8: Special Procedures

Question 1

MRA: Magnetic Resonance Angiography

Answer 1

Gradient echo based imaging technique used to visualize blood filled structures such as arteries and veins by reducing signal of stationary tissue

Images the flow of blood and creates contrast between surrounding tissue and blood vessels

Question 2

Three types of MRA:

Answer 2

1. Time of flight
2. Phase contrast
3. Contrast enhanced

Question 3

Time of flight MRA (TOF)

Answer 3

an application of gradient echo sequences placed perpendicular to flow of blood.

Question 4

Phase contrast MRA (PCA)

Answer 4

the use of phase information from high velocity blood flow with complete suppression of stagnant tissue

relies on the velocity of precessing proton along the gradient direction

Question 5

Contrast Enhanced (CE-MRA)

Answer 5

imaging after the injection of gadolinium. T1 images are then taken resulting in T1 shortening in contrast enhanced tissue

Question 6

TOF relies on:

Answer 6

Flow phenomenon

Question 7

Flow Phenomenon:

Answer 7

technique that visualizes precessing protons entering into an imaging plane

Question 8

During TOF (Time of Flight MRA): Precessing protons appear (bright or dark) and background anatomy becomes (black or white)

Answer 8

bright, black

Question 9

How can you limit venous flow during TOF MRA?

Answer 9

saturation bands are placed outside FOV to de-phase venous glow from being sampled.

Question 10

TOF can be achieved by:

Answer 10

2D slice or 3D volumetric placement perpendicular to the flow of blood.

Question 11

2D TOF is ideal for:

Answer 11

longer vascular anatomical structures

Question 12

3D TOF is ideal for:

Answer 12

compacted, detailed areas of vascularity

Question 13

Any TOF MRA ABOVE the heart will need a:

Answer 13

superior sat band

Question 14

Any TOF MRA BELOW the heart will need a:

Answer 14

inferior sat band

Question 15

Any TOF MRV ABOVE the heart will need a:

Answer 15

inferior sat band

Question 16

Any TOF MRV BELOW the heart will need a:

Answer 16

superior sat band

Question 17

PCA differs from TOF by:

Answer 17

by applying two sequential phase encoding pulses to both stationary tissue and moving protons

Question 18

In PCA, tissue that is stationary will experience:

Answer 18

both applications thus canceling signal presence

Question 19

VENC:

Answer 19

Velocity encoding: the expected flow of blood being sampled in a specific ROI.

Question 20

In PCA, moving blood will:

Answer 20

will return signal creating contrast between blood and stationary tissue

Question 21

4 Types of blood flow:

Answer 21

1. Laminar
2. Spiral
3. Turbulent
4. Vortex

Question 22

Laminar flow:

Answer 22

nonturbulent streamline of flow

Question 23

Spiral flow:

Answer 23

movement in one direction in a spiral fashion

Question 24

Turbulent flow:

Answer 24

laminar flow obstructed by a pathological presence resulting in fast redirection and randomized flow patterns. (pathology presence)

Question 25

Vortex flow:

Answer 25

laminar flow obstructed by a pathological presence resulting in a regurgitated flow pattern (like a U)

Question 26

Diffusion Weighted Images (DWI)

Answer 26

measures Brownian motion (b-values) of water molecules within a voxel/pixel.

Question 27

Diffusion Weighted Images (DWI) is used for Clinical diagnosis of: (3)

Answer 27

1. Confirmation of an acute or chronic stroke within the first 48 hours of onset
2. Multiple Sclerosis
3. Concussions

Question 28

Diffusion as a Cellular Level:

Answer 28

measuring the rate of molecule movement (or diffusivity) in and out of the cellular space, we can identify if the histology is healthy or not.

Question 29

Facilitated Diffusion

Answer 29

demonstrates the increase movement of water within a particular voxel, usually implies high diffusivity rates or lack of cellular obstruction.

Tissue with higher amount of cellular space creates more space for movement. dark

Question 30

Restricted Diffusion:
Black or White?

Answer 30

describes abnormally decreased diffusivity within tissue compared to normal tissue movement. Pathology such as a stroke or mass will result in limited space within the voxel begin scanned due to cell swelling. this results in less movement of water within a voxel compared to healthy tissue in another voxel. (swelling, stroke, mass) white

Question 31

B-Values

Answer 31

manually chosen parameter that controls gradient strength and time

Question 32

Adjustment of the b-values is (directly or indirectly) related to the appearance of the images diffusion weighting

Answer 32

directly

Question 33

Optimal routine b-value

Answer 33

B=1000

Question 34

Increase in b-value = CSF enhancement and SNR

Answer 34

increased b-value = - CSF - SNR

Question 35

Decrease in b-value = CSF enhancement
and SNR

Answer 35

decrease in b-value = + CSF + SNR

Question 36

ADC Values:
Normal Tissue:
* CSF
* Grey Matter
* White Matter

• not for registry*

Answer 36

• CSF - 3000 - 4000 mm2/s (bright)
• Grey Matter - 700 - 100 mm2/s
• White Matter - 670 - 800 mm2/s (dark)

Question 37

ADC Values:
Pathological tissue:
* Grade II, Glioblastoma
* Grade III, Glioblastoma
* Grade IV, Glioblastoma
* Acute Infarct

• not for registry*

Answer 37

• Grade II, Glioblastoma - 1200 mm2/s (dark)
• Grade III, Glioblastoma - 1000 mm2/s
• Grade IV, Glioblastoma - 800 mm2/s
• Acute Infarct - 400 mm2/s (bright)

Question 38

ADC Mapping:

Answer 38

Usually a combination of B=0 and B=1000 values

After post-processing, clinicians are about to evaluate and confirm diffusion of water by measuring specific ROI’s within tissue thus confirming diagnosis

Question 39

Ischemic stroke on DWI

Answer 39

elevated signal: implies low diffusivity of water molecules suggesting presence of obstruction

Question 40

Ischemic stroke ADC

Answer 40

decreased signal: sodium concentrated cells begin to swell reducing diffusivity, the presence of larger cells creates obstruction resulting in dark signal and true restricted diffusion.

Question 41

Perfusion:

Answer 41

the process of blood being delivered to other tissues in the body

Question 42

Perfusion MRI:

Answer 42

the ability to differentiate grading of metastatic and vascular diseases

Question 43

3 Techniques of Perfusion MRI:

Answer 43

1. Dynamic Susceptibility Contrast (DSC)
2. Dynamic Contrast Enhanced (DCE)
3. Arterial Spin Labelling (ASL)

Question 44

Dynamic Susceptibility Contrast (DSC)

Answer 44

Evaluates T2* signal loss after gadolinium injection in the capillary vessels. Parameters such as rCBV, rCBF and MTT are analyzed

Question 45

Dynamic Contrast Enhanced (DCE)

Answer 45

Evaluates T1 shortening parameters after bolus gadolinium interaction

Question 46

Arterial Spin Labeling (ASL)

Answer 46

Identifies cerebral blood flow spins by magnetically labeling. ASL is the only perfusion study that does not utilize contrast

Question 47

Which is the only perfusion study that does not utilize contrast?

Answer 47

Arterial Spin Labeling (ASL)

Question 48

MR Spectroscopy

Answer 48

imaging technique to evaluate the histology (chemical makeup) of abnormal tissue allowing prediction of severity for prognosis

Question 49

Chemicals evaluated (5) in MR Spectroscopy

Answer 49

1. Myo-inositol
2. Choline
3. Creatine
4. NAA
5. Lactate

Question 50

Dynamic Imaging

Answer 50

Beginning with a full MR image (contrast and resolution data) dynamic studies follow with continual CONTRAST ONLY image acquisition detailing the contrast changes on a specific body part in a short scan time

allows to “wash in/wash out” effect of contrast in a particular area of tissue

MR Prostate MR Pituitary

Question 51

Fluoroscopic triggering: CINE

Answer 51

contrast imaging method which allows techs to view “fluoro-like” live gradient images to view the in-flow of contrast in a vessel of interest

Question 52

Timing Bolus Method

Answer 52

contrast technique were small amounts (1-3 cc) of contrast is injected with rapid gradient pulses until contrast is present in area of interest.

The time it takes from injection to contrast presence is called TIMING BOLUS

Question 53

Automatic (Bolus) Triggering

Answer 53

when a trigger marker is placed over the region of interest, this detects the increase in signal intensity from contrast and begins to automatically scan.

Question 54

What parameter will yield in better visualization of arterial walls in a phase contrast MRA?

Answer 54

VENC