Evolving Wallerian degeneration after transient retinal ischemia in mice characterized by diffusion tensor imaging

Wallerian degeneration plays a significant role in many central nervous system (CNS) diseases. Tracking the progression of Wallerian degeneration may provide better understanding of the evolution of many CNS diseases. In this study, a 28-day longitudinal in vivo DTI of optic nerve (ON) and optic tra...

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Published inNeuroImage (Orlando, Fla.) Vol. 40; no. 1; pp. 1 - 10
Main Authors Sun, Shu-Wei, Liang, Hsiao-Fang, Cross, Anne H., Song, Sheng-Kwei
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.03.2008
Elsevier Limited
Subjects
Algorithms
Animals
Axons - pathology
Biomarkers
Brain
Cell Count
Cell Death
Diffusion
Diffusion Magnetic Resonance Imaging
Immunohistochemistry
Ischemia
Male
Mice
Myelin Basic Protein - metabolism
Myelin Sheath - pathology
Neurofilament Proteins - metabolism
Optic nerve
Optic Nerve - pathology
Phosphorylation
Retinal Ganglion Cells - pathology
Retinal Vessels - pathology
Studies
Visual Pathways - pathology
Wallerian Degeneration - pathology
Online AccessGet full text
ISSN1053-8119
1095-9572
DOI10.1016/j.neuroimage.2007.11.049

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Abstract Wallerian degeneration plays a significant role in many central nervous system (CNS) diseases. Tracking the progression of Wallerian degeneration may provide better understanding of the evolution of many CNS diseases. In this study, a 28-day longitudinal in vivo DTI of optic nerve (ON) and optic tract (OT) was conducted to evaluate the temporal and spatial evolution of Wallerian degeneration resulting from the transient retinal ischemia. At 3–28 days after ischemia, ipsilateral ON and contralateral OT showed significant reduction in axial diffusivity (32–40% and 21–29% respectively) suggestive of axonal damage. Both ON and OT showed significant increase in radial diffusivity, 200–290% and 58–65% respectively, at 9–28 days suggestive of myelin damage. Immunohistochemistry of phosphorylated neurofilament (pNF) and myelin basic protein (MBP) was performed to assess axonal and myelin integrities validating the DTI findings. Both DTI and immunohistochemistry detected that transient retinal ischemia caused more severe damage to ON than to OT. The current results suggest that axial and radial diffusivities are capable of reflecting the severity of axonal and myelin damage in mice as assessed using immunohistochemistry.
AbstractList Wallerian degeneration plays a significant role in many central nervous system (CNS) diseases. Tracking the progression of Wallerian degeneration may provide better understanding of the evolution of many CNS diseases. In this study, a 28-day longitudinal in vivo DTI of optic nerve (ON) and optic tract (OT) was conducted to evaluate the temporal and spatial evolution of Wallerian degeneration resulting from the transient retinal ischemia. At 3–28 days after ischemia, ipsilateral ON and contralateral OT showed significant reduction in axial diffusivity (32–40% and 21–29% respectively) suggestive of axonal damage. Both ON and OT showed significant increase in radial diffusivity, 200–290% and 58–65% respectively, at 9–28 days suggestive of myelin damage. Immunohistochemistry of phosphorylated neurofilament (pNF) and myelin basic protein (MBP) was performed to assess axonal and myelin integrities validating the DTI findings. Both DTI and immunohistochemistry detected that transient retinal ischemia caused more severe damage to ON than to OT. The current results suggest that axial and radial diffusivities are capable of reflecting the severity of axonal and myelin damage in mice as assessed using immunohistochemistry.
Wallerian degeneration plays a significant role in many central nervous system (CNS) diseases. Tracking the progression of Wallerian degeneration may provide better understanding of the evolution of many CNS diseases. In this study, a 28-day longitudinal in vivo DTI of optic nerve (ON) and optic tract (OT) was conducted to evaluate the temporal and spatial evolution of Wallerian degeneration resulting from the transient retinal ischemia. At 3-28 days after ischemia, ipsilateral ON and contralateral OT showed significant reduction in axial diffusivity (32-40% and 21-29% respectively) suggestive of axonal damage. Both ON and OT showed significant increase in radial diffusivity, 200-290% and 58-65% respectively, at 9-28 days suggestive of myelin damage. Immunohistochemistry of phosphorylated neurofilament (pNF) and myelin basic protein (MBP) was performed to assess axonal and myelin integrities validating the DTI findings. Both DTI and immunohistochemistry detected that transient retinal ischemia caused more severe damage to ON than to OT. The current results suggest that axial and radial diffusivities are capable of reflecting the severity of axonal and myelin damage in mice as assessed using immunohistochemistry.
Wallerian degeneration plays a significant role in many central nervous system (CNS) diseases. Tracking the progression of Wallerian degeneration may provide better understanding of the evolution of many CNS diseases. In this study, a 28-day longitudinal in vivo DTI of optic nerve (ON) and optic tract (OT) was conducted to evaluate the temporal and spatial evolution of Wallerian degeneration resulting from the transient retinal ischemia. At 3 − 28 days after ischemia, ipsilateral ON and contralateral OT showed significant reduction in axial diffusivity ( 32 − 40% and 21 − 29% respectively) suggestive of axonal damage. Both ON and OT showed significant increase in radial diffusivity, 200 − 290% and 58 − 65% in ON and OT respectively, at 9 − 28 days suggestive of myelin damage. Immuohistochmistry of phosphorylated neurofilament (pNF) and myelin basic protein (MBP) was performed to assess axonal and myelin integrities validating the DTI findings. Both DTI and immunohistochemistry detected that transient retinal ischemia caused more severe damage to ON than to OT. The current results suggest that axial and radial diffusivities are capable of reflecting the severity of axonal and myelin damage in mice as assessed using immunohistochemistry.
Wallerian degeneration plays a significant role in many central nervous system (CNS) diseases. Tracking the progression of Wallerian degeneration may provide better understanding of the evolution of many CNS diseases. In this study, a 28-day longitudinalin vivoDTI of optic nerve (ON) and optic tract (OT) was conducted to evaluate the temporal and spatial evolution of Wallerian degeneration resulting from the transient retinal ischemia. At 3-28 days after ischemia, ipsilateral ON and contralateral OT showed significant reduction in axial diffusivity (32-40% and 21-29% respectively) suggestive of axonal damage. Both ON and OT showed significant increase in radial diffusivity, 200-290% and 58-65% respectively, at 9-28 days suggestive of myelin damage. Immunohistochemistry of phosphorylated neurofilament (pNF) and myelin basic protein (MBP) was performed to assess axonal and myelin integrities validating the DTI findings. Both DTI and immunohistochemistry detected that transient retinal ischemia caused more severe damage to ON than to OT. The current results suggest that axial and radial diffusivities are capable of reflecting the severity of axonal and myelin damage in mice as assessed using immunohistochemistry.
Wallerian degeneration plays a significant role in many central nervous system (CNS) diseases. Tracking the progression of Wallerian degeneration may provide better understanding of the evolution of many CNS diseases. In this study, a 28-day longitudinal in vivo DTI of optic nerve (ON) and optic tract (OT) was conducted to evaluate the temporal and spatial evolution of Wallerian degeneration resulting from the transient retinal ischemia. At 3-28 days after ischemia, ipsilateral ON and contralateral OT showed significant reduction in axial diffusivity (32-40% and 21-29% respectively) suggestive of axonal damage. Both ON and OT showed significant increase in radial diffusivity, 200-290% and 58-65% respectively, at 9-28 days suggestive of myelin damage. Immunohistochemistry of phosphorylated neurofilament (pNF) and myelin basic protein (MBP) was performed to assess axonal and myelin integrities validating the DTI findings. Both DTI and immunohistochemistry detected that transient retinal ischemia caused more severe damage to ON than to OT. The current results suggest that axial and radial diffusivities are capable of reflecting the severity of axonal and myelin damage in mice as assessed using immunohistochemistry.Wallerian degeneration plays a significant role in many central nervous system (CNS) diseases. Tracking the progression of Wallerian degeneration may provide better understanding of the evolution of many CNS diseases. In this study, a 28-day longitudinal in vivo DTI of optic nerve (ON) and optic tract (OT) was conducted to evaluate the temporal and spatial evolution of Wallerian degeneration resulting from the transient retinal ischemia. At 3-28 days after ischemia, ipsilateral ON and contralateral OT showed significant reduction in axial diffusivity (32-40% and 21-29% respectively) suggestive of axonal damage. Both ON and OT showed significant increase in radial diffusivity, 200-290% and 58-65% respectively, at 9-28 days suggestive of myelin damage. Immunohistochemistry of phosphorylated neurofilament (pNF) and myelin basic protein (MBP) was performed to assess axonal and myelin integrities validating the DTI findings. Both DTI and immunohistochemistry detected that transient retinal ischemia caused more severe damage to ON than to OT. The current results suggest that axial and radial diffusivities are capable of reflecting the severity of axonal and myelin damage in mice as assessed using immunohistochemistry.
Author Cross, Anne H.
Liang, Hsiao-Fang
Song, Sheng-Kwei
Sun, Shu-Wei
AuthorAffiliation 1 Departments of Radiology, Washington University School of Medicine, St. Louis, MO, USA
2 Neurology, Washington University School of Medicine, St. Louis, MO, USA
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– name: 1 Departments of Radiology, Washington University School of Medicine, St. Louis, MO, USA
Author_xml – sequence: 1
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  surname: Sun
  fullname: Sun, Shu-Wei
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  givenname: Hsiao-Fang
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  fullname: Liang, Hsiao-Fang
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  givenname: Anne H.
  surname: Cross
  fullname: Cross, Anne H.
  organization: Department of Neurology, Washington University School of Medicine, St. Louis, MO, USA
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  givenname: Sheng-Kwei
  surname: Song
  fullname: Song, Sheng-Kwei
  email: ssong@wustl.edu
  organization: Department of Radiology, Washington University School of Medicine, St. Louis, MO, USA
BackLink https://www.ncbi.nlm.nih.gov/pubmed/18187343$$D View this record in MEDLINE/PubMed
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Snippet Wallerian degeneration plays a significant role in many central nervous system (CNS) diseases. Tracking the progression of Wallerian degeneration may provide...
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SubjectTerms Algorithms
Animals
Axons - pathology
Biomarkers
Brain
Cell Count
Cell Death
Diffusion
Diffusion Magnetic Resonance Imaging
Immunohistochemistry
Ischemia
Male
Mice
Myelin Basic Protein - metabolism
Myelin Sheath - pathology
Neurofilament Proteins - metabolism
Optic nerve
Optic Nerve - pathology
Phosphorylation
Retinal Ganglion Cells - pathology
Retinal Vessels - pathology
Studies
Visual Pathways - pathology
Wallerian Degeneration - pathology
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Title Evolving Wallerian degeneration after transient retinal ischemia in mice characterized by diffusion tensor imaging
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