The Case For Fractional Solubility Profiles ROBERT L. METZGER RADIATION SAFETY ENGINEERING, INC. CHANDLER, AZ KEITH F. ECKERMAN OAK RIDGE NATIONAL LABORATORY.

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Presentation transcript:

The Case For Fractional Solubility Profiles ROBERT L. METZGER RADIATION SAFETY ENGINEERING, INC. CHANDLER, AZ KEITH F. ECKERMAN OAK RIDGE NATIONAL LABORATORY OAK RIDGE, TN

Lung Clearance Inhaled dusts deposited in the extrathoracic region of the respiratory track are normally cleared by nose- blowing while other regions of the lung clear particles by a complex process of particle transport and absorption. Absorption dominates the early lung clearance while the movement of particles towards the GI tract and lymph nodes dominates later phases. Absorption and particle transport are competing processes, of which, only the absorption characteristics can be measured in vitro.

Solubility Classes ICRP 68 defines three solubility types based on absorption clearance times: All ICRP 68 based dosimetry codes (DCAL, IMBA) use these clearance types and correctly treat absorption and mechanical clearance mechanisms as competing processes. Type F (fast)10 min (100%) Type M (moderate)10 min (10%); 140 d (90%) Type S (slow)10 min (0.1%) 7000 d (99.9%)

Assigned Values The ICRP recommends that material-specific rates of absorption be used where reliable data exists, but assigns conservative estimates of one type to most compounds. A review of the literature indicates that actual solubility profiles can be quite complex, with only radiopharamceuticals and tritium falling reliably into one absorption; Type F. Other compounds are typically a mix of the different absorption types.

Routes of Intake & Excretion

ICRP Respiratory Tract Model

Absorption of Inhaled Activity

DCAL Software Main Menu

Solubility Profiles

Solubility Tests Solubility tests are typically performed by placing a breathing zone air sample with the radionuclide compound of interest on it, in a beaker of serum lung ultrafiltrate, and them moving the filter to a new beaker each day for a week, and then weekly for a month. The activity in each beaker is determined, and the residual remaining on the filter is analyzed at the end of the test. The data is then plotted and fitted with a triple exponential.

Solubility Fitted Data

Solubility Plots

Bioassay The solubility profile for a radionuclide compound is an important parameter for dose estimates generated from bioassay data. The lung model appears twice in the dose estimate, once to determine the activity inhaled (intake), and a second time to estimate the dose to the patient. Errors in the lung model therefore compound. The problem is particularly acute in dose estimates made only on early bioassay data as this is dominated by the fraction of Type F in the dust.

Conservative Estimates The default values for solubility are single absorption type and are generally “conservative”. The default values, though, may over or under estimate dose and risk when used with bioassay data. Uranium, for example, is nephrotoxic in its soluble forms (e.g. UO 2 ), but radiotoxic in its more insoluble forms (high fired U 3 O 8 ). Errors in the solubility profile will necessarily overestimate one risk and underestimate the other.

Accident Dose Assessment Dose estimates must be made quickly after an incident where personnel have potentially inhaled significant quantities of radionuclides. The window of time where treatment can be effective is frequently short. This necessitates that dose estimates and treatment decisions be made on a solitary bioassay measurement at ~4 to 24 hours after the incident. Physicians do not want “conservative” (read biased) dose estimates as they must decide whether to employ a treatment that itself entails some risk.

Dose Assessment To assess the errors associated with the default solitary solubility classes, a series of analyses were run using the default solubility class and the actual solubility data, where the dose estimate was based on a single urine bioassay measurement. The intake and dose were estimated using DCAL Version 9.5 assuming an acute airborne exposure with an AMAD of 5 microns 24 hours prior to the bioassay. Both the intake from the bioassay measurement and the projected dose were calculated.

Test Compounds

Results ProductIntake (Bq) Default Profile Intake (Bq) Actual Profile Intake Ratio Default:Actual Uranium Metal - Recycling Smelting8.70E E DU Munitions8.70E E DU Munitions after Heat Treatment8.70E E UO 2 from In Situ Mine8.70E E PuO 2 (1750 ̊ C) 6.76E E AmO 2 (1750 ̊ C) 1.63E E U 3 O 8 (High Fired - Exxon)8.70E E

Results ProductDose (Sv) Default Profile Dose (Sv) Actual Profile Dose Ratio Default:Actual Uranium Metal - Recycling Smelting DU Munitions DU Munitions after Heat Treatment UO 2 from In Situ Mine PuO 2 (1750 ̊ C) AmO 2 (1750 ̊ C) U 3 O 8 (High Fired - Exxon)

PuO 2 in the Lung

PuO 2 in Urine

Summary The dosimetry test indicates the use of default solubility profiles with only one absorption type introduces order-of-magnitude errors into the dosimetry estimates for many common radionuclide compounds when the dosimetry estimate is made based urine bioassay data taken shortly after the incident. Since the urinary excretion in the early times after an incident is almost entirely on the fraction of the compound that falls into the Type F, every effort should be made to estimate this value.

Dosimetry Codes Internal dosimetry codes should be modified to allow fractional absorption types to be entered, and the fractional values should be used in all cases where any data is available. With the exception of radiopharmaceuticals and tritium, an estimate of the Type F fraction should always be made. DCAL software has been modified to accept the fractional solubility profiles.