BACKGROUND: Although in situ pathological studies and in vivo magnetic resonance (MR) investigations have shown that axonal injury can be significant in the early stages of multiple sclerosis (MS), diffuse axonal injury is generally considered a secondary event. Cerebral axonal damage can be specifically assessed in vivo by measuring levels of brain N-acetylaspartate (NAA, a specific index of axonal integrity detected by MR spectroscopy). Other new MR measurements such as magnetization transfer ratio (MTr) or computed estimation of brain volume can provide less specific indexes of tissue damage. OBJECTIVE: To determine whether diffuse axonal and tissue injury is present in patients with definite MS who do not show clinically significant dis...
OBJECTIVE: To assess axonal damage and its contribution to disability at different stages of multipl...
Background: There is an increasing body of evidence that magnetic resonance imaging-occult tissue da...
Background: There is an increasing body of evidence that magnetic resonance imaging-occult tissue da...
BACKGROUND: Although in situ pathological studies and in vivo magnetic resonance (MR) investigations...
BACKGROUND: Although in situ pathological studies and in vivo magnetic resonance (MR) investigations...
BACKGROUND: Although in situ pathological studies and in vivo magnetic resonance (MR) investigations...
To test for axonal damage or dysfunction in white matter tracts remote from acute demyelinating lesi...
To test for axonal damage or dysfunction in white matter tracts remote from acute demyelinating lesi...
To test for axonal damage or dysfunction in white matter tracts remote from acute demyelinating lesi...
OBJECTIVE: To assess axonal damage and its contribution to disability at different stages of multipl...
The current study was designed to determine the relative distribution of decreases of N-acetylaspara...
The current study was designed to determine the relative distribution of decreases of N-acetylaspara...
The current study was designed to determine the relative distribution of decreases of N-acetylaspara...
Background: There is an increasing body of evidence that magnetic resonance imaging-occult tissue da...
OBJECTIVE: To assess axonal damage and its contribution to disability at different stages of multipl...
OBJECTIVE: To assess axonal damage and its contribution to disability at different stages of multipl...
Background: There is an increasing body of evidence that magnetic resonance imaging-occult tissue da...
Background: There is an increasing body of evidence that magnetic resonance imaging-occult tissue da...
BACKGROUND: Although in situ pathological studies and in vivo magnetic resonance (MR) investigations...
BACKGROUND: Although in situ pathological studies and in vivo magnetic resonance (MR) investigations...
BACKGROUND: Although in situ pathological studies and in vivo magnetic resonance (MR) investigations...
To test for axonal damage or dysfunction in white matter tracts remote from acute demyelinating lesi...
To test for axonal damage or dysfunction in white matter tracts remote from acute demyelinating lesi...
To test for axonal damage or dysfunction in white matter tracts remote from acute demyelinating lesi...
OBJECTIVE: To assess axonal damage and its contribution to disability at different stages of multipl...
The current study was designed to determine the relative distribution of decreases of N-acetylaspara...
The current study was designed to determine the relative distribution of decreases of N-acetylaspara...
The current study was designed to determine the relative distribution of decreases of N-acetylaspara...
Background: There is an increasing body of evidence that magnetic resonance imaging-occult tissue da...
OBJECTIVE: To assess axonal damage and its contribution to disability at different stages of multipl...
OBJECTIVE: To assess axonal damage and its contribution to disability at different stages of multipl...
Background: There is an increasing body of evidence that magnetic resonance imaging-occult tissue da...
Background: There is an increasing body of evidence that magnetic resonance imaging-occult tissue da...