ct: shielding and radiation protection · aapm 2012 summer school on medical imaging using ionizing...
TRANSCRIPT
![Page 1: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/1.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT: Shielding andRadiation Protection
June 28, 2012
James Kofler, Ph.DRadiologyMayo Clinic, Rochester, MN
Jeff Brunette, CHPRadiation SafetyMayo Clinic, Rochester, MN
![Page 2: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/2.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Nothing to disclose
Disclosures
![Page 3: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/3.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Learning Objectives
• Understand approaches to specifying theshielding requirements for a CT scan room
• Review three acceptable methods for specs
• Review radiation protection methods for CTpersonnel
• Review patient shielding practices
![Page 4: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/4.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing RadiationAAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
![Page 5: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/5.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Shielding: NCRP Report 147
THE Reference Depending on thecircumstances…
…both of these could be your best friend!
Woof!
![Page 6: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/6.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
“Shielding: Purpose
To limit radiation exposure to employeesand members of the general public to an
acceptable level. ”• Design Goals (P) (in air kerma)
Controlled Area: 0.1 mGy/week (5 mGy/yr)
Uncontrolled Area: 0.02 mGy/week (1 mGy/yr)
![Page 7: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/7.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Shielding: Definitions
Controlled AreaLimited access area under supervision by an
individual in charge of radiation protection.
Occupancy and working conditions arecontrolled for radiation protection purposes.
Uncontrolled AreaNot a controlled area.
![Page 8: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/8.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Shielding: Definitions
Occupancy Factor
Average fraction of time that the maximallyexposed individual is present while thex-ray beam is on.
Not any person, but the single person whospends the most time there.
![Page 9: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/9.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Suggested Occupancy Factors (T)Location
Offices, labs, pharmacies, receptionist areas, attendedwaiting rooms, kid’s play areas, x-ray rooms, nursestations, reading rooms, control rooms
T
Exam and treatment rooms
Corridors, patient rooms, employee lounges & rest rooms
Corridor doors
Public toilets, vending areas, storage rooms, outdoor areasw/ seating, unattended waiting rooms, patient holding
Outdoors, unattended parking lots, attics, stairways,unattended elevators, janitor closets
1
1/2
1/5
1/8
1/20
1/40
![Page 10: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/10.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Shielding: Definitions
Barrier Transmission
X-raySource
KermaDetector
K(0)
x
K(x)
B(x) = K(x)
K(0)
![Page 11: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/11.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Barrier Transmission Usage
K(x)B(x) =
PT x Ksec
B(x) = K(0)
K(0)
x
K(x)
Design Goal (P)
CT: Only secondary Occupancy Factor
Use B(x) to lookup barrier thickness
![Page 12: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/12.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
1
Shielding: General Scheme
Obtain tube output (at given distance)for given procedures
3 Decide usage of adjacent & nearby spaces(for occupancy factor & design goal)
Estimate number of procedures per week2
Calculate barrier transmission factor4
Look-up required shielding thickness5
![Page 13: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/13.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT: Step 1. Obtain tube output
• Three Different Methods
- CTDI-100
- Dose Length Product (DLP)
- Isodose Map
![Page 14: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/14.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
Body Phantom (32 cm)Head Phantom (16 cm)
10 cmPencil
Chamber
![Page 15: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/15.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
Ksec = 1 Lp CTDI100
Secondary air kerma per patient at 1 m
Secondary
At 1 m
![Page 16: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/16.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
Ksec = 1 Lp CTDI100
Secondary air kerma per patient at 1 mScatter fraction per cm
(peripheral phantom axis)
Head = 9 x 10-5 cm-1Kappa (K): Body = 3 x 10-4 cm-1
Considers leakage too!
![Page 17: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/17.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
Ksec = 1 Lp CTDI100
Secondary air kerma per patient at 1 mLength of scan (cm)
Pitch
![Page 18: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/18.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
Ksec = 1 Lp CTDI100
Secondary air kerma per patient at 1 m
At “typical”technique
![Page 19: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/19.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
Ksec = 1 Lp nCTDI100
Secondary air kerma per patient at 1 m
*From measured or published values
mAsNormalized
per unit mAs*
![Page 20: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/20.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
Ksec = Lp nCTDI100
Secondary air kerma per patient at “D” m
mAsD m
1 m2
Inverse square law
![Page 21: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/21.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
Ksec = Lp nCTDI100
Secondary air kerma per week at “D” m
mAsD m
1 m2
Number of patients/week
N
Units of mGy/week
![Page 22: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/22.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
![Page 23: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/23.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
CTControlRoom
ScanRoom
Isocenter
Reading RoomM
echa
nica
l
DressingRoom
Corridor
Cor
ridor
Corridor
Elec
.
Elec.
![Page 24: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/24.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
CTControlRoom
ScanRoom
Isocenter
Reading RoomM
echa
nica
l
DressingRoom
Corridor
Cor
ridor
Corridor
Elec
.
Elec.
![Page 25: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/25.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
CTControlRoom
ScanRoom
Isocenter
Reading RoomM
echa
nica
l
DressingRoom
Corridor
Cor
ridor
Corridor
Elec
.
Elec.
T = 1
T = 1
T = 1/5T = 1/5
T = 1/40
![Page 26: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/26.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
• Workload (Body scanner)175 Patients/work week (35 Patients/day)
1.25 Scans/patient (pre- & post-contrast)60 Average scan length (cm)
0.5 Gantry rotation time (s)120 kVp300 Average effective mAs
(Implies 300 mAs at pitch of 1.0)7.8 Average total scan time (s)
0.08 nCTDI100 (mGy/mAs)
![Page 27: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/27.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
CTControlRoom
ScanRoom
Isocenter
Reading RoomM
echa
nica
l
DressingRoom
Corridor
Cor
ridor
Corridor
Elec
.
Elec.
T = 1
T = 1
T = 1/5What shielding is
required here?
(0.3 m inside Reading Room wall)
3.5 m from isocenter 3.5 m
![Page 28: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/28.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
Ksec = Lp nCTDI100
Secondary air kerma per week at 3.5 m
mAsD m
1 m2
218.75Ksec = 3x10-4 cm-160 cm
10.08 mGy/mAs300 mAs
3.5 m
1 m2
Scans/week
N
Ksec = 7.71 mGy/wk
![Page 29: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/29.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method
• Design Goal (P) (in air kerma)- Uncontrolled Area: 0.02 mGy/week (1 mGy/yr)
B(x) = P
T Ksec
0.02 mGy/wk
(1) 7.71 mGy/wk=
= 2.6 x 10-3
Note: Occupancy factor was “1”
• So Transmission factor is:
![Page 30: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/30.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
NCRP Report No. 147
B(x) = 2.6 x 10-3
1.70 mm lead
Look to Fig. 2.3to see whatto specify
![Page 31: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/31.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
Figure 2.3 NCRP Report No. 147
1.70 mm
![Page 32: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/32.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
B(x) = 2.6 x 10-3
1.70 mm lead
Could use:5 lb lead
(1.98 mm,5/64 inch)
But wait!!
NCRP Report No. 147
![Page 33: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/33.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method: Isotropic Assumption
![Page 34: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/34.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CTDI-100 Method: Measured Scatter
Adapted from Wallace, et. al, J. Radiol. Prot. 32 (2012) 39-50
![Page 35: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/35.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
CTControlRoom
Reading Room
Mec
hani
cal
DressingRoom
Corridor
Cor
ridor
Corridor
Elec
.
Elec.
CTDI-100 Methodcan significantly
overestimatethe required
shielding alongsides of the
scanner!
![Page 36: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/36.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Dose-Length Product (DLP) Method
DLP = CTDIvol x Scan Length
CTDIvol =1/3 CTDI100, center + 2/3 CTDI100, periphery
Pitch
PeripheryCenter
Phantom
DLP (and CTDIvol) are displayed on scanner console
![Page 37: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/37.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Dose-Length Product (DLP) Method
Ksec (head) = Khead DLP1
Ksec (body) = 1.2 Kbody DLP1
Secondary air kerma per procedure at 1 m
As before, multiply by the number of proceduresand inverse-square for the wall distance.
![Page 38: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/38.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
CTControlRoom
ScanRoom
Isocenter
Reading RoomM
echa
nica
l
DressingRoom
Corridor
Cor
ridor
Corridor
Elec
.
Elec.
T = 1
T = 1
T = 1/5What shielding is
required here?
(0.3 m from wallin corridor)
5.0 m from isocenter 5.0 m
T = 1/5
![Page 39: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/39.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
DLP Method: EXAMPLE
• Workload (Body scanner)175 Patients/work week
1.25 Scans/patient (pre- & post-contrast)= 218.75 procedures per week
All are chest, abdomen, pelvis or combo
Need DLP values!
![Page 40: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/40.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
DLP Method: EXAMPLE
• Typical DLPs from Table 5.2 (NCRP 147)
Head 1,200Chest 525Abdomen 625Pelvis 500Body Average 550(chest, abdomen, or pelvis)
Procedure DLP (mGy cm)
![Page 41: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/41.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
DLP Method: EXAMPLE
CAUTION
Be careful about using published“typical” values
Estimates should be based onsite-specific data, when possible
![Page 42: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/42.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
DLP Method: EXAMPLE
Ksec (body) = 1.2 x 3x10-4 cm-1 x 550 mGy-cm1
Secondary air kerma per procedure at 1 m
= 0.198 mGy/procedure
Secondary air kerma per week at 5.0 m
= 1.73 mGy/week
218.75 procs x 0.198 mGy/procKsec =5.0 m
1 m2
![Page 43: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/43.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
DLP Method: EXAMPLE
• Design Goal (P) (in air kerma)- Uncontrolled Area: 0.02 mGy/week (1 mGy/yr)
B(x) = P
T Ksec
0.02 mGy/wk
(1/5) 1.73 mGy/wk=
= 5.7 x 10-2
• So Transmission factor is:
![Page 44: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/44.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
NCRP Report No. 147
B(x) = 5.7 x 10-2
0.6 mm lead
Could use:2 lb lead
(0.79 mm,1/32 inch)
But wait!!
![Page 45: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/45.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Consistency in lead thickness
• Must document lead in walls (so always know), but…
• Having consistency with all walls- Easier for carpenters- Easier if scanner changes- Easier if room use changes- Doors and windows often re-used in remodeling
projects (these must be same as in walls)
• Exception may be if one wall needs more lead
![Page 46: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/46.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
CTControlRoom
ScanRoom
Isocenter
Reading RoomM
echa
nica
l
DressingRoom
Corridor
Cor
ridor
Corridor
Elec
.
Elec.
T = 1
T = 1
T = 1/5 If this were an occupied space
(office, etc.)it may dominate
the shieldingrequirements!
![Page 47: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/47.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Isodose Method
GE Siemens
![Page 48: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/48.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Scatter Distribution from Manufacturer
1.3 2.6 6.2 10.4 10.4 6.2 2.6 1.3
Technique:Gy/scan140 kV,100 mAs,40 mm coll.
Need to scaleto weeklysite usage
![Page 49: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/49.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Scatter Distribution from Manufacturer
0.8 1.7 4.1 6.8 6.8 4.1 1.7 0.8
Technique:mGy/week120 kV,300 mAs/proc,218.75 procs,40 mm coll.
Need to scaleand overlayon blueprint
![Page 50: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/50.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Scatter Distribution from Manufacturer
Interpolate,extrapolate (r-squared)to get unshielded kermaat wallsCT
ControlRoom
ScanRoom
Isocenter
Reading Room
Mec
hani
cal
DressingRoom
Corridor
Cor
ridor
Corridor
Elec
.
Elec.
T = 1
T = 1
T = 1/5
0.81.7
1.7
0.8
What shielding isneeded here?
Call it 4.1 mGy/wk
4.1
4.1
![Page 51: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/51.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Isodose Method: EXAMPLE
• Design Goal (P) (in air kerma)- Uncontrolled Area: 0.02 mGy/week (1 mGy/yr)
B(x) = P
T Ksec
0.02 mGy/wk
(1/40) 4.1 mGy/wk=
= 1.9 x 10-1
• So Transmission factor is:
![Page 52: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/52.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: EXAMPLE
NCRP Report No. 147
B(x) = 1.9 x 10-1
0.3 mm lead
Could use:2 lb lead
(0.79 mm,1/32 inch)
But recallconsistency!
![Page 53: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/53.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: Three Methods
• CTDI100- Neglects scanner shielding
- Over-estimates shielding on sides- Most variables easy to find
• Dose Length Product- Neglects scanner shielding
- Over-estimates shielding on sides- Easy to use
• Isodose- Can be very cumbersome (errors)- Accounts for scanner shielding
![Page 54: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/54.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
CT Shielding: Other Considerations
• Floors and ceilings- For CTDI100 and DLP methods:
Calculate requirements same way
- For isodose method:“Spin” plot to vertical orientation
- Different types of concrete slabs and decking
• Penetrations (plumbing, electrical, etc.)- Wrap, overlap, get creative if necessary
- No “line of sight” to isocenter
![Page 55: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/55.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Floors and Ceilings
0.3 m(1 ft)
0.5 m
1.7 mFloor below
Scan room
Floor above
2.1 m(~7 ft)
Not drawn to scale
![Page 56: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/56.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Floors and Ceilings
Floor below
Scan room
Floor above
Shielding
Roomceiling
Interstitial space
Not drawn to scale
![Page 57: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/57.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing RadiationAAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
![Page 58: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/58.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Shielding Personnel
• Distance
• Time- Minimize time in room while x-ray ON
• Shielding
- Maximize distance from scanner while ON
- Personal protective shielding should be available-Aprons, eyewear, gloves, etc. as appropriate
- Moveable shields if practical
![Page 59: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/59.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Shielding PersonnelAt Mayo - Relative exposure lines
“Step back one line to halve exposure”
![Page 60: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/60.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing RadiationAAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
![Page 61: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/61.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Bismuth and Other Patient Shields
AAPM Position Statement on the Use of Bismuth Shielding for the Purpose of Dose Reduction in CT
Scanning
“
”
… Other techniques exist that can provide the same level of anterior dose reduction at equivalent or superior image quality that do not have these disadvantages. The AAPM recommends that these alternatives to bismuth shielding be carefully considered, and implemented when possible.
http://www.aapm.org/publicgeneral/BismuthShielding.pdf
![Page 62: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/62.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
Bismuth and Other Patient Shields
• Can reduce anterior dose, but…
• Can fool auto exposure controls
• Can cause streaks and incorrect CT numbers
• Waste photons from other side of patient
• Can get same benefit and image quality by reducing mA
![Page 63: CT: Shielding and Radiation Protection · AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation CT: Shielding and Radiation Protection June 28, 2012 James Kofler, Ph.D](https://reader030.vdocuments.us/reader030/viewer/2022041204/5d52bb3b88c9936f658b47da/html5/thumbnails/63.jpg)
AAPM 2012 Summer School on Medical Imaging using Ionizing Radiation
From Oak Ridge National Laboratory (1947)
Lots more cool stuff at the Health Physics Museum (Google it!)(toys, movie posters, brands, comics, quack cures, antique instruments, more…)