{{#Wiki_filter:ADAMS Template: SECY-067 DOCUMENT DATE:       05/05/1989 TITLE:       PRM-035-008 - 54FR19378 -AMERSHAM CORPORATION:

RECEIPT OF PETITION FOR RULMAKING CASE  

PRM-035-008 54FR19378 KEYWORD:         RULEMAKING COMMENTS Document Sensitivity: Non-sensitive - SUNSI Review Complete

STATUS OF RULEMAKING PROPOSED RULE: PRM-035-008 RULE NAME:      AMERSHAM CORPORATION: RECEIPT OF PETITION FOR RULEMAKING PROPOSED RULE FED REG CITE:      54FR19378 PROPOSED RULE PUBLICATION DATE:  05/05/89    NUMBER OF COMMENTS:      1 ORIGINAL DATE FOR COMMENTS: 06/05/89          EXTENSION DATE:    I  I FINAL RULE FED. REG. CITE:              FINAL RULE PUBLICATION DATE:      I I NOTES ON PETITION CONCERNED WITH USAGE OF IRIDIUM-192 WIRE FOR TREATMENT OF TATU&* CANCER. PER 1991 REG. AGENDA. PETITION FOR RULEMAKING WITHDRAWN OF RULE BY LTR OF 3/23/93. FILE LOCATED ON P-1.

TO FIND THE STAFF CONTACT OR VIEW THE RULEMAKING HISTORY PRESS PAGE DOWN KEY HISTORY OF THE RULE PART AFFECTED: PRM-035-008 RULE TITLE:    AMERSHAM CORPORATION: RECEIPT OF PETITION FOR RULEMAKING PROPOSED RULE         PROPOSED RULE           DATE PROPOSED RULE SECY PAPER:           SRM DATE:       I   I   SIGNED BY SECRETARY:   04/28/89 FINAL RULE            FINAL RULE              DATE FINAL RULE SECY PAPER:            SRM DATE:      I  I    SIGNED BY SECRETARY:      I I STAFF CONTACTS ON THE RULE CONTACT!: MICHAEL LESAR                    MAIL STOP: P 209    PHONE: 492-7758 CONTACT2:                                  MAIL STOP:

UNITED STATES NUCLEAR REGULATORY COMMISSION WASHINGTON, D. C. 20555 MEMORANDUM FOR:   Emile Julian, Chief Docketing and Services Branch, SECY FROM:             Sher Bahadur, Chief Regulation Development Branch, DRA, RES

FORWARDING A LETTER WITHDRAWING A PETITION As discussed between you and Dr . Anthony Tse of my staff, enclosed is a letter (with an attachment) from Dr. Bryan W. Baker of the Amersham Corporation requesting that his petition for rulemaking (PRM- 35-8) be withdrawn.

Please docket this letter. We will prepare the necessary documents for withdrawal after receiving the docketed request.

2636 S. Clearbrook Drive Arlington Heights, IL 60005 Dr. Anthony N. Tse                                                           tel (708) 593-6300 Office of Nuclear Regulatory Research U.S. Nuclear Regulatory Commission Washington, D.C. 20555                                                         ~mersham

Corporate Manager Nuclear Licensing and Industrial Liaison BWB/jc Enclosure

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March 23, 1993                                         *93 APR 19 Pi2 :07 Amcrsham Holdings,lnc.

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                                                                  ,Jci-: : ta;     , 'f Arlington Heights, IL 60005 Joseph G. Klinger, Head                                          :,k,\ ,

Licensing Section                                                              tel (708 ) 593-6300 Division of Radioactive Materials Illinois Department of Nuclear Safety 1035 Outer Park Drive                                                         ~Amersham Springfield, Illinois 62704 Re: License IL-01044-02, Formerly 12-12836-0SMD

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              .*  ---Manager Nuclear Licensing and Industrial Liaison BWB/jc cc:       Dr. Anthony Tse

J. Frank Wilson, M.D., FACR Chairman May 30, 1989                       Departtnent of Radiation Oncology Roger W Byhard~ M.D.

Maurice Greenberg, M.D., FACR Nora A. Janjan, M.D.       Secretary Colleen A. Lawton, M.D.

* Kevin J. Murray, M.D.       us   Nuclear Regulatory Commission Laird E. Olson, M.D.       Washington, D.C. 20555 Medical Radiation Physics Michael T Gillin, Ph.D.

Daniel F. Grimm, M.S.

Attention:  Docketing & Service Branch Darwin L. Zellmer, Ph.D.

Radiation Biology

Enclosed find a copy of an article of which I am co-author which describes the lack of contamination associated with the routine handling of such Ir-192 wire sources. Contamination was only obtained when the source was deliberately physically abused.           It is my opinion that such contamination would be a problem no matter what brachytherapy source was physically abused .

In conclusion, it is my opinion that the use of Ir-192 wire has dosimetric advantages to patients over the use of seeds and there is no known information which established this as a radioactive hazard in its routine handling. Thank you very much for your consideration in this matter.

                          \\_~ ~

Associate Professor Radiation Oncology Medical College of Wisconsin MTG/va Enc .

. S. U LE,' f'! 1:n; Y co~ MISStON DO        G        '"ECTION or-    J:TARY

Quantitation of the Amount of Contamination Obtained From Iridium-192 Sources DANIEL F. GRIMM, MS, MICHAEL T. GILLIN, PhD Department of Radiation Oncology, The Medical College of Wisconsin, Milwaukee, Wisconsin Iridium-192 in the form of either a wire or pins does not meet standard definitions of a "sealed source." This study was designed to measure the amount of removable activity from wire and pin sources of 1112Ir under both normal and "destructive" handling procedures. During normal handling, only small amounts of contamination were removed from the sources. The activity was always below the 185-Bq limit set by the Nuclear Regulatory Commission for sealed sources. Up to eight times this level was found for destructive handling. We conclude that the risk of con-tamination is extremely low for either user or patient under routine use of 192lr wires.

Key Words: Iridium-192 Pins, Wires, Contamination, Destruction Endocurietberapy/Hyperthermia Oncology 1988;4:17-21 ridium-192 is an important isotope in contem-              Radiation Protection and Measurements has I    porary radiation oncology. The advantages of 192lr over other traditional high energy emitting published the following definition of sealed source:

isotopes include a lower average photon energy, a                  A radioactive source sealed in a container or hav-small outer diameter, and the absence of gaseous                    ing a bonded cover, in which the container or decay products. Another practical advantage is the                  cover bas sufficient mechanical strength to pre-ability to adjust the source length to the dimension                vent contact with and dispersion of the radioac-defined by the clinical situation. Iridium-192 is                  tive material under conditions of use and wear for available in the form of seeds, wire, straight pins,                which it was designed. i and hairpins. While it may be argued that with                    Iridium-192 does not meet either definition of a proper center-to-center spacing the seed source                sealed source for several reasons. The iridium and the wire source are equivalent, there is no seed            wire is encased in a 90% platinum-IO% iridium substitute for either the straight pin or the hairpin          tube. No attempt is made to seal t.'J.e ends. The cas-sources.                                                        ing itself becomes radioactive during the neutron There are at least two definitions of sealed                irradiation. A wipe test performed either on the sources being promulgated. The US Nuclear                      ends of the sources or with sufficient vigor on the Regulatory Commission defines sealed source as                  central region of the source should result in some "any byproduct material that is encased in a cap-               detectable activity. The purpose of this work was sule designed to prevent leakage or escape of the              to quantitate the amount of activity removed from byproduct material." 1 The National Council on                  different types of 192lr sources under conditions of both normal and destructive handling.

wire and pin forms from at least two different sup-Received for Publication: May 20, 1987                          pliers.* Pins can be obtained as either straight pins Accepted for Publication: December 2, 1987                      or hairpins. The physical characteristics of these January 1988                                ISSN 8756-1687 Copyright &#xa9; 1988                                            17

Grimm & Gillin Table 1. Physical Characteristics of lridium-192 Sources Source Type            Diameter,     Inner (Core)          Sheath mm        Diameter, mm Thickness, mm Thin wire                      0.3            0.1                0.1 Thick wire                      0.5             0.3                0.1 Thick wire                     0.6            0.4                0.1 Hairpin                        0.5            0.3                0.1 Straight pin                    0.5            0.3                0.1 sources are shown in Table I . In all cases the        working surface was scanned for deposits of ac-iridium core is encased in a     o: I-mm platinum-      tivity. As might be expected, there was visible iridium sheath.                                        damage to the sources after this procedure was Ordinary handling of the sources was ac-            completed.

complished with standard 12-inch tweezers, short locking forceps, and a small scissors. Wipe tests      Counting Procedure and Statistics were performed by vigorously scrubbing the wires          Each wipe sample was loaded in a test tube and and tools with either cotton-tipped applicators or      counted in an automatic scintillation well gauze strips soaked in ethyl alcohol. Particular at-    counter. t Window level settings of the counter tention was paid to the serrations on the tips of the  were adjusted to include all energies from 100 to tweezers or forceps.                                   500 keV . This range includes all the major gamma rays from 1921r. Calibration of the well counter Handling Procedures                                    was performed using a segment of a calibrated The various sources were subjected to a series of     192Ir source. A calibration certificate _for the tests. The initial tests involved numerous routine      source was obtained from the Laboratorie de handling procedures.- Tests progressed to routine      Metrologit des Rayonnements Ionisants. The total cutting activities. The final part of the test in-      activity of the calibrated source had an uncertainty volved destructive handling of the sources by          of +/-6.5% .

vigorous scraping with the serrated edge of the             To obtain a very low activity sample for inter-tweezers while the sources were held in a locked        comparison, the mass of the calibrated source was forceps.                                                first measured on an analytical balance to obtain Wipe tests were performed for each sample after      the specific activity. Then a small piece approx-removal from its shipping container. Each source        imately I mm in length was cut off and weighed.

was next picked up 20 times using the tweezers          The relative mass was used to determine the activi-and then a wipe test of the tweezers was taken.        ty of this small sample. The activity of this source Each wire source was then inserted and pulled          at the start of our wipe tests was approximately through a small plastic tube a total of five times      1000 Bq. The uncertainty of the mass was on the and a wipe test of the tweezers was performed. In      order of +/-7 %* The overall uncertainty in the addition, the plastic tube was also analyzed for        source calibration was +/-9.7%, assuming relative-contamination. The plastic tubes were the same          ly constant linear activity.

ones that are used for implant procedures. The              The uncertainty of the activity from the various next set of tests involved cutting the sources with    wipe samples was taken to be a function of the a scissors. Five separate cuts were performed,          wipe sample counts and the background counts. 3 wiping the cut ends of the wires and the scissors      The uncertainty, in percent, was taken to be the blades individually after each cut. The final test in-  quotient of the square root of the sum of the sam-volved grasping the sources with locking forceps        ple and background counts by the net counts.

and sliding the tweezers along the source while ap-    Because of the very low activities anticipated, plying pressure. Wipe tests were performed on the      counting was limited to a long preset time rather tweezers after every five scrapes until the source      than a preset number of counts. By choosing a broke or until 50 scrapes were performed. Finally,     time long enough to allow the background to reach the source and the forceps were test wiped. The        approximately 1000 counts, we were still able to 18                                                                          Endocurie, Hypertherm, Oncol. Vol. 4

Iridium Contamination Table 2. Wipe Test Results After Normal Handling Type of Source                        Removable Activity, Bq Source            Source        Tweezers After Container            Itself          Grasping 20 Times Wire (0.3 mm)                  0                  4                  0 Wire (0.5 mm)                  0                  3                  0 Hairpin                        0                  4                  0 Straight pin                    0                  0                  0 measure removable activities as low as 3 Bq to an        mm for the 0.3-mm diameter wire and 1.0 mm for uncertainty of less than 25 %* For this report, all      0.5-mm wire. For the purposes of this report, activities with an uncertainty of greater than 25 %      14-cm lengths of both 0.3-mm and 0.5-mm wire have been reported as O Bq.                              were loaded into and pulled through a plastic tube five separate times using tweezers and/or forceps.

Grimm & Gillin Table 4. Wipe Test Results After Cutting Five Times Source Activity                                  Removable Activity, Bq Wire                          Scissors                  Tweezers Range of Average              Range of Average                  At End of Activity Activity              Activity Activity                Cutting Wire (0.3 mm)                        0-12        2                  0-18          4                  12 Wire (0.5 mm)                        0-14        5                4-143        34                    4 Hairpin                              0-36        5                6-133        42                    0 Straight pin                          0-61        20                  0          0                    0 source was then grasped tightly with tweezers near        cesium-137 and radium-226, and does not emit the forceps and pulled through the serrated teeth of      any gaseous decay products.

remove more activity than is allowed for a sealed            Iridium-192 in the form of wires and pins offers source.                                                  many clinical advantages. We have identified Samples of the work surface cover sheet were          special tools for use of these sources, such as counted after the completion of testing for each          tweezers, forceps, and wire cutters. We have at-source. The samples were simply cut and placed in        tempted to follow the routine safety measures of test tubes for counting. The maximum activity            time, distance, and shielding when using these found on the work surface was 66 Bq.                      sources. We routinely manipulate and cut sources Despite the fact that 192lr does not meet any          to meet the clinical situation at hand. Given nor-definition of a sealed source, our results indicate      mal handling of such sources, this work indicates that for routine handling and cutting the removable      that both the worker and the patient are free from contamination is less than that which is allowed for      unnecessary exposure owing to contamination of sealed sources, namely, 185 Bq. With destructive          cutting and loading of the sources. Cleaning the handling of the sources, larger amounts of activity      cutting device is a reasonable procedure to follow can be removed. This is not unique to 1921r              after 192lr sources have been cut. It is also prudent sources, for all sources can be destroyed if given        to routinely change the paper on the working sur-inappropriate handling. In fact, 192Ir has the ob-        face where this cutting is performed. However, vious advantage of being short-lived, relative to        this is just good standard practice. This work Table 5. Wipe Tests After Destructive Handling by Scraping SO Times Source                                        Removable Activity, Bq Tweezers                      Forceps         Wire Range of Average                 At completion of scraping Activity Activity Wire (0.3 mm)                                      61 -1521        495                    3              17 Wire (0.5 mm)                                      36-547        265                    8            264 Hairpin                                              6-90          56                    0            135 Straight pin                                        13-179          68                    0              0 20                                                                            Endocurie, Hypertherm, Oncol. Vol. 4

Iridium Contamination indicates that it is not necessary to take elaborate                          References or expensive precautions in handling and manipulating this material.

: 1. Title 10, chapter I, Code of Federal Regulations-Energy, part 30.4(4).

: 3. A Handbook of Radioactivity Measurements Proccdura, from CIS-US in the United States) and Amersham.      ed 2. NCRP report No. SB, 1985.

t Packard Auto-Gamma Scintillation Spec-             4. Title 10, chapter I, Code of Federal Regulations-Encrgy, trometer model 5220.                                  part 35.14(b)(5).

DOCKET NUMBER       3~-8 PETITION RULE_P_RM_

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NUCLEAR REGULATORY COMMISSION 10 CFR PART 35 Docket No. PRM-35-8 Amersham Corporation; Receipt of Petition for Rulemaking AGENCY:     Nuclear Regulatory Commission.

ACTION:     Petition for rule making; notice cf receipt.

:   The Commission is publishing for public comment a notice of receipt of a petition for rulemaking dated November 14, 1988, which was filed with the Commission by Amersham Corporation. The petition was docketed by the Commission on February 15, 1989, and has been assigned Docket No. PRM-35-8. The petitioner requests that the Commission amend its regulations concerning the medical use of byproduct material to include Iridium-192 wire for interstitial treatment of cancer in the provisions of 10 CFR 35.400 that govern the use of sources for brachytherapy.

DATE:   Submit comments by June 5, 1989. Comments received after this date will be considered ff it is practical to do so, but the Commission is able to assure consideration only for comments received on or before this date.

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SUPPLEMENTARY INFORMATION: The Nuclear Regulatory Commission (NRC) has established provisions that regulate the medical use of byproduct material in 10 CFR Part 35. Under these provisions, medical licensees are permitted to use small, radioactive sources to treat cancer. These sources are designed to be implanted directly into a tumor area or applied on the surface of an area to be treated. This procedure is known as brachytherapy. The list of sources approved for use in brachytherapy is set out in 10 CFR 35.400.

-   portion showed a half life of 15 days. No gamma radiation was

    ~mitted by the contaminants.

  - to May 28, 1976, and were included in the Amersham/Searle Clinical Radiation Sources and Accessories Catalog of April 1973. The products covered by this model number were listed with the FDA as medical devices in August 1979.

Amersham also supplies two accessories that aid in the safe handling, cutting, and loading of the Iridium-192 wire.         The first accessory, wire loader, code N.4100, is used to cut the 0.3 mm diameter wire by way of a special guillotine and to enclose and fix

-   it in a small diameter nylon tube.       The wire is, almost without exception, implanted in patients after enclosure in nylon tubing.

The second accessory is pin cutter, code ASN.200.         The pin cutter and its associated handling device are used on the 0.6 mm diameter wire fabricatd into the shape of single-pins or     11 hair pins". These are, almost without exception, directly implanted in patients without the use of a nylon tubing.

  - The petitioner requests this amendment so that each medical licensee that intends to use Iridium-192 wire source for the interstitial treatment of cancer may do so without having to request and obtain a specific amendment to the license authorizing the medical use of

                                              *a9 rrn 1s P2 :04 F                      Amersham November 14, 1988 Michael A. Lamastra Section Chief, NMSS Branch U.S. Nuclear Regulatory Conmiss1on 11555 Rockville Pike

-   Rockville, MD 20852

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Manager, Environmental             & Safety Regulatory Affairs Enclosure BWB:j il 2360[

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Ji.mersham Corporation 2636 South Clearbrook Drive Arlington Heights, Illinois 60005-4692 (312) 593-6300 Amersham November 14, 1988 Steven C. Collins Chief, Division of Radioactive Materials Illinois Dept. of Nuclear Safety 1035 Outer Park Drive Springfield, IL 62704

Re:    License Number 12-12836-0SHD I am requesting an amendment to the above Medical Source Distribution License If.             to add Iridium-192 wire products, Hodel Number ICW.100 for distribution to Group VI licensees. The NRC Registry number for ICW.100 is NR-136-S-259-S.

The wire loader Code .N.4100 is used not only to cut the 0.3 nm diameter wire via a special guillotine, but also to enclose and fix it in a small diameter nylon tube. In the light of its small size, the 0.3 11111 diameter wire is, almost without exception, only implanted in patients after enclosure in nylon tubing.

*hair-pinsu; these are almost without exception, always directly implanted in patients without the use of a nylon tube.

I hope that the information I have provided will enable you to add Model number ICW.100 Iridium-192 to our Medical Source Distribution License and for

*Iridium-192 wire for interstitial treatment of cancer* to be added to 32 Ill Admin. Code, Section 330 Appendix C Group VI *use of sources and devices containing radioactive material for certain medical uses*.

* Page          3 I enclose a check for $144.00 the license fee for an amendment to this license.

                    /'>                 /)

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bryan W. Baker, Ph.D.

l) Catalog pages

: 2) Device listings (2)

: 9) Check BWB:jil 2254E

...                REGISTRY OF RADIOACTIVE SEALED SOURCES AND DEVICES

* SAFETY EVALUATION OF SEALED SOURCE NO:  NR-136-S-259-S                              DATE:                   ATTACHMENT NO. 1, Amersham Amersham Corporation 2636 S. Clearbrook Drive Arlington Heights, IL 60005 IRIDIUM-192 WIRE APPLICATOR NRC Model ICW.100                      Amersham Code 10-1.l Nominal Act i v.i ty      75 mCi Measurement Date          August 10, 1985 For precise doserate from source, see Radioactive Source Test Report, Read data sheet before opening this container. Handle this radioactive material with GREAT CARE.

REGISTRY OF RADIOACTIVE SEALED SOURCES AND.DEVICES SAFETY EVALUATION OF SEALED SOURCE .

NO:  NR-136-S-259-S                    DATE:       .tillf~l-.1984            PAGE l OF  5 SOURCE TYPE:    Brachytherapy Source Wire MODEL:  ICW 100 MANUFACTURER/DISTRIBUTOR:              Amersham Corporation 2636 South Clearbrook Drive Arlington Heights, IL 60005 MANUFACTURER/DISTRIBUTOR:

                                            . -                          PAGE *2 OF  5 JUN 2 3 1984 SOURCE TY*PE-:    gracfiytfierapy So\l'1"ce Wtre DESCR! PTION,,

The sourc~ wire consists of an alloy of iridium and platinum which is encased in a pure platinum sfieatfi. Tnts compostte is tfi.en mecfiantcally drawn tnto a wire of vartoas diameters ranging from 0.3 mm to 0.6 mm. In all cases~ the "inactive" platinum sheatfi is 0.1 mm thi:ck.

The wire is tnen irradtated in a reactor resulting tn activation of the iridium to Irtdum~-192 nacltde. Tfie matertal may then be dtspatched in a va*riety of fonnats. Most frequently, tfie user requtres to cot and rno.unt tlie wire in holders to specified 1engtlis, 6bt in some cases AmeJ'sham can arrange to snpply the wire ready mounted in narrow 6ore plasttc tafitng.

Individual wtres a-re not marked tn any way since there ts insufficient space to do tfiis. Tne inner contatner wfiich the sources are deli"vered in is labeled as shown in ATTACHMENT No. l. "Prototype label".

in   mm

J REGISTRY OF RADIOACTiVE SEALED SOURCES AND DEVICES SAFETY.EVAL1ATION OF SEALED SOURCE J\ilN 2 3 1924 NO~ NR-136-S-259~-S

                                                        . .. .. -          -PAGE 3 -OF 5 SOURCE TYPE:     Brachytnerapy Source Wire CONDITIONS OF NORMAL USE:

The source.- is intended speci fi cal ly for medical use and exclusively for use in a medical environment. It should 6e stored, locked, in a restricted area. This source should be used only 6y competent persons trained in the technqiues for which it is requtred.

  - PROTOTYPE TE-STING!

This material is not regarded by Amersham as sealed, in that it cannot be guaranteed to meet the requtrements of less than 5 nCi renovable contamination.

In consequence, prototype testing to ANSI standards is inappropriate.

However, both the iridium wire and the iridium pins have achieved ANSI N542 per-formance ratings of 77C53312 where the criterion for passing was defined as being no significant deterioration in the removable contamination test compared with untested sources. Similarly, all types o*f wire have passed bend tests in which they were bent around a 2 mm diameter pin and then straightened again.

The maximum amount of material which a hospital physicist might normally have exposed at one time is 200 mCi. This amount of material would generate a dose rate field of the order of that indicated below:

Distance           Dose Rate 5 ems                 35 R/hr 30 ems                   l R/hr l 00 ems                 90 mR/hr However, these figures should not be used for planning patient dosimetry. The dosimetry of iridium wire is complex and is dealt with in a number of theoretical papers. The customer is provided with a simple test report detailing radiation measurements on the material.

..              REGISTRY OF RADIOACTIVE SEALED SOURCES AND DEVICES SAFETY EVALUATION OF SEALED SOURCES NO:   NR-136-S-259-S                 DATE:*                             PAGE 4 OF 5 SOURCE TYPE:     Brachytherapy Source Wire QUALITY ASSURANCE AND CONTROL:

specifications prior to manufacture. Finished sources are checked to ensure that removable contamination .is not excessive,.; .e., greater than 50 nCi. Above the 50 nCi level, Arnersham holds wire for decay or decontaminates appropriately prior to shi&#xb5;:ient.

* REGISTRY OF RADIOACTIVE SEALED SOURCES AND DEVICES SAFETY EVALUATION OF SEALED SOURCES NO:   NR-136-S-259-S DATE:         JUN 2 3 !QSt     PAGE 5 OF 5 SOURCE TYPE:     Brachytherapy Source Wire

U. S. Nuclear Regulatory Commission JUN 2 3 10&deg;-~

Date: _ _ _ _ _ _ _ _ _ _ __

Concurrence:   ~ 11.   -~'-(1 *Yf.

                                                                    ~                 ~

We offer a comprehensive range of radioactive products besides those listed here. and the fol-lowing catalogs are also available on request:

Radiochemicals Radiation Sources for industry and research Radioactive Supplies and Accessories Radiopharmaceuticals Contents                                       Page General information How to order                                       2 Supply details                                     2 Licensing and Registration                         3 Clinical radiation sources Product index                                       4 Technical information Construction, specifications                   5 Measurement, nominal activity                 5 Testing                                         6 Medical reference sources                           8 Bone densitometry sources                           9 Surface applicators   r

* 10 lrradiators                                       14 Ophthalmic and nasopharyngeal applicators         16 Interstitial and intracavitary appliances         20 Wires for implantation/afterloading               28 Accessories Product index                                     29 Applicators                                       30 Forceps                                           38 Safe and viewing equipment                       39 Price list                                       40 Printed in the United States April 1973                                               S731001

To avoid duplicate shipments written confirmation of orders placed by telephone or telex must be marked "Confirming Order-Do Not Ship ..,

Shipping Containers Containers are designed for maximum safety and economy in transportation and conform to the appro-priate transportation regulations. Whenever possible, lightweight non-returnable containers are used.

Prices All prices listed in this catalog are in U.S. dollars, F.O.B. Arlington Heights. Illinois (unless stated otherwise I. In Canada, F .O.B. Toronto International Airport. Transportation and insurance are charged to

-~ the customer at cost. Every effort will be made to give reasonable notice of price changes. but we reserve the right to change prices without notice. Minimum order $75.

Payment Terms are net 30 days from date of invoice unless other terms have been negotiated.

Returns/Credits Because of the nature of the products listed in this catalog. all sales are considered final. Products can-not be returned to stock for resale. once they have left the direct control of Amersham/Searle.

If the customer demonstrates that       the product does not meet the specifications or quality described in the catalog or technical literature. the product may be returned for full credit providing that Amersham/

Searle is notified in writing within   15 days after receipt of the order. The customer must have exercised reasonable care in the storage and     protection of the product.

* Licensing and Registration In most countries persons processing, using, selling or transporting radioactive materials must be licensed by a national authority. Users of radioisotopes should familiarize themselves with all applica-ble regulations.

U. S. Atomic Energy Commission Division of Materials Licensing Washington, D. C. 20545 A copy of a customer's license, together with all amendments. is required before shipment can be made.

The Atomic Energy Control Board Post Office Box 1046 Ottawa. Canada A copy of a customer's license. together with all amendments, is required before shipment can be made.

Clinical radiation sources This section describes our extensive range of       Product index                                   Page radiation sources for clinical use. The types listed

  *are those which are most widely use, but no catalog of this kind can include a source for every applica- Bone densitometry sources tion. Often the most suitable design of source or         americium-241                                  9 assembly is best decided by discussion between             iodine-125                                    9 radiotherapists or medical physicists and our tech-nical staff. Opportunities to examine new problems Extracorporea I blood irra diators are welcomed.

strontium-90                                 14 We have developed a very wide range of source manufacturing techniques, so that we can select the   Interstitial and intracavitary appliances         20 most appropriate combination of these to ensure           cesium-137 needles and tubes                 21 the maximum efficiency combined with safety in use.             "       sources for afterloading       23 cobalt-60 sources for afterloading            24

- Other radiation sources are listed in our catalog         gold-198 grains

* 25 of "Radiation Sources for industry and research."         iridium-192 wires and pins                    28 This catalog is available on request.                     tantalum-182 wires and pins                   28 yttrium-90 rods for pituitary implantations   26 The products in this section are grouped according to the type of application for which they are intended. Each entry includes a brief description of Medical reference sources the method of construction and a note of the testing       Gamma camera checking sources                 8 procedures applied to the source. A summary of             Isotope assay calibrator check sources        8 the relevant nuclear data is provided for each group. In most cases reference is made to original papers describing clinical use.                     Surface and ophthalmic applicators                10 cobalt-60 ophthalmic applicators             18 strontium-90 beta-teletherapy sources       14

                                                                    "       nasopharyngeal applicators   16 ophthalmic applicators       16 plaques and plates           12

Technical information Construction                                                       Nominal activity A well-designed radiation source emits the required                 For most of the radiation sources described in this radiation a$ efficiently as possible whilst providing               catalog a set of nominal activities is listed. showing a high degree of safety and integrity, both in normal               the strengths at which the sources are manufactured use and in extreme conditions. The active components               for stock. In some cases, sources are available with are in most cases in the form of insoluble compounds,               strengths up to a stated maximum value.

ceramics or metal foils or wires, thus enabling sources to be constructed with the required uniformity of                   Because of activity losses in manufacture and by distribution whilst achieving flexibility in design and             radioactive decay. it is not always possible to supply maintaining safety standards.                                       a source of exactly the value requested.

Specification and measurement                                       If a source is of a type which is offered at specific nominal activities, it is the practice (unless otherwise The strength of a radiation source may be defined                   stated) to,supply a source having a strength within by specifying its radiation output or by stating the               the range -0% to.- 25% of nominal.

radioactivity of its contents.                                     Sources offered in a continuous range of activities are supplied with a value within ::: 10% of that In this catalogue the strengths of beta sources are                 ordered.

expressed either in curies or in some cases by giving the surface dose-rate in a specified material.                      In either case, if no source is available within the specified limits, the customer is consulted before a Gamma sources are specified in terms of the activity               source of different activity is despatched.

                                                                                      \

Technical information Testing for leakage and contamination                         L. Immersion test Ill The source is immersed in water at 50 "C for Stringent tests for leakage are* an essential feature of     4 hours and the activity in the water measured.

radioactive source production. The methods adopted           Limit: 0*005&#xb5;Ci.

The standard methods used for testing radiation sources are listed below. The particular tests used for each type of source are given under the                   Special testing appropriate catalogue entry.

Some of our clinical sources have been tested A. Wipe test I                                               according to the following:

The source is wiped with a swab or tissue, moistened with ethanol or water; the activity removed is *             "Special Form** category of-the IAEA transport measured. Limit 0*005&#xb5;Ci.                                     reyulations (IAEA Safety Series No. 6. 1967).

The certificate numbers given against approved B. Wipe test II                                             -items in the sources listing are those issued by the The source is wiped with a swab or tissue. moistened         UK Dept. of the Environment.

with ethanol or water; the activity removed is measured. Limit: 0*05&#xb5;Ci. (This test is described in         American National Standards Institute (ANSI)

Appendix A of 8.S. 3513 :1962.)                               Classification (USASI Report N5.10, 1968).

D. Bubble test The source is immersed in a suitable liquid                   The testing programme is being continued and will (ethanediol) and the pressure in the vessel reduced         include testing to the recently formulated to 100mm of mercury. No bubbles must be observed.             requirements of the ANSI for brachytherapy sources (This test is described in Appendix B of                     (ANSI Sub-Committee N44/2.3. 1972).

8.S. 3513 :1962.)                                           and to those due to be adopted by the ISO (Draft Standard for the Safety Classification of E. Emanation test                                           Sealed Radioactive Sources. December 1971 ).

The source is placed in a glass specimen tube with a length of polyethylene tubing (40

  , tube is closed by a rubber bung and left for 48 hours.       The information on source testing given in this The beta activity of the polyethylene is measured             catalog includes results available up to December 1*  immediately with an end window counter.                     1972.

Limit: 5 c:p.m. above background, corresponding to about 1 O* 9 Ci radon in 12 hours.                           Details of the rurrent status of particular sources are available on request.

F. Immersion test I The source is immersed in water at 50 C for 8 hours and the activity in the water measured.                       Certification Limit: 0*05&#xb5;Ci.                                             The results of testing radiation sources are reported in either a TEST REPORT or a CERTIFICATE OF G. Immersion test II                                          MEASUREMENT.

The source is immersed in water which is raised to 100 C and held at that temperature for 5 min. The         A Test Report is issued when the source has been water is then removed. the source cooled. and the           the subject of a routine measurement by comparison procedure repeated twice. Sources are passed if the         with a laboratory standard. No limits of accuracy are

    *activity extracted in the final procedure does not           stated.

A Certificate of Measurement is issued when the H. Helium mass spectograph test                            source has been individually calibrated. Limits of Limit: leak rate of 1 O* 8 standard cm 3 /sec.              accuracy are stated.

The limit Cdrresponds to     ~ 5 *, 10- 11 Ci per 24 hours.

Radioactive wires ruclide           l~v~rall dia. lcode                     Platinum covered iridium and tc1ntalum wires are

                                                'form supplied in 50cm lengths, loosely coiled. The iridium-192         0*3           ICW.1         50cm coil thickness of the platinum coating is sufficient to filter 0*6           ICW.12         Hairpin   out the beta emission.

0*6           ICW.22         Single-pin The thin iridium wire, ICW.1, is intended for use in afterloading.

tantalum-182       0*4           TAW.10         50cm coil 0*6           TAW.11         50cm coil Iridium and tantalum wires are also available in the 0*6           TAW.12         Hairpin   form of standard 'hairpin'. or single-pin shapes, 0*4           TAW.13         Hairpin   see fig. 18.

Availability                                               Measurement ICW.1 : a bank of wire coils with activities up to 2mg     Wire activities are expressed in milligrams radium radium equivalent per cm is maintained; despatch           equivalent per centimetre; for definition, see page 5 normally within 7 days of receipt of order. Activities not available from 'bank' are despatched within 3 weeks.

Accessories-see fig. 19 For Pierquin/Paine afterloading technique                   For use with 'hairpins' and 'single-pins' (see first reference below) rescription Theatre pack 1 (gamma sterilized)                           Slotted guide needles 2 x 80cm outer nylon tubing                         constructed in stainless steel according 160cm marker wire                                 to the designs used by Pierquin and Paine 80cm nylon thread                                         straight, length 40mm                         N.454 Theatre pack 2 (gamma sterilized)                 N.202             curved, length 40mm                           N.464 4 packs each of 6 nylon balls                       Slotted hairpin guides 4 packs each of 6 lead discs                       constructed in stainless steel according Theatre pack 3 (not sterilized)                 N.203     to the designs used by Pierquin and"Paine 5 metres inner nylon tubing                                plain, length 40mm                             N.474 5 metres marker thread                                      with lip, length 40mm                         N.484 Plain guide needles for implanting the                     Tool for implanting tantalum 'hairpins*,

outer nylon tubing                                         available from the Endoscopic Instrument Co. Ltd.

length 100mm                             N.210     62 Shirland Road, London W9 length 1 50mm                           N.215     Availability of Accessories length 200mm                             N.220 Dispatch is normally within 7 days of receipt of Mandrel for use with above order.

length 250mm                             N.325 Crimping tool, for crimping lead discs         N.400     Combination Pack                                      N .900 Comprising 4 each N .201 4 each N.203 1 each N.202, N.210, N.215 N.220, N.325 References                                                 PIEROU IN, B.

                                                            'Precis de Curietherapie'. Masson and Cie, Paris, 1964.

PAINE, C.H.

  'Modern afterloading methods for interstitial               HALL, R.J., OLIVER, R. and SHEPSTONE, B.J.

radiotherapy'. Clin. Radio/. 23, 263-272, 1972.             'Routine dosimetry with tantalum 182 and iridium-192 wires'. Acta Radiologica, 4, 155-160, 1966.

PIEROUIN, B., CHASSAGNE, D. and COX, J.D.

  'Toward consistent local control of certain malignant       BRASFIELD, R.D. and HENSCHKE, U.K.

tumours--endoradiotherapy with iridium-192'.               'lntravascular irradiation of the internal mammary Radiology, 99 (3), 661-667, 1971.                         lymph nodes in breast cancer'.

DARBY, J., LASBURY, B. and PAINE, C.H.

Amer. J. Roentgenol, 85, 849-859, 1961.

  'A protected loading device for thin   192 1r wires'. MEREDITH, W.J., GREEN, D. and KAWASHIMA, K.

Brit. J. Radio/, 45, 778-781, 1972.                       'The attenuation and scattering in a photon of gamma-rays from some radionuclides used in mould and SIMON, N.

  'lridium-192 as a radium substitute'.

Brit. J. Radiol, 39, 280-286, 1966.

Amer. J. Roentgenol. 93, 170-178, 1965.

                      ~his information is a violation of Section 30l(p) of the Act (21 U.S.C. 331(p)). Persons who violate this provisi~n moy;.if c*i>n*~ *

* respect is o violation of Section 30l(q)(2), (21 U.S.C. 331(g)(2l)ond may be o violation of 18 U.S.C. 1001.                                                               *: * :..._.**;> :*.".::

I     ..                               7   B 14                 I5                          1(1                     21         22               * '* .. '                 27

: 1. DOCUMENT NUMBER                           2. INITIAL DOCUMENT NUMBER                       3. REASON FOR SUBMISSION               4. ACTIVITY DATE S. REPORT DATE MO.       DAY     YR.               MO.               DAY               YR.

Ii 28                                                                                                                                                 211                                                         .*. 38

,.                                                                                                                                                                 7. ~WNER/OPERA,T9R,ID N~'.

Xo/{)*//G- .....;

j 311   37

: 8. CLASSIFICATION NAME-                                                                                                                   :I      9. CLASSIFICAT_ION NO;*._-

                                  /\ / O.A/ t*;.                                                                                                             I I

: 10. PROPRIETARY NAME                                           *

                ,.1/-I.E.1? ;,1 !JC vT1t.:., 3 tJU!Gt!.. .                                                   I II                                                                                                                   V 183

{

                          '. :. 5 It /)'} c::

I     .                                                                                                                                                                                                         * . ' '323

                                                                                                                                                                                                  *- ......,: .       -~ -: :*

                                                                                                                                                                                        ... - -~-~~~ .'::* -~-:.~*t. <*-. ::, :,._.

: 12. IS THE ABOVE LISTED DEVICE THE SUBJECT OF ANY PERFORMANCE STANDARD ESTABLISHED PURSUANT _ _ _*. _._s_2*_ _ _ _ _ ,.*..

                        . TO SECTION 514 OF THE FEDERAL FOOD, DRUG, AHO COSMETIC ACT OR SECTION 358 OF THE RADIATION                                                                   YE~.*.*. _:*. **.**.***.'rt:"""1.N.o_*~.:

CONTROL FOR HEAL TH AND SAFETY ACT?                                                                                                      ..                                                1.1..J 1--~-------------------------------------------+-,-,--,-,.,.,..,.-,-,-..,.....,,.,~----.

12a."     ENTER THE APPROPRIATE NAME AND SECTION NUMBER FROM CHAPTER                                       21 OF THIS CODE OF FEDERAL                       32 11.           328 3 211                 ..

* 33

* REGULATIONS. NAME:                                                                                                                                 SECTION                         PARA.'***.**

                                                                                                                                                                                      ~-- -~: ~. :-* }fj./~;:\:_~{~.=~-

: 13. IS THE ABOVE LISTED DEVICE THE SUBJECT OF A PREMARKET APPROVAL PURSUANT TO SECTION(S) 505,                                                                                         3.311 .. *             **

507 OR 515 OF THE FEDERAL FOOD, DRUG AND COSMETIC ACTT

130. IDENTIFY ANY APPROVED PREMARKET APPLICATION BY ITS ASSIGNED FDA NUMBER:                                                                               i-;:,;.;;s_8__._._ _ _._.__:s_*--is ** * *

                .. ::,:}<----.<< ::' **:*.                             . !

14 *. 1~ THE 7v1CE, A.S LABELED, INTENDED FOR DISTRIBUTION TO AND USE BY THE GENERAL PUBLICl                                                         D       Y~Es**::.;           q::J ~o'.:':

28 30 31                                             37

{* " ~

  ! - : . ** .           ..     IS.                                       16

* SEQ                       EST, REG.NUMBER         -                                         ESTABLISHMENT NAME D F               I       M p R ..

                                                                                                                                                                                                  /

S02,                                                                                                                                                                             ,*       ,.                         .,

                        -+---__;_------+----------------------~:-----+-+--t--t--t-+-t---1 :* :

S03                                                                                                                                                                                                         .l-     *.-.         **:*_: ..;

                        --1-----------4-----------------------------+-t-t-+--+--+--+--I                                                                                                                                     .. "                   :..... .,I S0-4                                                                                                                                                                                                                             .... .

                                          .. -------------11-------,                         ---,--------------------_---t-.-.-t--t--t-1".""-t--t-.-_,~:.... ~-t~.,.*~                     I*     .*     ~~               !-***     ::..:.,.,

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          . J-'KY amersham 9020-1 disk 995 kk leletype I   Inch Proced*ures for unpacking, transfer and storage of lrldium-192 medical brachytherapy sources For iridium-192 wire (coils. single pins and hairpins)

The transport containers are designed to make it easy for the user to remow the source using the appropriate safety precautions. However, such source mowments Should only be carried out by a person who understands the precautions to be taken when working with radiation and is fully informed about the operations he is I     .     about to pertOfTT\.

What to do on receipt " the package                           page 2 Ameraham Corporation            Amersham Canada Linited 16315 South Clearbrook Drive    505 Iroquois S110,e Road Arlinglon Heighll. llhnois 60005 Oakville. On1a110 L6H 2R3 A mersham 1-(800) 323-0668/(312) 364-7~23  1-(800) 266-5061/(.16) 842-2720 1

I On receipt of package

: 1) Check that all documentation, including label description, agrees with acknowledgement of order. tt there are any anomalies please notify Amersham Corporation as soon as possible.

Unpacking procedures The source should only be unpacked in a specially designated area by authorized trained personnel.

A) Outer containment I) Open the cardboard carton or expanded polystyrene drum by cutting the adhesive plastic tape (figures 1(8) and (b)).                             (!OJ\

* II) RemCNe 1he inner lead container and open it by removing the strip of self-adhesive plastic tape and lifting the lid. The sources will noN be unshielded and appropriate precautions should be taken.

B Inner contaln~~~~~ndent on source type) m-192 coils ttoc:Jes ICW.1030 to ICW.1300) four coils are supplied in each package. The coils are contained in a plastic tub inside a lead container and are separated by foam pads (figure 3). Remove the cols and pads by rifting them out one at a time using long forceps, taking care to separate the coil from the pad if the end of the wire has caught in the i:

i:  .r;...m-192 hairpins and single pins (product codes ICW.3040 to ICW.3300

  ! : ~CW.4040 to ICW.4300)

  !: Up to lixteen pins may be supplied in each package. The pins       are contained in an all.lninum can with a threaded lid, inside a lead container (figure 4). Each pin Is wrapped in an aluminum foil enYelope to protect it. A loop of wire is left prctrudng from each ~ope so that the pin may easily be separated from the envelope using forceps immediately prior to implant. The pins should be stored in the erMlope until ready for use.

C) Inspection 1: The ec,urces should be inspected immediately following rem<MI from the inner containment, taking care to restrict personnel dose levels by the use of suitable lhielding and viewing using magnification. Ar'{ damage or OCher causes for c:onc:em should be reported to Arnersham Corporation without delay.

I) Do~ bJCh the &OUrce with the             hand. Nlsfs use beeps.

I) These sources are       ~   classified as sealed sources.

I) Frequent checks for surface contamination should be carried out in the areas where 1hese sources are handled, and on arrt equipment or apparatus with which they come ir1o contact.                                                      ..

: 7) These   sources   lhouSd, wheneYer possible. be handled behind lead shields and WlWBd rtvougt, a lead glass window or minor system. A magrifi9f lhould be uaed tor detsied visual inspection.

lrtdlum-192 .....

Notes for general guidance Allholql these eources have al been designed 10 minimize surface conlamination

    ,_ n     leakage d activity, they are ~ classified as sealed 80Ul08S as defirwd in 1he l  NRC ~ Appropriale precautions must therefore be . _ . when

    '

1hese l0ur'CBS rnuat ort, be unpacked or 1ral l&ferTed from their lran8port conlainer tJ/ a Uy lrained and aulhoriad pnon. (See: Specffic precaulions 10 be IBk8n.

* Geraa, 1 Qn pag8 5).

0 for al 101.108 mcMmen1s outside lhe lhieking d 1he 1rai mport canainer, 1h11 IDlcMing poi'D lhould be ncled:

        ......ll"f"t~iJIDOO!t It el9o esser1ial ID hlM one available in Cll88 d mishap&

lI I) 1he l0Ul'09S nut               be handled clrdy.

l       I) Nwtl/1 Ul8 rernalB handing l0cll.

1 F

I l   4) Reduce ecpoan to personnel tJ/ 1he uae d lhieking, d8lanoe and time *

'   ;   ~                                         .

I t   i

  ~ i WhenM9r poaible peraons moving ndation eources lhould _,,..,. work behind t:       raclation ..... In general lhe best radiation lhielda tar gamma radiation .,.

  'i d lead lhielding tor lrklum-192 ii lhown, In '8rml d thickness d material requred f0r * ""91'1 lral llfflillion laclor. In llble 1(8).

~

f

                                        'RanamlNlon fac1or    ~                    ltanamlulon factor 05      0.1      0.01      ~                05          0.1        001 Thlckneu of INd mm 4      13        31        53            125          245        390 In cases where it is not possible or corwenient ID work behind radiation shields.

                      *e,q>osure ID a mirimum, but remember that all materials provide some sort cl radiation shielding providing they are between )Q.I and the source. Even concrel8 walls can provide useful additional screening as shown in the table 1b and advarCage cl this should be taken whenewr possible.

Distance protection is based on the inwrse equare law. Quite simply, If the dslance is halved the dose wifl go up by a factor cl 4 and if the cistance is doubled the dose wl be reduced to 0.25 cl its original wlue.

SW   *1tii\Mf'.'-f 11PM         tPW                                                       I       --

I lridium-192 Wire Afterloading System Intended Use: The lr-192 wire sources and afterloading system are intended for use in interstitial and intracavitary brachytherapy ~ures for the treatment of malignant diseases.

Introduction si,c::,,s.

tr-192 wire brachytherapy sources for the treatment of~ant diseases are manufactured in 3 basic forms: coh, hairpins and Precautions Before initiating any patient treatment the parties responsible for the use of the referenced radiation source(s) should ascertainl ~ 1ollowing:

: 2) That .all *applicable U.S. Nuclear Regulatory Commission and/or Agreement State requirements for possession and use d lladioactive materials have been (or can be) met.

Regulatory Responslbllltles All institutions licensed for the possession and use of these materials are required to meet certain minimum requirements of the U.S. Nuclear Regulatory Commission or the appropriate Agreement State. Persons in possession of these sources are required by law to meet all such regulatory concerns. These include (but are not limited to) the necessity for conducting proper surveys for protection of personnel, for proper room monitoring and posting and for proper 1

          ~     Handllng lnstn1ctlo~s                                                                             o...         lI.

            ,   Each unit of the Amersham iridium wire loader is accompanied by a set of                   ~ D--~ t-.           I

          '-1 '( instructions entitled "Procedures for Unpacking, Transfer, and Storage of                 ~     (-.J           f

          ~ ~ lridium-192 Medical Brachytherapy Sources," and iridium Wire Loader (code               {){}- l:JQ,,

t' N.4100 Directio for           " A warning label on the transport package warns       \ \{\

t,           to rea oata eats carefully before using the ~ /

          ~     that the information provided in the Amersham ~ only intended for use in preparing material for surgery; actual surgical techniques are left to the user's discretion, but we recommend that users should seek additional information from other sources on surgical techniques, dosimetry calculations and other relevant treatment methodologies before any attempt is made to carry out treatments.

The optimum dose rates. treatment times and treatment volume to be irradiated are determined by evaluating all the available clinical information which may be associated with a treatment. Complex calculations must then be performed by a trained physician, physicist or dosimetrist, usually with the aid of a computer to determine the exact geometry and radioactive strength of an array ct lr-192 wires or pins and optimum treatment time. which will result in the prescribed dose being administered to the treatment volume.

The Amersham iridium wire system is designed for use with the "Pierquin/Paine" afterfoading technique. 2 and the i>aris System" at dosimetry,12 for which dosimetry tables are available. 13 Considerable skill is needed at the implantation stage to ensure that the geometry of the array ct wires confonns as closely as possible to the geometry determined by the computer calculations. Details of the necessary surgical and implantation procedures to achieve this are described in the literature. ,.._11 *

* 2 I        . . ....    '

Directions for Use                                                                                           I Federal law prohibits the use of these sources on human subjects without the specific orders of a licensed physician. lr-192 sources for brachytherapy are inlended for use in appropriately designed and manufactured after1oading eocessories. These devices are not sterile.

The range of possible treatments and methodologies is very broad due to the large variety in the type and location of tumors in the body and on the various

* cinical circumstances which may be associated with a given condition .

Many treatment methodologies have been reported in medical literature where successful results in the treatment of the tongue, 1s-1s floor of mouth, 17 hard paate, 19 lip, 7.20.21 breast, 22*24 bladder, 2s-27 prostate, 28.29 penis,30-33 neoplasms of 1he digestive tract, 33.34 and central nervous system35-39 have been accomplished with lr-192 wire. lechniques such as interstitial hyperthermia using lr-192,44-45 reports of instrumentation and technology, 9,40-43 dosimetry method4.5.11-13 and vaious reviews about interstitial brachytherapy11 *46.47 are also available.

Contraindications lnadiation is contraindicated in healthy tissue, especially tissue close to the unor (treatment) volume.         In some cases (e.g., bladder, rectum, carotid arteries) 1hese tissues may be particular1y sensitive to large doses of radiation.

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                                                                                                                                                                          'j i

t Lost Sources                                                                                                                                                   *f I

Normally, misplaced lr-192 sources can be found easily with an operational Geiger-Mueller detector (with audible ratemeter). Should attempts fail to find a                                                                               f misplaced source within the first few hours after disc011ery of the loss,                                                                                       t I

IMMEDIATELY notify the appropriate State and/or Federal authorities.

Storage and Reuse of Wire                                                                                                                                       t

                ~ t.a'.9~ I V\<ie.C-'T, The,.jleail8&."'Procedures for Unpacking, liansfer and Storage of lridium-192 Mecfical Brachytherapy Sources" provides additional information on the storage d Amersham lr-192 wire and hairpins.                                                                                                                          't