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Methods in brain research
1. Structurea. Morphologyb. Pathways
2. Function
1. Sacrificing the animal / or post-mortem studies
2. Replace the blood with saline (physiologic water)
3. Fixation – injection of formaline
Dissection
Grey matterWhite matter
frontal section horizontal section
ventricles
Thalamus
Nissl stain
Staining of cell bodies
Histology
Staining of axon fibers
Hard to see individual cells
Golgi stain
Individual cells
Microscopy
1. Light (up to x1500 magnification)
2. Electron Microscopy (EM; magnification of ~108 in tissue slices)1. Transmission EM (high resolution 2d information)2. Scanning EM – lower resolution but provides 3d information
3. Confocal microscopy – Uses laser and fluorescent dyes. Higher resolution than light microscopy Thicker slices (3d) in living tissue
Neural pathways
Anterograde labeling – chemicals that enter the cells (through dendrites), and travel along the axons to the terminal buttons
1. Injection of PHA-L
2. Substance is transported throughout the cell
3. Animal is sacrificed and brain is perfused
4. Histology – PHA-L is made visible through use of immunocytochemical methods
Autoradiography – using radioactive markers for labeling
Retrograde labeling – chemicals that enter the terminal buttons, and travel through the axons to the cell bodies
Auditory pathway
Tracer in the thalamus
Imaging techniques to study structure
Computerized Tomography (CT)
Magnetic Resonance Imaging (MRI)
Computed Tomography
Computed TomographyX ray
Computed TomographyX ray
Computed Tomography X ray
Advantages of CT
• Accessible (and cheap)
• Efficient in detecting
• Stroke•
Hemorrhages• Tumors
• Uses X-Ray• No separation between white/grey
matter• Can only take horizontal sections
Drawbacks of CT
Good spatial resolution (~1mm)Separation between grey/white matter
Magnetic Resonance Imaging
Very strong magnetic field.Earth is ~0.5 Gauss10,000 Gauss is 1 TeslaTypical scanner today has a magnetic field of 3 Tesla
Magnetic resonance angiography (MRA)
Measuring proton density (from water molecules) with MRI
Advantages:
Non-invasive (and can be used in the living brain)
High spatial resolution (~1mm)
Safe (Does not damage tissue)
Diffusion Tensor Imaging (DTI)
Can NOT tell from _X_ to_Y_ - but gives the general direction of the fibers
Tools to study brain function
1. Manipulating brain function (e.g. by lesions) and inferring a region’s role in behavior/cognition
2. Manipulating behavior and measuring changes in brain activity
Naturally occurring lesions (stroke) or accidents (e.g. gun wounds etc.)
Broca
Phineas Gage’s lesion reconstructed
(H. Damasio and R. Frank, 1992)
Experimental ablation (removal of brain tissue)
1. Suction of brain tissue
2. Destruction of brain tissue Electrically (general)Chemically (more specific)for example – use of kianic
acid to over-excite cells until they die
3. Temporary lesions (cooling)
Recording of electrical activity / electrical stimulation of brain tissue
Spike trains
Free recall demo for hippocampal re-activation
Gelbard-Sagiv, Mukamel, Harel, Malach & Fried. Science 2008
Quiroga, Mukamel, Isham, Malach & Fried. PNAS 2008
Positron emission tomography (PET) – Enables tracking metabolic processes in various brain
regionsInvolves injection of a radio-active tracerEnables scanning in multiple planes
1. Seeing words2. Listening to words3. Saying words4. Generating verbs
PET-Positron Emission tomography
1 2
3 4
Functional Magnetic Resonance Imaging
What does the BOLD fMRI signal measure?
• Hemoglobin has two states: Oxygenated (diamagnetic), andDe-Oxygenated (paramagnetic)
• The BOLD fMRI signal is sensitive to the ratio between Oxy and De-oxy hemoglobin in a manner that an increase in Oxygenated blood results in an increase in the fMRI signal.
Following neural activation:
Consumption of oxygen
Overcompensation with fresh oxygenated blood
Time
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LD
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BO
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fMRI signal
Advantages of fMRI over PET
• Higher temporal resolution (seconds vs min)• No radioactive radiation• cheaper
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