INTAKE RETENTION FRACTIONS · 2012. 12. 5. · IRF = Intake Retention Fraction The IRF represents...
Transcript of INTAKE RETENTION FRACTIONS · 2012. 12. 5. · IRF = Intake Retention Fraction The IRF represents...
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Chapter 14
HRTDHuman ResourcesTraining & Development
INTAKE RETENTION
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FRACTIONS
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Compute intakes given information about the results of bioassay measurements
Estimate the intake retention fraction (IRF) given
Objectives
- Slide 2 -H-201 - Health Physics Technology
( ) ginformation about the circumstances surrounding an intake of radioactive material
Determine derived investigation levels (DIL) and sampling frequency given IRFs and limits
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Bioassay (Whole Body Counting or Biological Sampling)
Determining Internal Dose
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Dose
Intake
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IRF = Intake Retention Fraction
The IRF represents the fraction of radioactive material that remains in a given organ at a specific time after the intake (i.e., what’s left over).
Intake Retention Fraction
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( , )
This term is also applied to excretion fractions (i.e., what Fraction of the Intake is Excreted in the Urine or Feces during a specified time interval) which are not technically “retention” fractions.
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Intake =Bioassay
IRF
Intake Retention Fraction
- Slide 5 -H-201 - Health Physics Technology
Intake x IRF = Bioassay
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NUREG 4884 Whole Body
Model
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(see NUREG/4884-100)
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432 min What’s the total body IRF for 125I at 1 day?y
(see NUREG/4884-105)
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The IRF value for any isotope can be obtained by applying the decay equation to the corresponding value for the stable element.
The stable elementThe stable element behaves the same way metabolically as other isotopes since the body doesn’t “know” the difference between 127I and 125I.
(125I value) = (127I value) × e-λt (see NUREG/4884-101)
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What is the Total Body IRF for I-125 for 10 days post intake? Assume that the I-125 was inhaled and was Class D.
Problem
- Slide 10 -H-201 - Health Physics Technology
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I-131
(see NUREG/4884-108)
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I-127
(see NUREG/4884-103)
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P-32
0.0332 + 0.0309 = 0.0641 ?
(see NUREG/4884-181)
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Am-241
(see NUREG/4884-2)
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Am-241
(see NUREG/4884-4)
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Am-241
0.000376 + 0.0000344 = 0.0004104
(see NUREG/4884-5)
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Cs-137
(see NUREG/4884-70)
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Co-60
(see NUREG/4884-42)
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Co-60
(see NUREG/4884-44)
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Co-60
(see NUREG/4884-45)
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Co-60
(see NUREG/4884-46)
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LUNGMODEL(ICRP-26)
BODILY
F
GI
TRA
a b
DN-P
dc
DT-B
LUIDS
ACT
eh
fg
DP
j
i
Lymph Nodes(see MISC-56)
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Region CompartmentClass D Class W Class Y
T F T F T F
N-P(D=0.3)
ab
0.010.01
0.50.5
0.010.4
0.10.9
0.010.4
0.010.99
T-B c 0.01 0.95 0.01 0.5 0.01 0.01
Lung Model Clearance Rates
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(D=0.08) d 0.2 0.05 0.2 0.5 0.2 0.99
P(D=0.25)
efgh
0.5n/an/a0.5
0.8n/an/a0.2
501
5050
0.150.40.40.05
5001
500500
0.050.40.40.15
L ij
0.5n/a
1.0n/a
50n/a
1.0n/a
1,000∞
0.90.1
T = time in days (e.g., 0.01 = 15 minutes)F = fraction of the regional material in that compartment
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Time Post
Intake (days)
Fraction of Intake in 24 hour Urine
Sample (IRF)
Derived Investigation Level Corresponding to
5% of ALI for 58Co, Class W(nCi)
12
2.56E-021.08E-02
1.38E03 nCi5.84E02 nCi
Derived Investigation Level (DIL)
ALI for Class W 58Co = 1.08 x 106 nCi 5% of ALI = 5.4 x 104 nCiSample = Intake x IRF DIL = (% of ALI) x IRF
(2nd column IRFs on page 36)
57
1020
100
2.16E-031.56E-031.15E-035.47E-047.23E-05
1.17E02 nCi8.47E01 nCi6.24E01 nCi2.96E01 nCi3.91E00 nCi
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Estimating IntakesEstimating Intakesfrom Multiple Samplesfrom Multiple Samples
Time Post Intake (days)
Sample Activity (A)
(μCi) IRF IRF2
Estimated Intake (mCi)
IRF x A (μCi)
1
3
5.8
5.53
0.0392
0.034
0.00154
0.00116
0.15
0.16
0.2274
0.18802
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Intake (I) = Intake (I) = ΣΣ IRFIRFii AAii
ΣΣ IRFIRFii22
9
10
30
3.73
4.24
1.21
0.0224
0.0209
0.0051
0.00050
0.00044
0.000026
0.17
0.2
0.24
0.08355
0.08862
0.00617
Sum 0.00367 0.594
Estimated Intake: 162 μCi = 0.16 mCi
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73.5080
100
120
140
nC
iCO-60 Retention Curve
nCi BBA Predicted Inhalation nCi Predicted Ingestion nCi
Actual data from an Actual data from an intake at McGuire intake at McGuire Nuclear StationNuclear Station
31.1027.30
21.40
13.009.68
0
20
40
60
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 2 3 4 5 6 7 8 9 10 20 30 40 50 60 70 80 90 100 200 300 365 400
n
days
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An individual inhales class W 32P. If a 24 hour urine sample collected at day 10 is found to have 1 µCi in it, then what is the estimated intake?
Problem
- Slide 27 -H-201 - Health Physics Technology
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Given the information in the previous problem, if all of the urine had been collected for the first 10 days, how much activity would you expect to find in the entire sample?
Problem
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For lung counting, the intake fraction for 241Am is about 0.3 for both class W and class Y at 0.1 days. How many days would you have to wait before the intake fraction decreased by a factor of 10 for the two classes of material?
Problem
- Slide 29 -H-201 - Health Physics Technology
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The intake retention fraction for samples taken from the nasal passages is always zero (less than 1 x 10-8) beginning at 10 days post intake. Why?
Problem
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A routine body count detects 0.30 microcuries of 60Co in the body of a worker. Investigation determines that the intake occurred 10 days earlier. Estimate the total initial intake of this radionuclide.
Problem
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A worker is whole body counted three days after an intake by inhalation of 60Co. Bioassay results indicate she has 20 microcuries of 60Co in the total body compartment. Calculate her intake of 60Co and her whole body internal dose (CEDE) from this intake.
Problem
- Slide 32 -H-201 - Health Physics Technology
whole body internal dose (CEDE) from this intake.
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A lung count measures 0.5 µCi of 54Mn in the lungs of a worker 2 days after an intake. Estimate the initial intake of 54Mn to the lungs.
Problem
- Slide 33 -H-201 - Health Physics Technology
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END OFINTAKE RETENTION
- Slide 34 -H-201 - Health Physics Technology
INTAKE RETENTIONFRACTIONS
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END OF
- Slide 35 -H-201 - Health Physics Technology
END OFCHAPTER 14