May 28 – 30, 2015, Montréal, Québec Breast Tomotherapy by Camille Pacher and Manon Simard.
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Transcript of May 28 – 30, 2015, Montréal, Québec Breast Tomotherapy by Camille Pacher and Manon Simard.
![Page 1: May 28 – 30, 2015, Montréal, Québec Breast Tomotherapy by Camille Pacher and Manon Simard.](https://reader035.fdocuments.us/reader035/viewer/2022062421/56649e575503460f94b507a0/html5/thumbnails/1.jpg)
May 28 – 30, 2015, Montréal, Québec
Breast Tomotherapy
by Camille Pacherand Manon Simard
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Disclosure Statement: No Conflict of Interest
May 28 – 30, 2015, Montréal, Québec
I do not have an affiliation, financial or otherwise, with a pharmaceutical company, medical device or communications organization.
I have no conflicts of interest to disclose ( i.e. no industry funding received or other commercial relationships).
I have no financial relationship or advisory role with pharmaceutical or device-making companies, or CME provider.
I will be discussing the results of ____ (“off-label” use), which is currently classified by Health Canada as investigational for the intended use.
I will not discuss or describe in my presentation at the meeting the investigational or unlabeled ("off-label") use of a medical device, product, or pharmaceutical that is classified by Health Canada as investigational for the intended use.
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May 28 – 30, 2015, Montréal, Québec
Disclosure Statement: With a Conflict of Interest
I have/had an affiliation, financial or otherwise, with a pharmaceutical company, medical device or communications organization, which could include:
Examples:•having received a grant(s) or an honorarium from a commercial organization.•holding a patent for a product referred to in the CME/CPD program or that is marketed by a commercial organization.•holding investments in a pharmaceutical organization, medical devices company or communications firm.•currently participating in or have participated in a clinical trial within the past two years.
I intend to make therapeutic recommendations for medications that have not received regulatory approval (i.e. "off-label" use of medication).
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Introduction 1st part:
Historical overview Machine components How it works
2nd part: Treatment plan creation Examples
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Breast Tomotherapy
1st partPhysics
by: Camille Pacher
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1993Thomas R. Mackie
2002 First patients treated, UWI
2003Introduced into the clinic
2010~ 280 TomoTherapy units worldwide
2015:> 500
Historical overview
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About Origin
Tomo = slice, section (Gk) Therapy = treatment
Conceived specifically for IMRT treatments
IMRT = Intensity Modulated Radiation
Therapy homogeneity D tumor
Limit dose to organs at risk (OARs) Parameter optimisation dosimetry planning
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Under the hood Linac
Primary
collimator
Ion chamber
Jaws
MLC
Detector
Shielding
MonitorChambers
Figure reprinted with Accuray®’s permission
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Under the hood – for real!
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Geometry SAD = 85 cm bore = 85 cm
Real isocenter (1)
Virtual isocenter (2)
D(1-2): 70 cm
0o
90o
180o
270o
Figure reprinted with Accuray®’s permission
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Why a “virtual” isocenter? No laser in the bore!
No way of knowing where the radiation isocenter is, therefore:
Introduce a virtual isocenter Fixed point outside the bore Known distance from the real
isocenter Used as a reference
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Lasers
Green Fixed Intersect at virtual
isocenter Not used clinically Used for quality
assurance testing
Red Movable Overlap green lasers at
start up Position is specific to each
patient’s treatment plan Serve as a reference point
for patient positioning
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Lasers: disposition
Quality control check: red laser motion wrt green lasers
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Linac – linear accelerator
Treatment Imaging
Incidentelectrons
6 MeV 3.5 MeV
Target 1.5 mm tungsten
Photons produced
6 MV 3.5 MV
No flatening filter!
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Ion Chambers
Device used to measure radiation
Continuous measurement Dose rate monitoring
Connected to a safety trigger If measurement is either too
high or too low, radiation is interrupted
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Jaws ~15 cm thick Control field widths 3 field widths (FW) available:
1, 2.5 or 5 cm Dimension at isocentre
x y
z
View from couch
x
y
z
TG148. Figure reproduced with the AAPM’s permission
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Multi-Leaf Collimator (MLC)
MLC: 64 leaves Binary; Pneumatic system Thickness: 10 cm, Width: 2-3 mm Maximum field length 40 cm
x y
z
View from couch
x
y
z
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Detector Conventional
CT detector array
640 channels in total
Only the 520 central channels are used
FOV = 40 cm
Figure reprinted with Accuray®’s permission
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Shielding Up to 23 cm of tungsten
Around the primary collimator Protection from scattered radiation
12.7 cm of lead “beam stop” Reduction in vault shielding
Figures reprinted with Accuray®’s permission
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Distinctive features (1)The beam: Fan-shaped Photons only 6 MV only available energy Constant dose rate
Time-based (v. MU-based) Treatment is stopped after a
given amount of time has elapsed
Figure reprinted with Accuray®’s permission
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Distinctive features (2) Daily MVCT – 1 to 3 cGy Gantry rotates constantly Couch is in motion
Helical treatmentdelivery
Consequences onplanning
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Planning parameters FW selection: 1, 2.5 or 5 cm
in FW treatment time Ex: treat 10 cm area
FW = 5 cm, covered with 2 gantry rotations FW = 1 cm, covered with 10 gantry rotations
Pitch
Modulation factor
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Pitch Distance d
traveled by the couch during one gantry rotation
Divided by the field width W
Influences: Gantry rotation
speed Couch speed
d
W
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Effect of the pitch Pitch > 1
Pitch = 1
Pitch < 1
d > W
d = W
d < W
dW
Patient =
Patient =
Patient =
dd
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Projections and beamlets
Projection = 1 MLC configuration
Fixed number of projections per rotation: 51
One projection = 7o arc
Beamlets = beam associated with one leaf
Max 64 beamlets per projection
~7o
~7o
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Modulation factor (MF)
Longest time (t) during which a leaf is open
Divided by the average open time (tave) of
all other leaves (0) Impacts the gantry’s rotation speed For a complex treatment (requiring a lot of MLC
motion for instance), it is best to choose a high MF
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Leaf open time histogram Nb of leaves (% normalised) vs open time (ms)
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Limiting factors
Equipment’s physical constraints:
1. Gantry speed Minimum: 360o/60 sec Maximum: 360o/10 sec
2. Couch speed 0.0125-40 mm/sec
3. Max treatable length 160 cm
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Alternate treatment modeTomoDirect Discreet angles Table moves between irradiations Pitch defined slightly differently:
Distance traveled by the couch between gantry angles
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Wrap up Tomotherapy =
unique Build Operation
Combined factors: FW, pitch, modulation
factor …
influence: Treatment duration Resulting dosimetry
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Breast Tomotherapy 2nd partDosimetry
by: Manon Simard
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Breast+nodes
Treatment plan steps constraints block
Examples
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A. Treatment plan creation Steps:
Contouring Region of interest (ROI) Plan settings Beam angles (tomo direct) Optimization Fractionation
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1. Contouring
Targets, margins, OARs,done on Pinnacle
Send to Tomo
Add contours if necessary
(ex: avoidance structure in 3D)
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Tomo Contouring
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2. Region of Interest (ROI) Targets are
separated from the other structures
Choose which region of interest will be used for optimization
Overlap of structures taken into account
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Overlap Explanation: 3 structures that do not overlap, the
system distinguishes each structure.
However, if there is an overlap, the machine sees them in the order you have choosen, 1 being the one in front and 3 the one in back
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Overlap In the example below, the overlap
priorities (o.p.) have been set as follows:
1: circle 1: triangle
2: triangle 2: rectangle3: rectangle 3: circle
Then the overlap priority is important.
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Examples Here is an example, where the o.p. is not
important because all 3 organs are distinct.
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However, Here is an example, where the o.p.
is important.
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3. Plan Settings Set the patient position
based on: green lasers (vitual isocenter) Tomo limitations
the PTV must be inside the field of view of 40cm
maximum lateral movement of 1.5cm
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3. Plan Settings (continued)
Red lasers (positionning
lasers) are placed on markers The offset between green and
red lasers has to be less than 18cm along the Y axis.
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3. Plan Settings (continued)
Determine system settings delivery mode:
direct or helical plan mode
IMRT or 3DCRT field width
1.05cm (brain, head/neck) 2.5cm 5cm (long structure)
pitch 0.287 0.430
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4. Beam angles (TomoDirect)
TomoDirect is another way to treat breasts without nodes,
2 fields with flash Treatment time longer than
breast case on Pinnacle ex: 6 min for dose of 50Gy-25tx
Can associate fields to specific structures
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Breast + nodes all cases of breast with lymph nodes are
treated by Tomotherapy®. the advantage is that there is no field junction. PTVbreast= CTVbreast + 7-10mm (but 3mminternal,
5mmpost ) PTVnodes=CTVnodes+5mm (but 3mm where OARs lung,
thyroide..) Prescribed dose
Breast+nodes: 50Gy 25tx (2Gy/tx) 45Gy 20tx (2.25 Gy/tx)
Internal mammary nodes: 45Gy
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Breast + nodes targets objectives See table
the organs at risk (OARs) constraints depend on which lymph nodes are treated. supraclavicular (sc) supraclavicular (sc)+ axillary (ax) supraclavicular+axillary+internal mammary
nodes (im)
See table
Control the low doses by use of avoidance structures block limit
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ObjectivesDose objectives for target volumes CTVs/PTVs
CTV/PTV breast CTV/PTV nodes
protocol minor deviation
protocol minor deviation
CTVevalPTVeval
V95 ≤99%V95 ≤95%
≤95-99%≤90-95%
V95 ≤95%V90 ≤95%
≤90-95%≤90-95%
PTVeval, V107%
≤10% ≤20% ≤10% ≤20%
PTVeval, V110%
≤1% ≤5% ≤1% ≤5%
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Dose constraints for OARsbreast/chest wall +
supraclavicularsbreast/chest wall+
axillary-supraclavicularsbreast/chest wall
+axillary-supraclavicular+im
protocol minor deviation
protocol minor deviation
protocol minor deviation
controlateral breast
V5 ≤ 1%V2.5 ≤3%
V5 ≤ 3%V2.5 ≤5%
V5 ≤ 1%V2.5 ≤3%
V5 ≤ 3%V2.5 ≤5%
V5 ≤ 5%V2.5 ≤10%
V5 ≤ 10%V2.5 ≤15%
ipsilaterallung
V20 ≤ 25%V5 ≤45%
V20 ≤ 30%V5 ≤50%
V20 ≤ 30%V5 ≤50%
V20 ≤ 35%V5 ≤60%
V20 ≤ 30%V5 ≤50%
V20 ≤ 35%V5 ≤60%
Controlateral lung
V5 ≤ 3%V2.5 ≤5%
V5 ≤ 5%V2.5 ≤10%
V5 ≤ 3%V2.5 ≤5%
V5 ≤ 5%V2.5 ≤10%
V20 ≤ 3%V5 ≤10%
V20 ≤ 5%V5 ≤15%
heart if left breast
V40 ≤ 1%V30 ≤5%
V15 ≤10%
V40 ≤ 3%V30 ≤10%V15 ≤15%
V40 ≤ 1%V30 ≤5%
V15 ≤10%
V40 ≤ 3%V30 ≤10%V15 ≤15%
V40 ≤ 3%V30 ≤10%V15 ≤15%
V40 ≤ 5%V30 ≤15%V15 ≤20%
heart if right breast
V5 ≤ 1%V2.5 ≤5%
V5 ≤ 5%V2.5 ≤10%
V5 ≤ 1%V2.5 ≤5%
V5 ≤ 5%V2.5 ≤10%
V40 ≤ 1%V30 ≤5%
V15 ≤10%
V40 ≤ 3%V30 ≤10%V15 ≤15%
thyroide/larynx/œsophagus (neck)
V40 ≤ 5%V15 ≤30%
V40 ≤ 10%V15 ≤50%
V40 ≤ 5%V15 ≤30%
V40 ≤ 10%V15 ≤50%
V40 ≤ 5%V15 ≤30%
V40 ≤ 10%V15 ≤50%
spinal cord PRV
≤ 15Gy ≤ 25Gy ≤ 15Gy ≤ 25Gy ≤ 15Gy ≤ 25Gy
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Block A Tomo plan is like a
puzzle: to control and to direct the radiation one needs structures everywhere.
As soon as we remove a piece, the radiation goes through it.
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Block For each structure,
we have to choose among 3 states:
Unblocked accept entering and exiting dose
Directional accept exiting dose
only Complete
no entering nor exiting dose is accepted
If directional
If complete
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Block (continued)
The structures that we usually use are:
Breast block (complete)
Nodes block (directionnal)
Arm block (directionnal)
lim internal, external, ant, post, arm
The block must be extended outside the body, where necessary.
Breast block
Nodes block
Arm block
Lim ext
Lim int
Lim ant
Lim post
Lim arm
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Block (continued)
Here are the structures that we use only if necessary:
im block (directionnal) chin block (directionnal) Missing body block
(directionnal)
im block
Breast block
missing body block
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5. Optimization
Prescription Give constraint to each structure used
for the optimization Choose the modulation factor
Between 1 to 3 (1 less precise but faster treatment,
3 more precise but slower
treatment)
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5. Optimization (continued)
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5. Optimize and have fun! (continued)
In order to obtain a good treatment plan, good coverage of the targets acceptable hot spot doses to the organs at risk are within
tolerance treatment time is not too long (13-15
min)
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6. Fractionation
final dose calculation: time, dose, distribution, gantry period (sec/tour)
signed by doctor produce plan report
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Examplesof
treatmentplans
.
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Regular cases Breast+axsc
no junction good coverage no high dose in
external treatment time 12-
15min lung
V5Gy<30% V20Gy<20%
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Regular cases (continued)
Chest wall+axsc Breast+axsc+im
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Regular cases (continued)
Breast+sc palliative
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Less common cases
Pacemaker blocked completely dose to
pacemaker=1.1Gy nodes well covered
pacemaker
pacemaker
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Less common cases (continued)
Bilateral breasts complete block Doses to OARs respect constraints for cases where
one breast is treated
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Treatment time: 12 min 42sec (2 breasts+ nodes)
heart, lung, spinal cord,targets…..all OKHot spot 106%
Double breast
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Less common cases (continued)
Marfan Syndrome pay attention to the
heart the dose received by
the heart has been limited,
V5Gy = 3%, V10Gy = 0.8% coverage OK other OARs OK
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Less commoncases (continued)
morphology pectus excavatum
breast block=complete int block=directionnal OARs OK with constraints
lung V5Gy=44% V20Gy=24% heart V15Gy=12% V30Gy=3.4% V40Gy=0.4%
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Disadvantages
When the optimization is started, and that you want to go back to work on previous tab, you have to cancel your optimization, make the modification, and restart.
Tomo doesn’t share plan from a machine to another one, must be manually copied and transfered.
Low dose
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Advantages
copy plan dose accumulation from different
plans has to be on the same scan
conformity avoidance structure excellent coverage
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Conclusion Understanding of the workings of
Tomotherapy
Dosimetry offers Excellent target coverage Relatively low hotspots Beware of low doses
TomoEdge is in our future
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Thank you for your attention!
QUESTIONS…