MR spectrum – normal

Dr Babu

7 years ago

observed spectra varies with echo time (TE) used in acquiring them.
short (20-30 ms), intermediate (135-144 ms) or long (270-288 ms).
more peaks in short TE.
long TE typically detects peaks for 4 compounds
1. NAA (N-acetylaspartate)
2. choline
3. creatine (Cr)
4. lactate
different areas of brain have different concentrations of metabolites.
concentration varies with brain maturation.
Infants
- high choline, myoinositol
- low Cr, NAA

most obvious peak
at 2.01 ppm
reference for chemical shift determination
contributions from NAA, N-acetylaspartate glutamate, glycoproteins, amino acid residues in peptides.
two functions in adult brain
- precursor of brain lipids
- involved in coenzyme A interactions
- alternate suggestion of it being an osmolyte – neurotransmitter / neuromodulator precursor
higher in cortex than in white matter
located in neurons and its branches
low concentration in mature glia
reduced in neurodegenerative diseases
absolute or relative decrease in relation to Cr peak suggests axonal / neuronal damage
transient reduction – energy depletion as synthesis of NAA occurs in mitochondria.
in infants – concentration is same in gray and white matter
- indicator of normal oligodendroglial development

trimethylamine peak
3.21 ppm
choline, betaine, carnitine, myo-inositol and taurine
contains phosphoryl choline, phosphorylethanolamine, glycerophosphorylchlorine, glycerophosphorylethanolamine and free choline
phosphorylethanolamine dominates in neonates; decreases with age with phosphoryl choline
glycerophosphorylchlorine, glycerophosphorylethanolamine increase with age
choline reflects structural components of cell membranes (myelin sheaths)
membrane bound choline not visualized in MR
increased in highly cellular processes – high grade tumors, neurodegenerative disorders
focal inflammation -> marked local cellularity -> cell membrane breakdown -> elevated choline
seen higher in thalami and cerebellum > cerebral white matter > cerebral cortex

3.03 ppm
methyl protons of creatine and phosphocreatine
minor contributions from gamma-amino butyrate, lysine and glutathione
second smaller peak at 3.94ppm
maintenance of energy dependent systems in all brain cells
cerebellum > thalami > basal ganglia > cortical gray matter > cortical white matter
stable in most situations; hence used as a standard for other metabolites

two peaks 3.56 ppm and 4.06 ppm
storage pool for membrane phosphoinositides – involved in hormonal systems and enzyme regulation
essential growth factor – precursor of phosphatidylinositol
located primary in glial cells – specific marker
osmoregulation, cell nutrition, detoxification
3.56 ppm peak gets minor contributions from glycine and inositol-1-phosphate

doublet peak 1.3 ppm (1.27 and 1.36 ppm)
trace amounts in appropriate for gestational age term neonates
more than trace amounts in first few hours of life indicate some form of brain injury
normal findings in CSF of premature and term neonates; concentration up to 2.7 mm/L
exclusion of CSF important to rule out false positivity in encephalopathy
propan-1,2-diol mimics doublet peak – it’s a solvent used in anti epileptics

2.1 – 2.4 ppm region
second peak at 3.75 ppm alpha -CH moiety
excitatory neurotransmitter
seen in hypoxia, seizures, possible trauma
difficult to identify as it overlaps with NAA and Cr peaks; improves in higher magnetic fields

Key spectral variations in different brain regions

NAA/Cr
- brain stem and cerebellum > cerebral hemispheres
- cerebral white matter > basal nuclei
- frontal white matter > parietal white matter
Choline/Cr
- Choline > Cr in white matter
- Cr > choline in gray matter