Physics

Question 1

What is the threshold for cataracts caused from an acute radiation exposure to the eye (onset > 20 years)?

Answer 1

~0.5 Gy

Question 2

What is the threshold for circulatory disease caused from an acute radiation exposure?

Answer 2

~0.5 Gy. “An approx threshold dose of 0.5 Gy has been proposed for acute, and fractionated/protracted exposures.” (ICRP)

Question 3

What is the threshold for acute dose for male infertility?

Answer 3

6 Gy

Question 4

What is the threshold dose for female infertility?

Answer 4

3 Gy

Question 5

What is the threshold dose for symptomatic spinal cord injury (myelitis)?

Answer 5

50 Gy delivered in 2 fractions

Question 6

What is the SI unit for absorbed dose?

Answer 6

Gy or Joule per kilogram (J/kg)

Question 7

What is acute radiation syndrome?

Answer 7

“Radiation sickness”- spectrum of responses involving hematopoietic, GI, CV and CNS reactions to a large radiation dose received acutely or subacutely to all or most of the body. Follows a dose dependent clinical course divided into prodromal, latent and manifest periods of illness.

Question 8

What is a deterministic effect?

Answer 8

Injury in populations of cells, characterized by a threshold dose and an increase in the severity of the reaction as the dose is increased further.

Question 9

What is Linear Energy Transfer (LET)?

Answer 9

The rate of energy loss along the track of an ionizing particle, usually expressed in keV/um.

Question 10

What is the linear-non-threshold model?

Answer 10

A dose-response model which is based on the assumption that, in the low dose range, radiation doses greater than zero will increase the risk of excess cancer and/or heritable disease in a simple proportionate manner.

Question 11

What is the SI unit for effective dose?

Answer 11

Sievert (Sv). Unit for equivalent dose, effective dose, and operational dose quantities. Doses in Gy are multipled by a quality factor to obtain Sv.

Question 12

At what threshold radiation dose do you expect to see early transient erythema?

Answer 12

2 Gy

Question 13

At what threshold radiation dose do you expect to see main erythema reaction?

Answer 13

6 Gy

Question 14

At what threshold radiation dose do you expect to see permanent epilation?

Answer 14

7 Gy

Question 15

What is the maximum dose an individual of the public may receive from the release of patients injected with radioactive materials (e.g. family member of a thyroid ablation pt)?

Answer 15

500 mrem (5 mSv or 0.005 Sv)

Question 16

What is the max dose limit for a general member of the public without a specific exposure scenario (e.g. waiting room in x-ray dept)?

Answer 16

100 mrem (1 mSv or 0.001 Sv)

Question 17

What is the physical half-life of fluoride F18?

Answer 17

109 minutes (radprimer)

Question 18

What is an Auger electron?

Answer 18

An Auger electron is an e that is emitted, rather than a photon, when lower level vacancies are filled. When an L-shell e fills a K-shell vacancy, another L-shell e can be emitted rather than a photon. The emission of an Auger e leaves 2 vacancies.

Question 19

What is KERMA?

Answer 19

• Kinetic Energy Released per unit Mass (measured Gy)
• Air Kerma is the kinetic energy transferred from uncharged particles (e.g. photons) to charged particles (e.g. electrons).
• Entrance air karma is a measure of the amount of x-ray radiation that is incident on the patient.
• AK has recently replaced exposure as the quantity that measures the amount of radiation in any x-ray beam.

Question 20

What radiation dose level is associated with Bone Marrow (hematopoietic) Syndrome?

Answer 20

Whole-body exposure to 300-800 rads (3-8 Gy)

-LD50 for humans is 3 to 4 Gy for young adults without medical intervention

Question 21

What radiation dose level is a/w GI Syndrome?

Answer 21

greater than 8 Gy (other source said >10 Gy)

-Death within 3-10 days without medical care

Question 22

What radiation dose level is a/w Neurovascular Syndrome?

Answer 22

greater than 20 Gy (other source said >50 Gy)

-Inevitable death within 3 days of exposure

Question 23

What does LD 50/60 mean?

Answer 23

The dose that would kill 50% of the exposed individuals within 60 days.

Question 24

What is the LD 50/60 for humans?

Answer 24

Somewhere between 3.5 and 7 Gy (~4 Gy) depending on the level of care.

Question 25

What is the law of Bergondie and Tribondeau (in relation to radio sensitivity)?

Answer 25

A fundamental law of radiation biology that states that the radio sensitivity of cells is directly proportional to their reproductive activity and inversely proportional to the degree of differentiation. Peripheral lymphocytes are an exception.

Question 26

Cells are most radiosensitive in:

a) G0
b) G1
c) G2
d) M

Answer 26

Mitosis phase (Radprimer)
Cells are most sensitive to the effects of radiation during M or mitotic phase and the gap between S and G2. Cells are less sensitive during G1 and the least sensitive during S.

Question 27

Cells are least radiosensitive in what phase?

Answer 27

S phase

Question 28

The lowest acute whole body radiation exposure for which survival is unlikely is:

a) 1 Gy
b) 2 Gy
c) 4 Gy
d) 10 Gy

Answer 28

d) 10 Gy

Question 29

The most common method of cell death following irradiation is:

a) Mitotic death
b) Division delay
c) Slow death
d) Apoptosis

Answer 29

a) Mitotic death

Apoptosis is also a/w radiation, however mitotic death is more common

Question 30

A patient is brought to the hospital after exposure to 4 Gy of radiation. They will most likely suffer from:

a) Bone Marrow Syndrome
b) GI Syndrome
c) CNS Syndrome

Answer 30

a) BM Syndrome (>2 Gy exposure). GI Syndrome occurs at 8 Gy. CNS Syndrome occurs at 20 Gy

Question 31

Temporary sterility in the male requires a gonadal dose of about __ Gy

Answer 31

2 Gy

Question 32

Permanent sterility in the male requires a gonadal dose of about __ Gy

Answer 32

5 Gy

Question 33

Temporary sterility in the female requires a gonadal dose of about __ Gy

Answer 33

1.5 Gy

Question 34

Permanent sterility in the female requires a gonadal dose of about __ Gy

Answer 34

4 Gy

Question 35

NCRP 160 estimates that the average US population dose from medical exposure is about ____ of that from background sources:

a) 1/10
b) 1/2
c) equal
d) 2 times
e) 10 times

Answer 35

c) Equal

Question 36

Which of the following would decrease the risk of skin injury?

a) Increasing the mA
b) Increasing the patient thickness
c) Increasing the kV
d) Increasing the fluoroscopy time

Answer 36

c) increasing the kV

Question 37

What are stochastic (probabilistic) effects?

Answer 37

Stochastic or probabilistic effects are effects that are more likely to occur with increasing dose (proportional to dose). E.g. genetic effects and cancer.

Question 38

What are non-stochastic (deterministic) effects?

Answer 38

Deterministic effects have a dose threshold above which the effect will occur and below which the effect will not occur. E.g. skin erythema, cataracts and infertility.

Question 39

What is the threshold dose for wet desquamation and/or dermal necrosis?

Answer 39

18 Gy

Question 40

The NCRP states that only when the dose to the fetus exceeds __ Gy are the risk of fetal effects significantly increased.

Answer 40

0. 15 Gy (150 mGy);

- (typical single CT exam is usually

Question 41

What is Rayleigh scattering (coherent or classical scatter)?

Answer 41

-Coherent scatter occurs when a low-energy x-ray photon is scattered from an atom without any energy loss.
-The wavelength of the scattered photon is the same as the wavelength of the incident photon.
-Does not result in any energy deposition in the pt
-

Question 42

What is the Photoelectric Effect?

Answer 42

• Occurs b/w tightly bound (inner shell) electrons and incident x-ray photons. The x-ray photon is totally absorbed by an inner shell electron and that electron is ejected from the atom.
• Outer shell electrons fill the inner shell electron vacancies, with the excess energy emitted as a characteristic x-ray or Auger electron.

Question 43

What is an Auger electron?

Answer 43

When a core electron is removed, leaving a vacancy, an electron from a higher energy level may fall into the vacancy, resulting in a release of energy. Although most of the time this energy is released in the form of an emitted photon, the energy can also be transferred to another electron, which is ejected from the atom. This second ejected electron is called an Auger electron.

Question 44

What is the binding energy for a Tungsten K shell electron?

Answer 44

70 keV

Question 45

What is the K edge?

Answer 45

The binding energy of the K-shell electrons (e.g. 70 keV for Tungsten, 33 keV for iodine)

Question 46

Does the probability of the photoelectric effect increase or decrease as the photon energy (E) increases above the K edge?

Answer 46

• The probability of PE decreases rapidly as the photon energy increases above the K edge.
• Above the K edge, photoelectric interactions are proportional to 1/E^3.

Question 47

Does photoelectric absorption increase or decrease with atomic number?

Answer 47

It increases with atomic number and is proportional to Z^3.

Question 48

What is Compton scatter?

Answer 48

• Incident photons interact with outer shell electrons
• A Compton interaction results in a scattered photon that has less energy than the incident photon and generally travels in a different direction.
• A scattered (ejected or recoil) electron carries the energy lost by the incident photon as kinetic energy.

Question 49

How is the probability of Compton interactions related to the photon energy?

Answer 49

Inversely proportional (1/E)

Question 50

What is the linear attenuation coefficient (u)?

Answer 50

The linear attenuation coefficient is the fraction of incident photons removed from the beam in traveling unit distance (measured in cm^-1). E.g. u = 0.1 cm^-1 means that 10% of the photons are removed per 1 cm.

Question 51

What does Half-Value Layer (HVL) mean?

Answer 51

The HVL quantifies the ability of an x-ray beam to penetrate tissue. The HVL is the thickness of material that attenuates an x-ray beam by 50%

Question 52

What is the mathematical relation between HVL and linear attenuation coefficient?

Answer 52

HVL = 0.693 / u (linear attenuation coefficient)

Question 53

Name 3 ways to increase x-ray beam quality.

Answer 53

1) Increasing the x-ray tube voltage (kV) is the most direct way
2) Reducing the voltage waveform ripple
3) Increasing x-ray tube filtration increases the beam quality, as low-energy photons are preferentially removed

Question 54

What is the SI unit for radiation exposure?

Answer 54

coulombs per kilogram (C/kg) or roentgens (R) in non-SI units

Question 55

What is the atomic number and K-shell binding energy of Tungsten?

Answer 55

Z=74

70 keV

Question 56

What is the atomic number and K-shell binding energy of Barium?

Answer 56

Z=56

37 keV

Question 57

What is the atomic number and K-shell binding energy of Lead?

Answer 57

Z=82

88 keV

Question 58

What is the atomic number and K-shell binding energy of Iodine?

Answer 58

Z=53

33 keV

Question 59

What is the typical binding energy for an outer shell electron?

Answer 59

0.005 keV

Question 60

For soft tissue, at what photon energy level are the photoelectric and Compton effects equal?

Answer 60

25 keV. In tissue, PE dominates at energies lower than 25 keV and Compton scatter dominates at energies greater than 25 keV

Question 61

For bone, at what photon energy level are the PE and Compton effects equal?

Answer 61

40 keV

Question 62

What is the Bucky factor?

Answer 62

The Bucky factor is the ratio of radiation incident on the grid to the transmitted radiation. It is the increase in patient dose due to the use of a grid. Typical values range between 2 and 6.

Question 63

How is the grid ratio calculated?

Answer 63

• It is the ratio between the strip height (h) along the x-ray beam direction to the gap (D) between the lead strips; so the grid ratio = h/D
• typical range from 4 to 16

Question 64

How does increasing the grid ratio affect image contrast?

Answer 64

Increases image contrast, but also increased tube loading and patient exposure

Question 65

What is the Heel Effect?

Answer 65

The Heel Effect is caused by the anode angle. X-rays (bremsstrahlung) are produced under the surface of the anode disc. X-ray photons on the anode side of the beam have a longer path to the surface of the anode than photons on the cathode side of the beam and thus the beam will be more attenuated and less intense on the anode side of the beam.

Question 66

Patients with a history of allergies and those with features of atopy, such as asthma, dermatitis, and urticaria, have an approximately ______ increased risk of severe reaction to contrast media

Answer 66

3 to 6 fold

Question 67

Serious anaphylactic reactions to contrast media are caused by which type of hypersensitivity

Answer 67

Type 1 (anaphylactic) hypersensitivity reaction

Question 68

What is the standard dose of Epinephrine for treating severe allergic reactions to contrast?

Answer 68

• IM: 0.3 mg (0.3 mL of 1:1000 dilution), repeat to total dose of 1 mg;
• or IV: 0.3 mg (1–3 mL of 1:10,000 dilution) slow infusion, repeat to total dose of 1 mg

Question 69

What is the dose for Atropine for tx of moderate to severe vasovagal reaction (pt unresponsive)?

Answer 69

IV: 0.6–1.0-mg slow infusion followed by saline

flush, repeat to total dose of 3 mg

Question 70

What is the tx for hypertensive crisis related to contrast dye?

Answer 70

• IV labetalol: 20-mg slow infusion over 2 min, double the dose every 10 min (eg, 40 mg 10 min later, then 80 mg 10 min after that)
• Sublingual nitroglycerin tablet, 0.4 mg; repeat every 5–10 min; IV furosemide, 20–40 mg, slow infusion over 2 min

Question 71

For an elective CT scan, what is the typical pre-medication for contrast allergy?

Answer 71

• Prednisone, 50 mg by mouth at 13, 7, and 1 h before injection of contrast agent.
• Diphenhydramine, 50 mg IV, IM, or by mouth 1 h before injection of contrast material

Question 72

For an emergent CT scan, what is the typical pre-medication for contrast allergy?

Answer 72

• IV methylprednisolone 40 mg, or IV hydrocortisone 200 mg every 4 h until study performed
• Diphenhydramine 50 mg IV 1 h before injection of contrast material

Question 73

What type of radiation plays the predominant role in x-ray spectra used for imaging?

Answer 73

Bremsstrahlung radiation

Question 74

What is the typical target material used for mammography tubes?

Answer 74

Molybdenum

Question 75

What is the typical energy range for characteristic x-rays produced by molybdenum targets for mammography?

Answer 75

17 to 19.5 keV

Question 76

What type of radiation plays the predominant role in mammography?

Answer 76

Characteristic x-rays

Question 77

In spin echo imaging, a T1 weighted sequence tends to have _____ TR and _____ TE (short or long)

Answer 77

Short TR and short TE

Question 78

In spin echo imaging, a T2-weighted sequence tends to have _____ TR and _____ TE (short or long)

Answer 78

Long TR and long TE

Question 79

A proton density sequence is obtained with: ____ TR and ___ TE

Answer 79

Long TR and short TE

Question 80

In plain film radiography, what is an intensifying screen?

Answer 80

A screen between the patient and the film. It is a material that has a much higher absorption efficiency for x-ray photons and that converts the x-ray photon energy to visible, and sometimes UV light - parts of the electromagnetic spectrum to which the film is substantially more sensitive.

Question 81

What is the larmor frequency of a proton (H1) at 3T? at 1.5 T?

Answer 81

128 MHz at 3 T

64 MHz at 1.5 T

Question 82

What does increasing the object-to-collimator distance do to the system spatial resolution of a gamma camera?

a) degrades resolution
b) improves resolution
c) no effect on resolution

Answer 82

a) An increase in object-to-collimator distance degrades the system spatial resolution. This is an important factor to remember when positioning patients for imaging. The closer the detector is to the patient, the better the resolution of the images obtained.

Question 83

Which of the following is a proper gadolinium dose calculation for a routine neuro MRI examination?

a) 10 mmol/kg
b) 5 mmol/kg
c) 1 mmol/kg
d) 0.1 mmol/kg
e) 0.01 mmol/kg

Answer 83

d) 0.1 mmol/kg

Question 84

For CT angiogram of the head and neck, appropriate scan delay after beginning the contrast injection is:

a) 0 sec
b) 5 sec
c) 10 sec
d) 30 sec
e) 60 sec

Answer 84

d) 30 sec

Question 85

A breast-feeding mother must undergo a gadolinium infused MRI for evaluation of a pelvic mass. After careful consideration, the best recommendation regarding breast-feeding and gadolinium use is:

a) The mother should stop breast-feeding for 48 hours and then resume breast-feeding as usual
b) The mother should stop breast-feeding for 24 hours and then resume breast-feeding as usual
c) The mother should stop breast-feeding for six hours and then resume breast-feeding as usual
d) The mother should pump her milk for 24 hours, store it for later use, and then resume breast-feeding as usual
e) The mother need not modify her breast-feeding practice

Answer 85

e) The mother need not modify her breast-feeding practice.

Question 86

What is the annual effective dose limit for a radiation worker?
5 year cumulative dose limit?
Max limit in 1 year?

Answer 86

• 20 mSv per year
• 5 year cumulative dose limit of 100 mSv
• Max of 50 mSv in 1 year

Question 87

What is the annual effective dose limit in a member of the public?
5 year cumulative dose limit?

Answer 87

• 1 mSv

- 5 mSv

Question 88

What is “Equivalent Dose”?

What is it measured in?

Answer 88

• Equivalent dose (HT) is the absorbed dose (DT) multiplied by a radiation weighting factor (WR) (varies by alpha particle, beta, gamma ray, etc.).
• Measured in Sv.

Question 89

What is “Effective Dose”?

What is it measure in?

Answer 89

The effective dose is calculated by multiplying the equivalent dose (HT) by a tissue weighting factor (WT).
-Measured in Sv

Question 90

What is considered long TE and long TR?

Answer 90

• Long TR >1500 ms
• Long TE >90 ms
• divide by 3 to get short TR and TE (TR 500, TE 30)
• intermediate weighting is in between
• PD weighting is short TE, long TR
• T2WI is long TE and long TR
• T1WI is short TE and short TR

Question 91

In a standard MRI, the center of k space represents what?

Answer 91

Contrast. Periphery of k space is for edge sharpness (spatial resolution).

Question 92

T1 relaxation describes which of the following?

a) Recovery of longitudinal magnetization after an rf-pulse
b) Decay of longitudinal magnetization after an rf-pulse
c) Decay of transverse magnetization after an rf-pulse
d) Recovery of transverse magnetization after an rf-pulse

Answer 92

a) T1 relaxation describes the recovery longitudinal magnetization after an rf-pulse.
- After 1 T1 period, 63% of magnetization has recovered due to interactions with surrounding lattice (spin lattice relaxation); Mz(t) = M0 x (1-e^[-t/T1]). Longitudinal magnetization has completely recovered (> 99%) after 5 T1 times. T1 times are usually 5-10 longer than T2 times. Different tissues have different T1 properties: Fat has a short T1 time, whereas water has a long T1 time.

Question 93

Annual dose limit to the extremity?

Answer 93

500 mSv

Question 94

Annual dose limit to a Fetus of declared pregnant worker

Answer 94

5 mSv during gestation