RAPHEX III

Question 1

what particle has rest mass of 938 MeV?

Answer 1

proton

Question 2

binding energy of 69, 12, and 2 keV
possible characteristic xrays for 100 keV photon striking atom

Answer 2

57, 67, 2 keV

Question 3

does beta minus emission contribute for Co-60?

Answer 3

No
there is beta emission but it is typically absorbed in source housing

Question 4

is beam current higher in electron or photon mode

Answer 4

photon mode

Question 5

cerrobend blocks have more or less primary transmission than MLC?

Answer 5

more
they can conform to any shape
*remember these are different than cones

Question 6

what are HU linearly related to?

Answer 6

linear attenuation coefficient was right anseer
electron density was wrong- maybe because it should be relative electron density?

Question 7

why do neutrons have higher Q factor than electrons?

Answer 7

they transfer their energy to protons, which have higher LET

Question 8

average energy of 6 MV beam

Answer 8

about 3.8 MeV
6MeV is max

Question 9

advantages of radiochromic vs radiographic include all the following except?
-nearly tissue equivalent
-doesn’t require post irradiation processing
-relatively insensitive to viosible light
-more linear response
-requires lower dose

Answer 9

-last one is wrong, it requires a higher dose

Question 10

normalized to 100%, physician treats 180 cGy to 95 % isodose line, hot spot is 107%. Hot spot for 25 fractions

Answer 10

180/0.95 * 1.07
5068 cGy

Question 11

why might physician treat with 10 MV in lung instead of 6 MV

Answer 11

lower dmax dose

Question 12

2 blocks- one has midline block and the other a corner block. For to the right of center of field, which has a more penetrating depth dose?

Answer 12

-one woth corner block has more penetrating PDD
-midblock changes equivalent square more than corner block

Question 13

all of the following are advantages of a dynamic wedge vs conventional except:
a)same depth dose
b)field not limited in non-wedge direction
c)therapists don’t have to lift
d) less dose outside field
e)wedge transmission factpr is independent of field width

Answer 13

e
it does depend

Question 14

are attenuation corrections greater for 6 or 15 MV photons?

Answer 14

greater for 6 MV
but interface effects are worse at high energy

Question 15

a wedged breast plan is calculated without heterogeneity corrections. The same plan is then corrected for hetereogeneities and reoptimized.
In general, the plan with heterogeneity:
a) requires smaller wedge angle
b)results in greater max tissue dose
c) results in higher skin dose

Answer 15

a
increased transmission through lung generally requires a smaller wedge for homogeneity

Question 16

gap widh for 2 direct spine fields matched at 6 cm, 25 and 28 cm long
100 cm SAD

Answer 16

1.6 cm

Question 17

100 cm sad
colli rotation required to align 25x25 cranial fields with a direct spinal field of height 36 cm

Answer 17

arc tan (18/100)

Question 18

dose to pacemaker should be kept beloe 2 Gy. For 6 MV lung of 40 Gy, fields should be no closer than x cm to the pacemaker?

Answer 18

b - 2 cm
(used 3%/mm rule in lung)

Question 19

pregnant woman is treated with 6 MV fields
total dose of 40 Gy
fetus is 15 cm from field edge. What will maximum dose to fetus be?

Answer 19

0.6 - 2% per AAPM TG 50

Question 20

rule of thumb for mm of lead required per MeV for a cutour

Answer 20

-0.5 mm

(MeV/2) mm

Question 21

where is increased scatter from lead shielding in electron treatments?

Answer 21

increased dose at front, decreased dose at back
i.e. scatter from front surface

Question 22

when CT scans are used in treatment plans with heterogeneity corrections, QA should be done regularly to ensure constancy of all of the following except:
a. laser alignment’b. CT number vs electron density
c. absence of distortion
d. dose

Answer 22

answer was d since dose wouldn’t affect the TP

Question 23

100 slice CT SIm requires how much memory?

Answer 23

50 MB
512 X 512 X 2 bytes X 100 slices

Question 24

DICOM RT transfer protocol includes what?

Answer 24

CT image set with beam info and dose distribution

Question 25

orthogonal lateral films are taken. What would NOT improve resolution?
a. reduce collimator size
b. using higher grid ratio
c. increase mAs
d. take orthogonals at 45 and 315 degrees instead

Answer 25

increasing mAs does NOT improve contrast

(remember only improves contrast to noise ratio)

Question 26

which of the following would not be a factor used in calculating room shielding for HDR?
a. source energy
b. closest disance of unit to shielded wall
c. wall material
d. average source activity between installation and replacement
e. max workload

Answer 26

d. the max activity is used, not the average

Question 27

main advantage of EPID over conventional radiographic film:
a. improved resolution
b. improved SNR
c. less dose required
d. images can be digitally enhanced
e. all of the above

Answer 27

d

Question 28

when expanding a XX to create a YY, expansion into bone will typically be excluded.

Answer 28

GTV, CTV

Bone tends to limit spread of disease

PTV is for setup error, so is expanded into bone

Question 29

typical residual positioning error after IG setup

Answer 29

1-5 mm

don’t like this question as it depends on treatment setup

Question 30

advantages of CBCT vs dual ortho kV fluoro, all of the following are true except:
a. CBCT can’t be used in real time whereas fluoro can
b. CBCT delivers higher patient dose
c. CBCT can image soft-tissue differences whereas ortho fluoro cannot
d. CBCT has better spatial resolution

Answer 30

d is not true

Question 31

tomo includes which modalities?

Answer 31

MV CT
MV linac

Question 32

50% of points fail dose verification. Possible reasons could be the following except:
a. in TPS, converting from ideal fluence to deliverable plan resulted in poor plan
b. measured dept is different
c. measured SAD is different
d. Wrong field is chosen

Answer 32

a
because deliverable plan is what would be compared to measured

Question 33

which of the following regarding TBI is false?
a. -can use 6, 10, or 15 MeV photons
b. in certain orientations, tissue compensators are not needed
c. AP/PA or later POPs can be used
d. dose to lungs must be limited

Answer 33

b

Question 34

dose per minute for air kerma strength of HDR 192 source of 40,000 cGy cm2/h

Answer 34

divide by 60
cGy cm2/h is same as uGy m2/h

Question 35

exposure rate is 200 mR/h- max time someone can spend there

Answer 35

1 mSv/wk
use 0.876 cGy/R for conversion
1 Gy= 1 Sv

Question 36

for same initial dose rate, required activity of I-125 vs Ir 192

Answer 36

I 125 is higher because it has lower exposure rate constant

Question 37

wrt preferentially implanting seeds towards the periphery of the prostate vs uniform distribution of seeds within prostate, which of following statements is false?
a. dose to urethra will be lower
b. dose to rectum will be lower
c. dose to entire prostate will be more uniform
d. more easily achieved with LDR than HDR

Answer 37

b is false, it slightly increases rectal dose

dose is closer to see

Question 38

ideal tandem and ovoids, typualy dose rate at pt A

Answer 38

55 cGy/h

typical loading is 15-10-10 mg Ra in tandem
15 mG Ra eq in each ovoid

Question 39

HDR yields more toxicity to rectum compared to LDR. How is this reduced in HDR?
a. reduce dwell time in colpostats
b. reduce fractions
c. reduce dwell times in tandem closest to rectum
d. using rectal retractor or packing

Answer 39

d

Question 40

plane of uniform activity Ir-192 seeds is proposed. What system can be used to calculate required activity to meet a dose objective?
a. Peterson Parker
b. Quimby
c. commercial system
d. all of above
e. B and C

Answer 40

e
Peterson-Parker cannot be used for equal activity sources

Question 41

QA tests that should be performed before Mammosite treatment include verification of the constancy of all of the following except:
a. balloon dimensions
b. product of source activity and total dwell times
c. accuracy of source position
d, min distance from balloon to skin

Answer 41

d
this is checked during planning at begining of tx

doctor may choose not to treat if distance < 7 mm

Question 42

how is 18 F created

Answer 42

cyclotron

Question 43

how is Cs 137 created

Answer 43

by-product of fission

Question 44

how is Ir 192 created

Answer 44

bombard 191Ir with neutrons in a reactor

Question 45

lateral penumbra of proton beam vs photon beam

Answer 45

proton is superior at shallow depths, but comparable to or wider at large depths

Question 46

can there be neutron contamination in proton beams?

Answer 46

yes in passively scattered proton beam
-produced by scatter in collimators and energy degraders. This is reduced in spot-scanned photon beam

Question 47

how to calculate biological half life so that correct I131 dose can be administered?

Answer 47

give tracer dose prior to treatment and perform whole body assay the following day and a few days later

Question 48

what is used to heat tumour wit hyperthermia treatment

Answer 48

microwave radiation

Question 49

comparing prostate treatment using 5-field 15 MV IMRT photon treatment plan with proton plan using POPs, the later proton plan has:
z. lower integral body dose
b. better conformity to PTV
c. lower rectal dose
d. lower bladder dose
e. all of aboce

Answer 49

apparently a is only correct answer … I guess 5 field would avoid rectum and bladder as well…