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Transcript 
Toxicities of Diagnostic and
Therapeutic
Radiopharmaceuticals
Robert J Yaes, Sc.D., MD
Division of Medical Imaging and
Hematology Drug Products, FDA
6/15/08 SNM
R J Yaes, FDA DMIHP
1
Don’t Confuse Radiation Absorbed
Dose with Activity
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Activity - decays per second (Ci, mCi MBq)
1 Bq =1 decay/sec 1Ci = 3.7x1010 Bq
Radiation Absorbed Dose - Energy deposited
per unit mass of tissue (rad, Gy)
Physician prescribes activity injected
Dose to each organ determined by
pharmacokinetics & biodistribution and can be
calculated by dosimetry techniques
Organ toxicity is determined by dose to organ
Slides are not to be reproduced
without permission of author.
Radiation Toxicities
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Low Dose (diagnostics, diagnostic x-rays)
Increased cancer risk
High Dose (therapeutics, radiotherapy) cancer
risk, early organ toxicity, late organ toxicity
High dose may be >1000 x low dose
Clinical data from high dose radiation comes
mostly from External Beam Radiotherapy (XRT)
Early toxicity occurs within days or weeks
Late toxicity months to years post treatment
Late toxicity is virtually unique to radiation
Slides are not to be reproduced
without permission of author.
Diagnostic Radiopharmaceuticals
low activity low dose
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Gamma emitters (gamma camera imaging) or
Positron emitters (PET scanning)
Provide images for diagnostic interpretation
Concentrate in organs being imaged
Usually sub-pharmacological mass doses (µg)
Increased cancer risk is only expected concern
Monitoring still needed to detect unexpected
toxicity in clinical trials of new agents
Slides are not to be reproduced
without permission of author.
Radiation Toxicity of Diagnostics
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Increase in cancer risk years after exposure
Detectable only in large exposed populations
Lifetime excess risk of cancer death~4x10-4/rad
Stochastic (random) effect: like a lottery
Your chances of winning are small…but
The more tickets you buy the better the chances
If Jackpot is cancer you don’t want to win
Dose As Low As Reasonably Achievable (ALARA)
Slides are not to be reproduced
without permission of author.
Quantifying Risk
„ To
quantify risk you need a model
„ Linear model usually assumed
„ Risk is proportional to dose R = C x D
„ Supported by Hiroshima data
„ Little or no data for doses <~ 4 rad
„ Model extrapolates linear relationship to
very low doses
„ Is there a threshold for carcinogenesis ?
Slides are not to be reproduced
without permission of author.
Therapeutic Radiopharmaceuticals
High Activity High Dose
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Used for cancer treatment
Concentrate in tumor being treated
Beta emitters deposit energy locally in tumor
Most also emit a gamma (dosimetry, imaging)
Need high injected activity to produce high
doses necessary for tumor control
Similar doses to XRT
Expect similar toxicities as XRT
Slides are not to be reproduced
without permission of author.
Therapeutic radiopharmaceuticals
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Clinical experience with high dose radiation
comes from external beam radiotherapy (XRT)
Relation between dose and toxicity in an organ
is non-linear with threshold (tolerance dose)
Below threshold toxicity is rare
Radiopharmaceutical tolerance doses may not
be the same as for XRT
Radiopharmaceutical organ doses calculated
from serial gamma camera scan data (OLINDA)
Slides are not to be reproduced
without permission of author.
Known Toxicities of High Dose
Radiation
> 100 years clinical experience with XRT
„ Early Toxicity: occurs soon after treatment
Usually reversible when treatment stops
„ Late Toxicity: delayed by months or years
Usually irreversible and progressive
„ Late toxicity-radiation link may be missed
„ Early: bone marrow failure, skin reaction, GI
„ Late: kidney or liver failure or spinal cord injury
„ Late tox: each organ has a tolerance dose
„ Kidney 23 Gy, liver 30 Gy, spinal cord 45 Gy
Slides are not to be reproduced
without permission of author.
Small Molecules
„ Free
isotopes (I-131)
„ Isotope chelates Y-90-DOTATOC
„ Eliminated rapidly by glomerular filtration
„ Short serum half life low WB dose
„ High activity in the urine may deliver high
doses to kidney and bladder
„ Kidney and bladder toxicity has been
reported in the literature with chelates
Slides are not to be reproduced
without permission of author.
90Y-DOTATOC
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Treatment of neuroendocrine tumors
Moll et al Am J Kid Dis 37; 847-851 (2001)
Report on 29 patients
7 patients received >200 mCi/m2,
5/7 developed late renal failure
22 patients received < 200 mCi/m2
None developed late renal failure
“Clean” cutoff between toxic and non-toxic
doses when dosing in mCi/m2
Slides are not to be reproduced
without permission of author.
166Ho-DOTMP
„ Giralt
et al: Blood 102; 2684-91 (2003)
„ 83 multiple myeloma patients
„ Prescribed 20, 30 or 40 Gy to marrow +
high dose chemo + BMT
„ 7 patients in 40 Gy group developed late
thrombotic microangiopathy of renal origin
„ 5/7 died
„ 27/83 developed hemorrhagic cystitis
Slides are not to be reproduced
without permission of author.
Large molecules
„ Radiolabeled
monoclonal antibodies
„ Zevalin, Bexxar approved for treating NHL
„ Can’t pass through glomerular filter
„ Stay in circulation for long time
„ Deliver high whole body dose
„ Bone marrow toxicity usually dose limiting
Slides are not to be reproduced
without permission of author.
Special Cases:
Pure Beta Emitters
„ 90Y
emits a β but no γ
„ Can not do dosimetry with γ camera scans
„ 86Y PET impractical in clinical setting
„ 111In analogues may not accurately predict
90Y biodistribution or dosimetry
„ If biodistribution varies from patient to
patient, inability to perform individual
patient dosimetry creates additional risk
Slides are not to be reproduced
without permission of author.
Special Cases: Alpha Emitters
„ Greater
risk do to high RBE
„ Rad for rad, 6 to 20 times the biological
effect of gammas or electrons
„ If no photon emitted same dosimetry
problem as with 90Y
„ If part of long decay chain must keep
track of all radioactive daughters
Slides are not to be reproduced
without permission of author.
Three Important Issues in the
Design of Clinical Studies with
Radiopharmaceuticals
1) Safety
2) Safety
3) Safety
Primum Non Nocere……..Hippocrates
Thank You
Slides are not to be reproduced
without permission of author.
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