
Brain Injuries, Traumatic - physiopathology
Cerebral Ventricles - pathology
Editor's Choice
Female
Femoral Vein
Humans
Hydrocephalus - etiology
Hydrocephalus - metabolism
Hydrocephalus - physiopathology
Hydrocephalus, Normal Pressure - diagnostic imaging
Hydrocephalus, Normal Pressure - pathology
Iliac Vein
Magnetic Resonance Imaging - methods
Male
Middle Aged
Nervous System Malformations - pathology
Original
Popliteal Vein
Tomography, X-Ray Computed - methods
traumatic brain injury
ventricular enlargement
normal pressure hydrocephalus
venous drainage
brain ageing
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Abstract Recently, age-related timing dissociation between the superficial and deep venous systems has been observed; this was particularly pronounced in patients with normal pressure hydrocephalus, suggesting a common mechanism of ventriculomegaly. Establishing the relationship between venous drainage and ventricular enlargement would be clinically relevant and could provide insight into the mechanisms underlying brain ageing. To investigate a possible link between venous drainage and ventriculomegaly in both normal ageing and pathological conditions, we compared 225 healthy subjects (137 males and 88 females) and 71 traumatic brain injury patients of varying ages (53 males and 18 females) using MRI-based volumetry and a novel perfusion-timing analysis. Volumetry, focusing on the CSF space, revealed that the sulcal space and ventricular size presented different lifespan profiles with age; the latter presented a quadratic, rather than linear, pattern of increase. The venous timing shift slightly preceded this change, supporting a role for venous drainage in ventriculomegaly. In traumatic brain injury, a small but significant disease effect, similar to idiopathic normal pressure hydrocephalus, was found in venous timing, but it tended to decrease with age at injury, suggesting an overlapping mechanism with normal ageing. Structural bias due to, or a direct causative role of ventriculomegaly was unlikely to play a dominant role, because of the low correlation between venous timing and ventricular size after adjustment for age in both patients and controls. Since post-traumatic hydrocephalus can be asymptomatic and occasionally overlooked, the observation suggested a link between venous drainage and CSF accumulation. Thus, hydrocephalus, involving venous insufficiency, may be a part of normal ageing, can be detected non-invasively, and is potentially treatable. Further investigation into the clinical application of this new marker of venous function is therefore warranted.
AbstractList Age-related ventricular dilatation is considered a consequence of tissue atrophy, distinct from the ventriculomegaly seen in idiopathic normal pressure hydrocephalus. Aso et al . show that an age-related venous perfusion timing shift may be another factor driving ventricular enlargement in both normal ageing and pathology. Recently, age-related timing dissociation between the superficial and deep venous systems has been observed; this was particularly pronounced in patients with normal pressure hydrocephalus, suggesting a common mechanism of ventriculomegaly. Establishing the relationship between venous drainage and ventricular enlargement would be clinically relevant and could provide insight into the mechanisms underlying brain ageing. To investigate a possible link between venous drainage and ventriculomegaly in both normal ageing and pathological conditions, we compared 225 healthy subjects (137 males and 88 females) and 71 traumatic brain injury patients of varying ages (53 males and 18 females) using MRI-based volumetry and a novel perfusion-timing analysis. Volumetry, focusing on the CSF space, revealed that the sulcal space and ventricular size presented different lifespan profiles with age; the latter presented a quadratic, rather than linear, pattern of increase. The venous timing shift slightly preceded this change, supporting a role for venous drainage in ventriculomegaly. In traumatic brain injury, a small but significant disease effect, similar to idiopathic normal pressure hydrocephalus, was found in venous timing, but it tended to decrease with age at injury, suggesting an overlapping mechanism with normal ageing. Structural bias due to, or a direct causative role of ventriculomegaly was unlikely to play a dominant role, because of the low correlation between venous timing and ventricular size after adjustment for age in both patients and controls. Since post-traumatic hydrocephalus can be asymptomatic and occasionally overlooked, the observation suggested a link between venous drainage and CSF accumulation. Thus, hydrocephalus, involving venous insufficiency, may be a part of normal ageing, can be detected non-invasively, and is potentially treatable. Further investigation into the clinical application of this new marker of venous function is therefore warranted.
Recently, age-related timing dissociation between the superficial and deep venous systems has been observed; this was particularly pronounced in patients with normal pressure hydrocephalus, suggesting a common mechanism of ventriculomegaly. Establishing the relationship between venous drainage and ventricular enlargement would be clinically relevant and could provide insight into the mechanisms underlying brain ageing. To investigate a possible link between venous drainage and ventriculomegaly in both normal ageing and pathological conditions, we compared 225 healthy subjects (137 males and 88 females) and 71 traumatic brain injury patients of varying ages (53 males and 18 females) using MRI-based volumetry and a novel perfusion-timing analysis. Volumetry, focusing on the CSF space, revealed that the sulcal space and ventricular size presented different lifespan profiles with age; the latter presented a quadratic, rather than linear, pattern of increase. The venous timing shift slightly preceded this change, supporting a role for venous drainage in ventriculomegaly. In traumatic brain injury, a small but significant disease effect, similar to idiopathic normal pressure hydrocephalus, was found in venous timing, but it tended to decrease with age at injury, suggesting an overlapping mechanism with normal ageing. Structural bias due to, or a direct causative role of ventriculomegaly was unlikely to play a dominant role, because of the low correlation between venous timing and ventricular size after adjustment for age in both patients and controls. Since post-traumatic hydrocephalus can be asymptomatic and occasionally overlooked, the observation suggested a link between venous drainage and CSF accumulation. Thus, hydrocephalus, involving venous insufficiency, may be a part of normal ageing, can be detected non-invasively, and is potentially treatable. Further investigation into the clinical application of this new marker of venous function is therefore warranted.
Recently, age-related timing dissociation between the superficial and deep venous systems has been observed; this was particularly pronounced in patients with normal pressure hydrocephalus, suggesting a common mechanism of ventriculomegaly. Establishing the relationship between venous drainage and ventricular enlargement would be clinically relevant and could provide insight into the mechanisms underlying brain ageing. To investigate a possible link between venous drainage and ventriculomegaly in both normal ageing and pathological conditions, we compared 225 healthy subjects (137 males and 88 females) and 71 traumatic brain injury patients of varying ages (53 males and 18 females) using MRI-based volumetry and a novel perfusion-timing analysis. Volumetry, focusing on the CSF space, revealed that the sulcal space and ventricular size presented different lifespan profiles with age; the latter presented a quadratic, rather than linear, pattern of increase. The venous timing shift slightly preceded this change, supporting a role for venous drainage in ventriculomegaly. In traumatic brain injury, a small but significant disease effect, similar to idiopathic normal pressure hydrocephalus, was found in venous timing, but it tended to decrease with age at injury, suggesting an overlapping mechanism with normal ageing. Structural bias due to, or a direct causative role of ventriculomegaly was unlikely to play a dominant role, because of the low correlation between venous timing and ventricular size after adjustment for age in both patients and controls. Since post-traumatic hydrocephalus can be asymptomatic and occasionally overlooked, the observation suggested a link between venous drainage and CSF accumulation. Thus, hydrocephalus, involving venous insufficiency, may be a part of normal ageing, can be detected non-invasively, and is potentially treatable. Further investigation into the clinical application of this new marker of venous function is therefore warranted.Recently, age-related timing dissociation between the superficial and deep venous systems has been observed; this was particularly pronounced in patients with normal pressure hydrocephalus, suggesting a common mechanism of ventriculomegaly. Establishing the relationship between venous drainage and ventricular enlargement would be clinically relevant and could provide insight into the mechanisms underlying brain ageing. To investigate a possible link between venous drainage and ventriculomegaly in both normal ageing and pathological conditions, we compared 225 healthy subjects (137 males and 88 females) and 71 traumatic brain injury patients of varying ages (53 males and 18 females) using MRI-based volumetry and a novel perfusion-timing analysis. Volumetry, focusing on the CSF space, revealed that the sulcal space and ventricular size presented different lifespan profiles with age; the latter presented a quadratic, rather than linear, pattern of increase. The venous timing shift slightly preceded this change, supporting a role for venous drainage in ventriculomegaly. In traumatic brain injury, a small but significant disease effect, similar to idiopathic normal pressure hydrocephalus, was found in venous timing, but it tended to decrease with age at injury, suggesting an overlapping mechanism with normal ageing. Structural bias due to, or a direct causative role of ventriculomegaly was unlikely to play a dominant role, because of the low correlation between venous timing and ventricular size after adjustment for age in both patients and controls. Since post-traumatic hydrocephalus can be asymptomatic and occasionally overlooked, the observation suggested a link between venous drainage and CSF accumulation. Thus, hydrocephalus, involving venous insufficiency, may be a part of normal ageing, can be detected non-invasively, and is potentially treatable. Further investigation into the clinical application of this new marker of venous function is therefore warranted.
Author Sugihara, Genichi
Murai, Toshiya
Thuy, Dinh Ha Duy
Ubukata, Shiho
Fujimoto, Gaku
Fukuyama, Hidenao
Urayama, Shin-ichi
Ueno, Tsukasa
Aso, Toshihiko
Ueda, Keita
AuthorAffiliation a3 Human Brain Research Center, Kyoto University Graduate School of Medicine , Kyoto, Japan
a2 Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research , Kobe, Japan
a4 Department of Psychiatry and Behavioral Sciences, Graduate School of Medical and Dental Sciences, Tokyo Medical and Dental University , Tokyo, Japan
a5 Medical Innovation Center, Kyoto University Graduate School of Medicine , Kyoto, Japan
a6 Research and Educational Unit of Leaders for Integrated Medical System, Center for the Promotion of Interdisciplinary Education and Research, Kyoto University , Kyoto, Japan
a1 Department of Psychiatry, Kyoto University Graduate School of Medicine , Kyoto, Japan
AuthorAffiliation_xml – name: a3 Human Brain Research Center, Kyoto University Graduate School of Medicine , Kyoto, Japan
– name: a5 Medical Innovation Center, Kyoto University Graduate School of Medicine , Kyoto, Japan
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Keywords traumatic brain injury
ventricular enlargement
normal pressure hydrocephalus
venous drainage
brain ageing
Language English
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Snippet Recently, age-related timing dissociation between the superficial and deep venous systems has been observed; this was particularly pronounced in patients with...
Age-related ventricular dilatation is considered a consequence of tissue atrophy, distinct from the ventriculomegaly seen in idiopathic normal pressure...
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StartPage 1843
SubjectTerms Adult
Aged
Aging - pathology
Aging - physiology
Brain Injuries, Traumatic - diagnostic imaging
Brain Injuries, Traumatic - metabolism
Brain Injuries, Traumatic - physiopathology
Cerebral Ventricles - pathology
Editor's Choice
Female
Femoral Vein
Humans
Hydrocephalus - etiology
Hydrocephalus - metabolism
Hydrocephalus - physiopathology
Hydrocephalus, Normal Pressure - diagnostic imaging
Hydrocephalus, Normal Pressure - pathology
Iliac Vein
Magnetic Resonance Imaging - methods
Male
Middle Aged
Nervous System Malformations - pathology
Original
Popliteal Vein
Tomography, X-Ray Computed - methods
Title A venous mechanism of ventriculomegaly shared between traumatic brain injury and normal ageing
URI https://www.ncbi.nlm.nih.gov/pubmed/32372102
https://www.proquest.com/docview/2399241150
https://pubmed.ncbi.nlm.nih.gov/PMC7296851
Volume 143
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