Procedure for prostate brachy

Question 1

pre-US patient prep

Answer 1

patient under anesthesia
patient positioned with legs on stirrups
catheter in
rectal suctioning
disinfectant

Question 2

distance between holes in template

Answer 2

5 mm

Question 3

sterile area

Answer 3

cannot touch anyone or anything within this region

Question 4

virtual plan in oncentra

Answer 4

put on rough contours that encompass entire area where doctor puts needles

• needles are assigned to grid positions in TPS according to where RO wants to put the needles
• o Virtual planning may be used to investigate different needle arrangements by checking which give the best dose distribution when inverse optimization is performed.

Once needle placement is finalized, remove obturators and acquire final image of the prostate

Question 5

how does doctor load needles

Answer 5

peripheral (outside on top 2 rows)
remaining rows- put needles in middle
skip a row
another row on bottom

too few needles- have to fire source for too long and get hot spots

too many needles - shadows from needles can make it difficult to see all of them (this is also why we load from top to bottom so doctor can see that

measures distance from template to ring
template position in oncentra = 193 - (template to ring)

Question 6

base vs apex of prostate

Answer 6

base = sup portion
apex = inf portion

Question 7

how does the US give a 3D image?

Answer 7

• US acquires single axial plane at a time

- pull US out and acquire whole time to get 3D image

Question 8

prostate PTV margin

Answer 8

• only to allow souce to fire just outside prostate, not trying to cover the PTV
• 3 mm in each direction except post (rectum) and sup (bladder)

Question 9

recording needle positions for Oncentra

Answer 9

doctor reads out positions of each needled

later therapists measure free lengths (2 therapists measure and if they disagree a third confirms)

knowledge of total needle length is used to determine lenght of needle inside patient. Software will update needle contours once free needle lengths are entered

o In order to have the measured free length correspond to a location on the US image, must also measure distance from the outer surface of the template to a reference point on the probe. Knowing the distance from this reference point to the base plane (the plane of the transverse crystals) allows distance from the template to the base plane to be known; and from this the needle tip can be assigned to a particular location in the US image if the free length is known.

Question 10

needles in Urethra?

Answer 10

normally no

want 100% of dose to urethra, no more (urinary retention)

Question 11

what does physician do with the needles once Oncentra is switched to live plan?

Answer 11

pushes in needles further to base of prosate

Question 12

how far do we want the needles to extend?

Answer 12

Needles have 1 cm deadspace at end

Want them to extend 1 cm beyond prostate (tough to do at sup end as run into bladder)

Question 13

do we use plastic or metal needles

Answer 13

metal

-metal adds rigidity but plastic is more flexible (less predictable but can shape it a bit more)

Question 14

what contours does the doctor draw in Oncentra

Answer 14

prostate (apex and base most important) - doc remembers where they put needles

• urethra
• rectum

Question 15

US slice thickness

Answer 15

1 mm

Question 16

issue with large prostate

Answer 16

more risk of urinary retention

pubic arch interference - appears as black triangles at edges of US field (pubic arch blocking prostate)

Question 17

advantage of brachy vs just EBRT

Answer 17

• less dose to rectum compared to EBRT, thus can deliver higher dose
• don’t have PTV
• US probe actually creates space between rectum and prostate

Question 18

what % of prostate patients get brachy

Answer 18

20%

Question 19

what is done to needles in Oncentra?

Answer 19

reconstructed to line up with actual needle positions in all slices
3-4 pts per needle

-if needle at different positions on different sliced, go with midpoint

Question 20

rectum constraint

Answer 20

V80% < 500 mm^3

Question 21

target requirements

Answer 21

V90 ~ 100%
V200 < 11%
V150 < 33 -35%
V100 > 95%

Question 22

How can you cool or warm up hot/cold spots

Answer 22

change local distribution function

Question 23

pts to choose for RadCalc

Answer 23

10 pts, 2 planes

Question 24

overview of steps in prostate brachy

Answer 24

acquire images
tell system where needles are
reconstruct needles
inverse optimize (IPSA)

Question 25

when is dose not 15 Gy?

Answer 25

patient has IBS or collitis - patient gets 2 brachy sessions instead

Question 26

gyne vs prostate step size

Answer 26

5 mm vs 2.5 mm

Question 27

agreement between source calibration and activity

Answer 27

+/- 5 %

Question 28

needles used at NSHA

Answer 28

1.9 mm trocar

with obturator inside to give rigidity when putting in the needles

Question 29

what is checked during physics 2nd check

Answer 29

o Checking patient identity and other input data (e.g., correct source model, afterloader, step size, template, catheter type, indexer length)
o Correct US probe is used
o For prostate: tip to first dwell = 1 cm, free length agrees with values written down
o Checking that the correct applicator is used in the correct location
o Check that catheter reconstruction is correct and starts at the appropriate end; no bent needles etc
o Checking that the date and time are correct (check that source strength agrees with printed out table within 0.5%)
o Checking that the correct optimization process was used
o Correct prescription, F-factor
o Verifying that the doses at various points agree with an independent dose calculation within expected tolerance (e.g., RadCalc, 5 %)
o Checking that the treatment plan agrees with policies of treatment for patient’s disease (i.e., does this treatment make sense given patient disease)
o Acceptable DVH
o Checking that plan objectives were adequately satisfied
o Ensuring that there is a record of treatment.
o Care path updated
o ARIA EMR documents approved.

Question 30

can you put a RadCalc point in a needle?

Answer 30

No, results won’t agree

Question 31

what does physics do with therapists regarding after-loader tubes?

Answer 31

ensures number goes into right location

therapists survey afterloader to make sure source is inside

Question 32

radius of urethra

Answer 32

3.5 mm

Question 33

what does oncentra do to holes within proximity of urethra?

Answer 33

blocks them- cannot put needle here unless you free them

Question 34

when is patient surveyed?

Answer 34

survey patient before and after treatment

Question 35

medical prep for patient

Answer 35

general anasthetic
dorsal lithotomy position
foley catheter in urethra (to collect urine and also make urethra visible)

Question 36

how is US and template kept stable?

Answer 36

• US is fixed relative to the patient bed, and the template is rigidly fixed to the US equipment. In some centres, the template may be sutured transperineally.
-a grid is superimposed on each US image slice to represent template coordinates

Question 37

How does IPSA work?

Answer 37

inverse optimization simulated annealing

changes dwell positions and times iteratively

Question 38

QA done by therapists on the plan before treatment

Answer 38

o They check that the information on the TCS agrees with the report created by the physicists (e.g., spot checking dwell times).
o They also verify patient information (name, ID)

Question 39

what is dummy source used for?

Answer 39

Thicker than actual source
Checks that there aren’t any blockages for any of the needles or tubes (checks all positions) before whole treatment
Also checks indepedent needles before the source goes into that particular needle

Question 40

How is the 3D US image created?

Answer 40

scan probe longitudinally longitudinally (manually – must go very slow to avoid lag in software due to frame grabber and image refresh rate) or by rotating the probe (can be done automatically – software automatically corrects for shift due to lag since rotation is at a constant speed; however, this method is limited to prostates small enough to fit in FOV)

Question 41

what speed of sound does US assume?

Answer 41

1540 m/s

Question 42

how to get speed of sound of 1540 m/s in water?

Answer 42

add 43 g to 1 L of water

Question 43

where do you avoid placing needles?

Answer 43

under urethra as it makes it hard to view and contour urethra

• avoid plaing in grid locations that are directly adjacent (uncecessary and may result in crossed needles)
• avoid needles that block other needles - look at radial path in transverse view

Question 44

urethra constraint

Answer 44

Dmax < 125%

D10%< 118%

Question 45

permanent implant prostate brachy dose

Answer 45

125-145 Gy (monotherapy), 125 Gy with Pd-103, 145 Gy with I-125
If with 40-50 Gy EBRT, then 90 Gy Pd-103 or 110 Gy I-125
-I-125 dose rate is 7 cGy/h

Question 46

dose for prostate HDR with EBRT

Answer 46

15Gy/1

9.5 Gy/2

Question 47

constraints and objectives for permanent implant prostate PDR

Answer 47

CTV: V100%> 95% so D90% will be > 100%
CTV: V150% < 50%
rectum: D2cc < Rx, D0.1cc < 150%
urethra: D10< 150%, D30<130%

Question 48

Why is Pd-103 dose lower than I-125?

Answer 48

lower energy (and therefore increased biological effectiveness) and shorter half-life (less opportunity for normal tissue repair)

The Pd-103 dose rate [due to its shorter half-life] as well as its relative biological effectiveness (RBE) [due to shorter half-life/higher dose rate  less chance for tissues to recover and lower energy  higher LET  higher RBE] is higher than that of I-125. Thus, the prescription dose for Pd-103 seeds is lower than the recommended dose for I-125 seed implants, 125 and 144 Gy, respectively. The value corresponding to 80% of the dose deposited by I-125 seeds is delivered in 140 days, while the Pd-103 seeds deliver such value in 39 days.

Short half-life is particularly important for cancer strains with a high proliferation index.

Question 49

homogeneity of plans with I-125 vs Pd-103

Answer 49

 Because of their lower energies, Pd-103 photons have a lower range in the tissue than those emitted by I-125. Thus, for the same distribution of seeds, the spatial dose distribution obtained by Pd-103 tends to be less homogeneous that that obtained with I-125. On the other hand, and for the same reason, Pd-103 seeds will produce lower absorbed doses at longer distances, particularly in the surrounding healthy tissues [also it is easier to protect medical personnel from a radiation safety point of view].

Question 50

How is LDR prostate usually done?

Answer 50

US done of patient
plan made, seeds ordered
US of patient- put in seeds- can adjust positions but generally don’t replan
-some studies may MRI or CT patient afterwards to assess seeds based on prostate swelling etc over time

Question 51

difference between LDR and HDR plans

Answer 51

LDR is more densely packed because it is a lower energy source
HDR distribution is better as you can spare the structures better, LDR has inherent randomness

Question 52

good trick when graphically cooling hot spot

Answer 52

adjust on slice where dwell position is

Question 53

US mode used for prostate

Answer 53

B mode
Brightness mode

Commonly referred to as B (brightness) mode, the use of grey scale imaging in ultrasound renders a two-dimensional image in which the organs and tissues of interest are depicted as points of variable brightness. The formation of a B-mode image relies on the pulse-echo principle; assuming the speed of sound remains constant, the position of a target of interest may be inferred by the time taken from emission to its return to the transducer. In order to construct a cross-sectional image, the pulse-echo sequences from a multitude of neighboring scan lines are sequentially summated in real-time, generating a moving image

Question 54

US modes

Answer 54

A-mode: A-mode is the simplest type of ultrasound. A single transducer scans a line through the body with the echoes plotted on screen as a function of depth. Therapeutic ultrasound aimed at a specific tumor or calculus is also A-mode, to allow for pinpoint accurate focus of the destructive wave energy.

B-mode: In B-mode ultrasound, a linear array of transducers simultaneously scans a plane through the body that can be viewed as a two-dimensional image on screen.

M-mode: M stands for motion. In m-mode a rapid sequence of B-mode scans whose images follow each other in sequence on screen enables doctors to see and measure range of motion, as the organ boundaries that produce reflections move relative to the probe.

Question 55

what is doppler mode in US?

Answer 55

employ the Doppler effect to assess whether structures (usually blood) are moving towards or away from the probe, and its relative velocity. By calculating the frequency shift of a particular sample volume, for example a jet of blood flow over a heart valve, its speed and direction can be determined and visualized.

Question 56

what does pubic bone do?

Answer 56

pushes needles down

Question 57

what “determines” the urethral dose?

Answer 57

2 ant needles at apex

Question 58

how can you use TRUS to manipulate the prostate shape?

Answer 58

fill balloon with water to push it around

Question 59

what does physician check during TRUS before deciding if a ptient can have brachy?

Answer 59

• prostate doesn’t protrude into bladder
• prostate size < 55 cm^3
• no pubic arch interference

patient is in same position as for treatment (dorsal lothotomy)

Question 60

yellow boots

Answer 60

fins

Question 61

why is D10% < 118% for urethra a bit of a silly constraint?

Answer 61

depends on how far out you contour the urethra

Question 62

frequency of US

Answer 62

6-12 MHz

here we use 12 MHz

Question 63

stranded seeds

Answer 63

in permanent prostate
prevents seed migration
ribbon of seeds

Question 64

what does template do?

Answer 64

provides a consistent, structured grid for implanting needles

Question 65

DVH for prostate brachy

Answer 65

remember the point 0,100 is on ALL DVHs

then plot 90, 100
100, 95
make sure drop off from 100 is not too fast or it is a bad plan!
put 150, 33
200, 10
in brachy, doses theoretically extend to infinity

Question 66

stepper encoder test

Answer 66

tests integrity of stepper- bypasses TPS so that if steps are not appearing in Oncentra we can verify if it is due to communication with TPS or the stepper itself

Question 67

who is not a candidate for permanent prostate brachy?

also for HDR prostate brachy

Answer 67

patients who cannot undergo anasthesia
patients with mets
limited life expectancy
lack of rectum (cannot do TRUS)

-patients with high risk of urinary irritative and obstrutive symptoms are at higher risk of urinary retention after brachy

Should be considered but are not deal breakers:

• prostate > 60 cc
• inflammatory bowel disease
• previous pelvic radiotherapy (especially if > 50 Gy)
• prior TURP (transurethral resection of the prostate)
• pubic arch interference

Question 68

low risk, intermediate risk and high risk

Answer 68

low risk: gleason = 6, PSA < 10 ng/mL and tumor classification T1, T2a

intermediate: gleason 7, PSA between 10 and 20, T2b, T2c
high: geason > 7, PSA > 20, T3a, T3b

Question 69

treatment for low, intermediate, and high risk

Answer 69

low: brachy alone, no EBRT or androgen deprivation
intermediate: brachy alone or with ABRT, maybe androgen.
high: brachy and EBRT, androgen depravation is favoured

Question 70

CT vs MRI vst TRUS for pre-implant peranent proatate planning

Answer 70

MRI can be used for pre-treatment planning

CT is less reproducible than TRUS

Question 71

lingo for the way prostate is loaded

Answer 71

modified peripheral or modified uniform

Question 72

what is somtimes used in addition to TRUS for seeing the seeds being implanted?

Answer 72

fluoro

Question 73

types of seeds

Answer 73

stranded and loose

Question 74

dose for permanent prostate brachy if combined with EBR

Answer 74

I-125
41.4-504 Gy (1.8 Gy fx) and 108-110 Gy brachy

Pf-103
41.4- 50.4 Gy EBRT and 90-100 Gy brachy

may prescribe hihger dose 9upw9

Question 75

why is a higher permanemt orostate dose sometimes prescribed? (up too 200 Gy)

Answer 75

to compensate for edema

usually toxicity is still tolrated

Question 76

seed activity

Answer 76

0.2-0.4 mCi for I-125

1-2 mCi for Pd-103

Question 77

when is permanent seed brachy done- before or after EBRT?

Answer 77

unknown what is better
doing brachy before may lead to more toxicity (exposure to both treatments at same time) but also allows you to vary EBRT depending on response of cancer to the brachy

Question 78

when should post-operative CT dosimetry be performed for seed prostate patients

Answer 78

within 60 days of implant

optimal is 16 days for Pd and 30 days for I125

Question 79

ABS dose constraints for seed prostate

Answer 79

urethra V5 < 150 %
urethre V30 < 125 %

rectal V100 < 1 cc

Question 80

is HDR brachy used as monotherapy in prostate?

Answer 80

yes, for early and intermediate risk prostate cancer

Question 81

HDR prostate doses

Answer 81

all over the map 9-15 Gy in 1 fx to 26 Gy in 4 fractions with many intermediary fractionation protocols

Question 82

absolute contraindications for HDR prostate brachy

Answer 82

rectal fistula
cannot handle anasthesia
no proof og malignancy…

Question 83

examples of monotherapy HDR brachy doses

Answer 83

10. 5Gy X3

9. 5 Gy X 4

Question 84

toxicities from brachy

Answer 84

erectile dysfunction
rectal irritation
urinary irritation

rectal fistula is rare

Question 85

is brachy used in salvage therapyt and what is salvage therapy

Answer 85

yes it is

salvage: given after cancer doesn’t respond to standard therapy

Question 86

who is eligible for SABR prostate with fiducials?

Answer 86

low-intermediate risk
-36.25 Gy/5 to PTV, 40Gy/5 to CTV, on alternate days

-if patient has hip prosthesis, there would be too much artifact in the CT