Static Magnetic Fields

Question 1

If an object is magnetically saturated, it means that:

The object is wet and should not be used in the magnetic field

An increase in the applied external magnetic field cannot increase the magnetization of the object further

The object is no longer considered magnetic

Condensation has formed on the object while it was in the static magnetic field

Answer 1

An increase in the applied external magnetic field cannot increase the magnetization of the object further

Question 2

Within the static magnetic field, where is the rotational force/torque exerted on a metallic object the greatest?

Mouth of the bore

Wall of the bore

Entrance to Zone 4

Isocenter

Answer 2

Isocenter

Question 3

An object deflects 45 degrees during deflection testing. What force(s) has the most effect on the device?

The external magnetic field

Gravity

Scarring within the patient due to healing

Gravity and the external magnetic field are exerting equal force on the device

Answer 3

Gravity and the external magnetic field are exerting equal force on the device

Question 4

The twisting force on a ferromagnetic object as it attempts to align parallel to the external magnetic field is called _____.

Missile effect

Translation

Torque

Magnitude

Answer 4

Torque

Question 5

Mechanical forces related to the static magnetic field include translational (missle), rotational (torque), and Lenz effects. True or False?

True

False

Answer 5

True

Question 6

1T converted to Gauss would be:

10 Gauss

100 Gauss

1,000 Gauss

10,000 Gauss

Answer 6

10,000 Gauss

Question 7

rimary concerns with static magnetic fields are __________ .

Translation and rotation (torque) forces

Focal heating

Induced voltages

Retention

Answer 7

Translation and rotation (torque) forces

Question 8

If there is an area that reads 16T/m on a spatial gradient map, that means:

The strength of the magnetic field would change by 16 Tesla if that same localized rate of change in that small area were to occur over 1 meter of distance.

The strength of the magnetic field would change by 16 Tesla if an implant were to be spread out over 1 foot of distance.

The maximum field strength of that area within the magnet is 16T

The magnet will change from 1T to 16T across the length of the bore.

Answer 8

The strength of the magnetic field would change by 16 Tesla if that same localized rate of change in that small area were to occur over 1 meter of distance.

Question 9

Within the magnetic field, torque/rotational force will be the greatest at __________.

mouth of the bore

edge of gradient coil

isocenter

within transmit coil

Answer 9

isocenter

Question 10

What type of map is this?

Spatial Gradient Map

Gradient Map

RF Deposition Map

B0 map

Answer 10

B0 map

Question 11

Shielding of the magnet has what effect on the magnetic field?

Increases the size of the fringe field and decreases the MSG

Increases both the size of the fringe field and the MSG

Decreases both the size of the fringe field and the MSG

Decreases the size of the fringe field and increases the MSG

Answer 11

Decreases the size of the fringe field and increases the MSG

Question 12

The concentration of the orbiting magnetic particles in space within the magnetic field is termed:

Proton Density

Field Density

Torque Density

Flux Density

Answer 12

Flux Density

Question 13

If an object is magnetically saturated, increasing the external magnetic field will have no further effect on the object. True or False?

True

False

Answer 13

True

Question 14

Potential biologic effects of the static magnetic field include all the following except:

Magnetophosphenes

Peripheral nerve stimulation

Magnetohydrodynamic effect

EKG perturbances

Vertigo/dizziness

Answer 14

Peripheral nerve stimulation

Question 15

In viewing a spatial gradient map, there will be no translational forces exerted on an object when:

Behind the 5 G line

Below the patient table

The spatial gradient is at its maximum

There is no change in the strength of the main static magnetic field- Like at isocenter

Answer 15

There is no change in the strength of the main static magnetic field- Like at isocenter

Question 16

How does shielding within the magnet housing affect the system spatial gradient?

it doesn’t, a system’s SG is the same shielded or unshielded

it increases the system SG because it decreases the size of the fringe field, forcing lines of flux closer together

it decreases the SG because the fringe field is smaller

the shielding is in the walls, not in the magnet system

Answer 16

it increases the system SG because it decreases the size of the fringe field, forcing lines of flux closer together

Question 17

What is defined as “A visual representation of the change of the magnetic field strength over distance?”

Spatial gradient map

Gradient map

B0 map

Deposition map

Answer 17

Spatial gradient map

Question 18

What line is regarded as the point in which non-cleared implants and devices cannot cross safely?

5 mT

500 G

0.05 mT

5 G

Answer 18

5 G

Question 19

The static magnetic field has no bioeffects. True or False?

True

False

Answer 19

False

Question 20

What is the purpose of shielding within the magnet housing/bore?

it makes the magnet safer because the fringe field is smaller

it compresses the fringe field, allowing for a shorter distance to the 5 Gauss line

shielding within the magnet housing replaces shielding within the scan room walls

it increases the cost of the system

Answer 20

it compresses the fringe field, allowing for a shorter distance to the 5 Gauss line

Question 21

What phrase describes second level in regards to static magnetic fields?

No undo physiologic effects are associated with the static magnetic fields of these strengths

A potential for harm to a patient exists

There is definite potential for harm to a patient

It is safe to scan the patient at second level only

Answer 21

There is definite potential for harm to a patient

Question 22

Based on the MSG map above, what would be the maximum spatial gradient that the patient’s head might be exposed to in this position while being moved into the bore?

5 T/m

3 T/m

15 T/m

7 T/m

0.5 T/m

Answer 22

3 T/m

Question 23

A 3T system will always have higher magnetic attractive force than a 1T, regardless of magnet format. True or False?

True

False

Answer 23

False

Question 24

Does gravity or the static magnetic field have a greater effect on an implant that shows a deflection angle of 39 degrees?

Gravity

Magnetic Field

Both Equally

Answer 24

Gravity

Question 25

Bioeffects of the static magnetic field are temporary and disappear when the patient is removed from the field. True or False?

True

False

Answer 25

True

Question 26

The maximum Tesla strength that is safe for infants younger than one month per the FDA is:

8T

1T

4T

1.5T

Answer 26

4T

Question 27

Spatial gradient map values are typically measured in _______ or ________.

mT/Kg or J/cm

W/Kg or J/cm

G/Kg or W/cm

T/m or G/cm

Answer 27

T/m or G/cm

Question 28

Lenz forces are more likely to be experienced by electrically conductive material oriented _______ the static magnetic field.

through

parallel to

perpendicular to

diagonally through

Answer 28

perpendicular to

Question 29

During MR safety testing, an implant demonstrates a deflection angle of 45 degrees. Based solely on this information, the implant would be labeled _____.

MR Safe

MRI Compatible

MR Unsafe

MR Conditional

Answer 29

MR Unsafe

Question 30

Please convert 100 mT to Gauss

1 G

10 G

100 G

1000 G

Answer 30

1000 G

Question 31

The maximum Tesla strength that is safe for adults, adolescents, and infants older than one month per the FDA is:

3 Tesla

7 Tesla

8 Tesla

10 Tesla

Answer 31

8 Tesla

Question 32

Which of the following is NOT a possible bioeffect caused by the static magnetic field?

Magnetophosphenes (flashes of light)

Induced voltages within patient tissues

Nystagmus (repetitive, uncontrolled eye movements)

Vertigo (inner ear effects)

Answer 32

Nystagmus (repetitive, uncontrolled eye movements)

Question 33

Which object would experience the most translational force when exposed to the static magnetic field?

1 kg spherical object

1 kg elongated object oriented parallel to the static magnetic field

1 kg elongated object oriented perpendicular to the static magnetic field

1 kg wire wound into a tight ball

Answer 33

1 kg elongated object oriented parallel to the static magnetic field

Question 34

Translational (missile) force is affected only by the spatial gradient of the static magnetic field. True or False?

True

False

Answer 34

True

Question 35

In horizontal bore scanners, where will the translational force exerted on a metallic object the greatest?

Isocenter

Entrance to Zone 4

Mouth of the bore

Wall of the bore

Answer 35

Mouth of the bore

Question 36

What possible effects can static magnetic fields have on active implants?

Attractive force, focal heating, induced voltages

Attractive force, affect implant functionality, displacement of implant

PNS, rotational force, translational force

False feedback, affect implant functionality, torque

Answer 36

Attractive force, affect implant functionality, displacement of implant

Question 37

Fringe fields are typically either measured in ___________ or ___________, depending on the part of the world.

Gauss / Joules

MilliTesla / Joules

Gauss / milliTesla

Watts / decibels

Gauss / Tesla

Answer 37

Gauss / milliTesla

Question 38

Lenz’s forces are exhibited when a large conductive object moves through the field while oriented perpendicular to the main magnetic field. True or False?

True

False

Answer 38

True

Question 39

What static magnetic field scanning level would result in “No undo physiologic effects” to the patient?

Normal Mode

First Level Mode

Second Level Mode

MR Safe Mode

Answer 39

Normal Mode

Question 40

Maximum spatial gradient is proportional to static magnetic field strength, in that higher field strength systems will always have higher MSG. True or False?

True

False

Answer 40

False

Question 41

A patient complains of a pulling sensation in the area of their implant while they are being advanced into the bore. The sensation goes away when the table motion is stopped. The pulling sensation is due to:

Translational forces of the static magnetic field

Lenz forces caused by the implant moving through the lines of flux

The patient’s imagination

It doesn’t matter because the exam should be cancelled

Answer 41

Lenz forces caused by the implant moving through the lines of flux

Question 42

The size and shape of a metallic object will affect its potential projectile effect within the magnetic field. True or False?

True

False

Answer 42

True

Question 43

The spatial gradient of the static magnetic field is consistent throughout the entire fringe field. True or False?

True

False

Answer 43

False

Question 44

Magnetophosphenes are more easily produced in higher static field strength systems. True or False?

True

False

Answer 44

True

Question 45

All of the following are true for spatial gradient maps EXCEPT:

Measured in T/m

May vary in appearance depending on the manufacturer

Visual representation of the change of the magnetic field strength over distance

Visual way of telling the field strength of a static magnetic field

Answer 45

Visual way of telling the field strength of a static magnetic field

Question 46

The potential biologic effects of the static magnetic field are thought to be harmful and irreversible. True or False?

True

False

Answer 46

False

Question 47

The patient may be exposed to magnetic lines of flux upon entering zone 4. True or False?

True

False

Answer 47

True

Question 48

t is possible for a vertical field open system to have a higher magnetic attractive force than a 3T system. True or False?

True

False

Answer 48

True

Question 49

Pure aluminum and titanium do not have any interactions with the static magnetic field. True or False?

True

False

Answer 49

False

Question 50

During MR safety testing, an implant demonstrates a deflection angle of 25 degrees. Based only on this information, the implant would be labeled _______.

MR Safe

MR Conditional

MR Unsafe

MRI Compatible

Answer 50

MR Conditional

Question 51

Bioeffects of the static magnetic field are permanent. True or False?

True

False

Answer 51

False

Question 52

What is 5 Gauss converted to milliTesla?

0.5 mT

0.05 mT

50 mT

500 mT

5000 mT

Answer 52

0.5 mT

Question 53

A way to demonstrate Lenz’s forces is:

Walk toward the bore with a pen in your pocket

Throw your keys toward the magnet from the scan room door

Walk toward the magnet while holding a large aluminum object oriented perpendicular to the main magnetic field

Quench the magnet and see what happens

Answer 53

Walk toward the magnet while holding a large aluminum object oriented perpendicular to the main magnetic field

Question 54

Implants that have a ________ will try to align ____________ to the direction of the main static magnetic field.

short axis / perpendicular

long axis / perpendicular

long axis / parallel

Answer 54

long axis / parallel

Question 55

Which deflection angle(s) would constitute an MR Safe implant?

0 degrees

15 degrees

30 degrees

44 degrees

Answer 55

0 degrees

Question 56

Conductive, nonmagnetic implants/objects will not experience Lenz forces as they move through the static magnetic field. True or False?

True

False

Answer 56

False

Question 57

For the magnet diagram shown here, approximately how far from isocenter (in the Z-direction) lies the “pacemaker line” where there is the concern that the static magnetic field could potentially interfere with active implanted medical devices?

1 meter

2.5 meters

3.5 meters

4 meters

Answer 57

4 meters

Question 58

If you are scanning on a 1.5T scanner, this means that a static magnetic field strength of 1.5T is the maximum a patient will encounter within zone 4. True or False?

True

False

Answer 58

False

Question 59

Force product is the product of:

The strength of the static magnetic field and the spatial gradient of the static field

The RF field and the slope of the time varying gradients

The weight of the magnet and the length of the bore

The length of the body coil and the gradient slew rate

Answer 59

The strength of the static magnetic field and the spatial gradient of the static field

Question 60

Which factor will NOT affect the strength of Lenz forces on an object?

Speed of an objects entry into the bore

Object’s electrical conductivity

Cross-sectional size of object

Spatial gradient

Deflection angle of object

Answer 60

Spatial gradient

Question 61

The translational force exerted on an object in the magnetic field will be constant throughout the field. True or False?

True

False

Answer 61

False

Question 62

A surgical clip with a long axis oriented in the head to foot direction will experience a __________ force and align ___________ to the magnetic lines of flux when placed into a vertical field / open MRI.

rotational (torque) / parallel

translational / parallel

rotational / perpendicular

translational / perpendicular

Answer 62

rotational (torque) / parallel

Question 63

It is possible for magnetic lines of flux to extend through:

Floors

Walls

Ceilings

Floors and walls

Ceilings and walls

All of the above

Answer 63

Floors

Walls

Ceilings

Floors and walls

Ceilings and walls

All of the above

Question 64

Does the shape of an implant or device affect the translational force exerted on the implant/device by the static magnetic field?

Yes

No

Answer 64

Yes

Question 65

For the electromagnetic fields used during MR imaging, which is of concern beyond the volume of the bore?

Static magnetic field

Gradient magnetic field

Radiofrequency magnetic field

Answer 65

Static magnetic field

Question 66

5 Gauss translates into _______ mT.

5 mT

0.5 mT

0.005 mT

50 mT

0.05 mT

Answer 66

0.5 mT

Question 67

0.35 mT translates into _______ G.

35 G

3.5 G

0.035 G

350 G

Answer 67

3.5 G

Question 68

The torque force exerted on an object is a function of:

The magnetic spatial gradient

The strength of the static magnetic field

The gradient slew rate

The length of time is has been exposed to the magnetic field

Answer 68

The strength of the static magnetic field

Question 69

Which effects/forces would be exerted on a metallic object as it enters the bore of the magnet?

Lenz, Translational, Induced Voltage

Lenz, Rotational, Translational

Translational, Induced Voltage, Rotational

Torque, Heating, Rotational

Answer 69

Lenz, Rotational, Translational

Question 70

Translational (missile) force is affected by which field?

Strength of the static magnetic field

Radiofrequency field

Spatial gradient of the static magnetic field

Slope of the time varying gradients

Answer 70

Spatial gradient of the static magnetic field

Question 71

Ferromagnetic materials do not exhibit Lenz effects. True or False ?

True

False

Answer 71

False

Question 72

Which deflection angles (without sufficient anchoring forces) would constitute an MR Conditional implant?

1-44 degrees

15-45 degrees

30-65 degrees

46-90 degrees

Answer 72

1-44 degrees

Question 73

During MR safety testing, an implant demonstrates no deflection. Based solely on this information, the implant would be labeled _____.

MR Conditional

MR Safe

MR Unsafe

The implant cannot be labeled because we do not have enough information

Answer 73

The implant cannot be labeled because we do not have enough information

Question 74

What static magnetic field level mode would a 9T MRI Scanner fall under?

Normal Mode

First Level Mode

Second Level Mode

MR Safe Mode

Answer 74

Second Level Mode

Question 75

A patient is known to be free of metallic implants/devices. Possible interactions between the patient and the static magnetic field could be:

Claustrophobia

Nothing, The patient is metal-free and will therefore have no interaction with the static magnetic field

Dizziness, nystagmus, altered EKG

Hearing loss

Answer 75

Dizziness, nystagmus, altered EKG

Question 76

It is impossible for non-magnetic metals to interact with the static magnetic field. True or False?

True

False

Answer 76

False

Question 77

What factor does NOT directly contribute to Lenz effects?

Conductivity

Cross-sectional area

Speed of motion

Magnetic field strength

Spatial gradient though which the object is moving

Answer 77

Magnetic field strength

Question 78

Torque force exerted on an object in the magnetic field will be the greatest as the object enters the bore. True or False?

True

False

Answer 78

False

Question 79

What is referred to as “stray lines of magnetic flux that extend outside the bore of the MRI scanner”?

Magnetophosphenes

Fringe field

Flux density

Shielding

Answer 79

Fringe field

Question 80

What would be an example of first level in respect to static magnetic field strength?

0.2T

1.0 T

3.0 T

7.0 T

9.0 T

Answer 80

7.0 T

Question 81

If the patient is feet first, supine, what spatial gradient will the head be exposed to at approximately 1.5 meters from isocenter?

approx 5 T/m

approx 3 T/m

approx 1 T/m

approx 0.7 T/m

approx 0.5 T/m

Answer 81

approx 0.5 T/m

Question 82

_______________ is when an object becomes airborne when exposed to a static magnetic field.

Missile effect

Translational force

Flux effect

Torque effect

Answer 82

Missile effect

Question 83

Characteristics of an object that affect its potential projectile effect within a magnetic field include all of these EXCEPT:

Ferromagnetic property/material

Mass

Age

Size/shape

Answer 83

Age

Question 84

Because the static magnetic field is homogeneous at isocenter, translational (missile) forces there are:

Unable to be measured

At their maximum

Zero

Unimportant

Answer 84

Zero

Question 85

Within the magnetic field, translational force will be the greatest at ____________ and the least or zero at ___________.

the location of maximum spatial gradient / isocenter

isocenter / end of table

close to the bore walls / edge of body coil

Answer 85

the location of maximum spatial gradient / isocenter

Question 86

For most full body MR systems, the homogeneity of the static magnetic field around isocenter is an area the size of:

The entire body coil

A tennis ball

Only isocenter

A basketball

Answer 86

A basketball

Question 87

During MR safety testing, a metallic implant demonstrates no deflection. Based on this information, the implant would be labeled _____.

MR Safe

MR Unsafe

MR Conditional

MR Compatible

Answer 87

MR Conditional

Question 88

A paramagnetic object or substance will retain magnetism when removed from the external magnetic field. True or False?

True

False

Answer 88

False

Question 89

The translational force exerted on an object is a function of:

The strength of the static magnetic field

The magnetic spatial gradient

The gradient slew rate

The length of time it has been exposed to the magnetic field

Answer 89

The magnetic spatial gradient

Question 90

A ferromagnetic object or substance will retain magnetism when removed from the external magnetic field. True or False?

True

False

Answer 90

True

Question 91

The ______ and ________ of an implant is very important in regards to rotational (torque) force.

Size / Shape

Composition / Position

Shape / Position

Size / Position

Composition / Size

Question 92

Deflection testing is performed by:

Placing the object inside a patient then exposing it to the magnetic field

Deciding how the object will behave in the magnetic field by studying its material content

Suspending the object from a string and placing it in the magnetic field

We don’t know, it’s a proprietary process

Answer 92

Suspending the object from a string and placing it in the magnetic field

Question 93

Which of the following is NOT a tool / procedure that the technologist should use to avoid a static magnetic field injury?

Ferrous metal detector

5mm gap between patient and bore wall

Screening questionnaire

Verbal interview

Answer 93

5mm gap between patient and bore wall

Question 94

What types of materials are most likely to exhibit noticeable Lenz effects?

PVC, Plastics

Aluminum, Brass, Copper

Surgical Steel, Cobalt, Nickel

Gadolinium

Answer 94

Aluminum, Brass, Copper

Question 95

Lenz’s forces are harmful and there is no way to mitigate them. True or False?

True

False

Answer 95

False