radionuclide productiondepts.washington.edu/uwmip/week_5/radioisotopeproduction.pdf · workhorse of...
TRANSCRIPT
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Radionuclide Production
Paul KinahanImaging Research Laboratory
Department of Radiology
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Emission versus Transmission Imaging
External versus internal radiation sources
source
f(x,y,z) f(x,y,z)
Transmission Emission
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microwave
Physics of Transmission Imaging
radiofrequencyTVFMAM
IR UV
Optical
X-raygamma
-raycosmic
-ray
The Electromagnetic Spectrum
Transmission through 10cm of tissue (water)
0.0
1.0
longer wavelength higher energy
low resolutionregion
(long wavelength)
high resolutionregion
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Injection of a Radiotracer
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Short lived isotopes
• We would like to use short-lived isotopes to minimize partientradiation dose
• Unlike an X-ray device. we can't turn it off• Recall that radition decays with an exponentially, characterized
by a 'half-life' T1/2
• Naturaly-occuring isotopes are long-lived, naturally• So if we want a short-lived isotope we must produce it
A(t) = A(0)e!t(ln(2) /T1/2 )
imaging time
short T1/2
long T1/2 Radiation dose to patient(area under curve)
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“Band of Stability”
Z
N
stable
Line of N=ZLine of N=ZMaking unstable isotopse
We have to change the ratio of neutrons (N) to protons (Z) to getoutside the band of stability
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Nulcear bombardment
Hit nucleus of stable atoms with sub-nuclear particles: neutrons,protons, alpha particles etc.
There are two main methods of performing this bombardment1. Inserting target in a nuclear reactor - fine for longer-lived isotopes
as some time is needed for processing and shipment2. Using a charged-particle accelerator called a 'cyclotron' - needed
locally for short-lived isotopes (T1/2 ~ 1 to 100 min). We have twohere at UWMC
3. We can also use longer-lived isotopes from a nuclear reactor thatdecay to a short-lived radioisotope in a portable 'generator'
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Common Radionuclides
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Raphex Question
An ideal radiopharmaceutical would have all the following except:a. Long half-lifeb. No particulate emissionsc. Target specificityd. 150 to 250 keV photonse. Rapid biological distribution
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Raphex Question and Answer
An ideal radiopharmaceutical would have all the following except:a. Long half-lifeb. No particulate emissionsc. Target specificityd. 150 to 250 keV photonse. Rapid biological distribution
a: The ideal radionuclide has a short half-life to reduce theradiation dose to the patient
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Reactor Produced Isotopes
Most important reactionwhich decays spontaneously via nuclear fission and a (hopefully)
controlled chain reaction producing lots of protons, neutrons, alphaparticles etc.
We can have different types of reactions to produce desired isotopes fromstable target materials1. (n,γ):
2. (n,p):
NotesIf the number of protons (Z) changes, then so does the elementBecause neutrons are added, activated materials tend to lie above the line
of stability, and thus to decay by electron emissionEven in high neutron fluxes, only small amounts are activated, say 1:106-
109
For (n,γ) production, which is most common, the element does notchange, so it is difficult to get carrier-free product
235U + n!
236U
*
Z
AX + n!
Z
A+1X*!
Z
A+1X + "
Z
AX + n! Z"1
AY + p
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Reactor Produced Isotopes
Some isotopes used in Nuclear Medicine
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Cyclotron Production
Basically a linear accelerator rolled up into a spiral. Typicallyaccelerate an H- ion using alternating electric fields. The magnet isused to bend the path of the charged particle. The proton thenhits the target
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Cyclotron Production
NotesSince we are using proton bombardment we change the elementand typically lie below the line of stability. Thus decay is typicallyby positron emission.Cyclotrons can be located locally, thus allowing for short livedisotopes, reducing patient dose.Cylcotrons, however, are very expensive to buy and operate.Often there are distrubution networks.
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Cyclotron Produced Isotopes
By far the most common is 18F in 18F-FDG for PET oncology
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Generators
Alternative to reactors or cylotron is to use a 'mother' isotope thathas a long half-life that decays to a short half-life 'daughter' thatcan be used for imaging.The mother isotope is produced in a nuclear reactor and thenshipped in a 'generator'.As needed, the daughter isotope is 'eluted' and combined into aradiopharmaceuticalWorkhorse of general nuclear medicine
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Generators
Alternative to reactors or cylotron is to use a 'mother' isotope thathas a long half-life that decays to a short half-life 'daughter' thatcan be used for imaging.The mother isotope is produced in a nuclear reactor and thenshipped in a 'generator'.As needed, the daughter isotope is 'eluted' and combined into aradiopharmaceuticalWorkhorse of general nuclear medicine
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Generator Radionuclides
• 99mTc (daughter isotopes) generators are by far the most common• The mother isotope in 99Mo, which is reactor produced.• The generators typically replaced monthly
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Generator Activity Levels
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Raphex Question
99mTc generators cannot be:a. Produced in a cyclotronb. Used to dispense more than 1 Cic. Shipped by aird. Purchased by licensed userse. Used for more than 67 hours
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Raphex Question and Answer
99mTc generators cannot be:a. Produced in a cyclotronb. Used to dispense more than 1 Cic. Shipped by aird. Purchased by licensed userse. Used for more than 67 hours
a. 99Mo can be produced in a reactor or from fission products, but itcannot be produced in a cyclotron (99Mo is a beta emitter, requiring theaddition of neutrons, not protons).