Radiation Safety Review for Radiation Oncology Staff

MARCUS JEANNETTERADIATION SAFETY OFFICER744-2070

Office of Radiation Safety ResponsibilitiesComply with regulations, laws, and guidelines regarding the safe use of radioactive material and radiation producing devices.

Protect employees, students, and the general public from overexposure to radiation at East Carolina University.

RegulatoryEnvironment

Regulatory EnvironmentThere are a number of factors involved and during the process of this training session you should gain a larger understanding of the reason.We will first look at where the regulations originate from and what agencies govern our operational use of radiation producing machines and radioactive materials.

This training is mandated by regulation, but why?

Scientific CommunityThe ICRP and NCRP are advisory bodies that collect and analyze data regarding ionizing radiation and put forth recommendations on radiation protection.The regulatory groups utilize these recommendations when developing regulations.International Commission on Radiation ProtectionICRPNational Council on Radiation Protection and MeasurementsNCRP

Federal Regulatory GroupsMany Federal agencies have regulations that deal with radiation protection.Each agency regulates a different aspect as it pertains to their particular program area.NRC Nuclear Regulatory CommissionFDA Food & Drug AdministrationFEMA Federal Emergency Management AgencyOSHA Occupational Safety and Health AdministrationDOT Department of TransportationEPA Environmental Protection AgencyUSPS United States Postal Service

State Regulatory GroupsIn North Carolina, the Radiation Protection Section regulates the safe use of ionizing radiation (electronic product or radioactive materials) used at our facility.We are authorized to use these sources of ionizing radiation via licensure (radioactive materials and accelerators) and registration (diagnostic x-ray equipment). Our facility has a radiation protection program that must meet the requirements set forth by the State in order to maintain these authorizations.

Licenses and Radiation Safety Committees

Current Licenses Managed By ECU 074-296-1, Broad Academic License 074-296-A1, Physics Linear Accelerator 074-296-A2, LJCC Accelerators 074-296-7, ECHI Nuclear Cardiology

ECU Radiation Safety Committees

Basic Sciences-Radiation Safety Committee-Academic Research-Physics Linear AcceleratorClinical Radiation Safety Committee-Therapy Accelerators-High Dose Rate Applicator

Committee ResponsibilitiesDevelop policies and procedures for the safe use of radioactive materials and radiation producing equipment.Approve authorized users.Provide technical advice to the RSO.Review all instances of alleged infractions of the use of ionizing radiations or safety rules with the RSO and responsible personnel and take corrective actions. Review periodic reports from the RSO.

Basic Radiation Physics

Ionizing vs. Non-IonizingRadiationsIonizing RadiationA radiation that has sufficient energy to remove electrons from atoms or molecules as it passes through matter.Examples: x-rays, gamma rays, beta particles, and alpha particlesNon-Ionizing RadiationA radiation that is not as energetic as ionizing radiation and cannot remove electrons from atoms or molecules.Examples: light, lasers, heat, microwaves, and radar

AtomWhether we talk about ionizing or non-ionizing radiation, its genesis is either within or very close to the exterior of the atom. The following is a brief review the atomic structure.The atom is comprised of a nucleus, which is made up of positively charged protons and electrically neutral (no charge) neutrons, surrounded by negatively charged electrons.In an electrically neutral atom, the number of positively charged protons and negatively charged electrons are equal.

Radiation OriginsIonizing radiation (hereafter, referred only as radiation) can be generated by electronic means (x-ray units) or radioactive materials.When electronic-product radiation is produced, the source is turned on and off like a light switch. Once the unit is off, the radiation exposure is over. The x-ray unit does not continue to radiate or become radioactive.With radioactive materials, there is a little more involved. The source is always on until it decays away. Next: A review of both types of ionizing radiation generators X-rays and Radioactive Materials.

Gamma rays and X-rays are essentially the same, except for where they originate. Gamma rays originate from the nucleus, and X-rays originate outside the nucleus of an atom.These rays have no mass or no charge, and are very penetrating.These rays are the same as light (electromagnetic radiation), only much more energetic.Considered more of an external hazard than internal.Both rays are great for imaging patients.

GAMMA AND X-RADIATIONGenerally, stopped by lead.Sources include naturally occurring radioactive materials and cosmic radiation.Medical imagingFYI: As discussed earlier, x-rays can be produced by radioactive decay or electronic production. Both originate outside the nucleus of the atom.Radioactive MaterialTypes of Radiations

X-rays as produced by an x-ray unit are also know as Bremsstrahlung. It is a German word for braking radiation.As depicted in the diagram, when the electron slows very fast (brakes) as it gets close to the atom of the target nucleus, x-rays (radiation) are formed.X-rays are emitted in all directions; therefore, the structure housing the x-ray tube is shielded except for a port where the x-rays escape and can be used for diagnostic purposes.X-ray GenerationReviewFYI: If youve ever had an x-ray, when the x-ray technologists takes your picture, it is over. The x-ray unit does not continue to produce radiation after the exposure is complete.

Radiation UnitsExposureA measure of ionization produced in air by X or gamma radiation.Highly specific in that the unit specifies the matter being exposed and radiation producing the ionizations.Unit: roentgen (R)1 R = 1000 mRAbsorbed DoseA measure of energy deposition per unit mass irradiated.Considers all radiations imparting energy to all types of matter.Unit: rad1 rad = 1000 mradSI Units: gray (Gy)1 Gy = 100 rad

Dose EquivalentIt is numerically equal to the absorbed dose by a quality factor Dose equivalent is needed because the biological effect from a given absorbed dose is dependent upon the type of radiation producing the absorbed dose.Unit: rem1 rem = 1000 mremSI Units: sievert (Sv)1 Sv = 100 remNow that you have a little understanding of the physics behind ionizing radiation, how do we measure or quantify radiation? Here are a few units of measure that are used (often interchangeably) in radiation protection:

The unit of measure, dose equivalent, was instituted to take into account the relative biological effectiveness of the differing types of radiations.Some radiations like alpha particles are densely ionizing; therefore, as they pass through tissue, they are able to strip more electrons than beta particles or x-rays or gamma rays20 times greater. In short, alpha particles are better at producing damage.Absorbed dose merely documents how much energy is being deposited per unit mass, it does not consider how effective each radiation is at producing damage in a biological system.The more densely ionizing, the more damage is done.Radiation UnitsDose EquivalentFYI: If you wear a badge, your dose in reported in mrem.

Biological EffectsandRadiological Risk

Biological EffectsWho cares about electrons being stripped from atoms?Electrons are essential in creating molecular bonds. When radiation breaks those bonds, the molecule ceases to function properly.Research has shown that the body has great repair mechanisms, but when overwhelmed the repair may be incomplete or incorrect.If enough damage to a region occurs, the result may be cell death.Damage may manifest as delayed or acute effects.Acute Effects:Generally occurring in the individual receiving the radiation dose.A threshold dose must be exceeded before symptomatic.Example: Radiation SicknessDelayed Effects:Can occur in the individual receiving the radiation dose or the offspring.Probabilistic effect, whereby the increase in dose increases the probability that the effect occurs.Example: Cancer or genetic mutation

Biological EffectsWhat we know about the effects of radiation come from a number of different exposed populations:Atomic bomb survivorsAccident victimsRadium watch dial paintersRadiation therapy patientsEarly experimenters with radiation

Epidemiological studies of these groups have shown that following significant radiation doses, effects were observed.The effects were both acute and delayed.

Dose versus EffectNobody knows for sure what radiation dose does to us below the shaded region. There may be a threshold where there is no effect from radiation below a certain dose. In Radiation Protection, as a protective measure, it is assumed that all dose carries some risk, this is represented by the straight red line on the diagram.FYI: There are other theories regarding the effects of radiation dose (as represented by the other lines blue and gray), to include radiation hormesis. Radiation hormesis is a theory that chronic low doses of radiation is good for the body.

Radiation RiskUnderstanding the different types of effects, regulatory agencies impose radiation dose limits that eliminate the likelihood of acute effects and reduce the likelihood of delayed, or risk-based, effects.Regulatory groups are concerned with fatal risk estimates.The current regulatory limit for an occupationally exposed worker is 5,000 mrem per year.When initially instituted, the radiation dose limit represented a risk that was equal to that of other safe industries.

Given that the regulatory limits are risk-based, and that increasing ones dose increases ones chance that an effect may occur, the law also requires radiation workers to employ the philosophy of ALARA, or keeping your radiation dose As Low As Reasonably Achievable.

Putting Radiation in Perspective!Everyone on Earth is being exposed to radiation!The average North Carolinian receives approximately 360 mrem of radiation dose per year.Background radiation dose is affected by altitude, soil type and other factors. There is a wide variation of natural backgrounds in the world. Some places have annual background radiation levels greater than the US dose limits for radiation workerswith no excess cancer mortality!

Did you know some of the foods you eat contain naturally occurring radioactive material? Bananas contain lowquantities of Potassium-40.

PracticalRadiation Safety

Protecting Ourselves from External ExposureAdhere to the three cardinal rules of external radiation protection:TIMEDISTANCESHIELDINGTIMELess Time = Less ExposureDISTANCEGreater Distance = Less ExposureSHIELDINGMore Shielding = Less Exposure

External Radiation ProtectionConsider ThisExposure to a source of ionizing radiation is very similar to the exposure from a light bulb (i.e. light and heat).The closer you are to the source, the more intense the light and heat are. Likewise, if you move away, the intensity decreases.The longer you are close to the light bulb, you begin to feel the warming effects of the light. If however, you move quickly to and from the light, youll not likely feel the warming effect.If you put something opaque between you and the light bulb, you effectively eliminate the light.

Exposure and ContaminationA difficult concept to understand is the difference between exposure and contamination when we talk about radioactive materials.To illustrate the difference, consider a burning candle. If you stand away from the candle, you are being exposed to the candles light. If you leave the room, your are no longer exposed to the candles light. If you walk up to the candle, you are being exposed to the candles light. If you then reached out and grabbed the candle, you would get hot wax on your hand. If you left the room, you are no longer exposed to the light, but the wax on your hand (i.e. contamination) remains. If the wax were radioactive, the contamination would continue to expose your hand until you washed it off.Remember: Being exposed by a radioactive source does not contaminate you. You must have interacted with the source to get some of the source on you. Once on you, the contamination will expose you until it is removed.

General Safety Guides for Use of Radiation Producing EquipmentX-ray equipment should not be left unattended while in operating mode.When in fixed radiographic rooms, operators shall remain behind the protective barrier.If required to be in a room during a diagnostic x-ray exposure (e.g. fluoroscopy), wear a lead apron or stand behind a protective barrier.Where your dosimetry, if applicable.Follow established procedures; when unsure, stop and notify your supervisor or the RSO.Keys MUST not be left in portable x-ray equipment.

Radiation SymbolsCaution Radioactive MaterialsCaution Radiation AreaCaution Radiation Area when X-ray Energized

North Carolina Regulations for the Protection Against Radiation (NCRPAR)

NC Regulations for the Protection Against RadiationThis is the LAW.Web location: http://www.ncradiation.net/documents/15ANCAC11_1107.pdf

Highlights of NCRPAR15A NCAC 11 .1600, Standards for the Protection Against Radiation.15A NCAC 11 .0300, Licensing of Radioactive Material.15A NCAC 11 .0600, X-rays in the Healing Arts (Not included in this Presentation).15A NCAC 11 .0900, Requirements for Particle Accelerators (Not Included in this Presentation)

.1600, Standards for the Protection Against Radiation .1603, Radiation Protection Program.1604, Occupational Dose Limits for Adults.1610, Dose Equivalent to an Embryo Fetus.1611, Dose Limits for Individual Members of the Public.

Radiation Protection Program (.1603)The Licensee or registrant must develop, document a radiation protection program commensurate with the scope and extent of licensed activities.Program must insure compliance with the provisions outlined in .1600For example compliance with occupational dose limits, record keeping, dose limits for members of the public, radiological area surveys, annual program review, etc.

Occupational Dose Limits (.1604)The occupational dose limits for workers in North Carolina and the US are as follows:Whole Body (WB)5,000 mrem/yrExtremities/Skin50,000 mrem/yrLens of the Eye 15,000 mrem/yrMinor WB (< 18 years old)500 mrem/yearDeclared Pregnant Worker500 mrem/gestation

By regulation, the institutional radiation protection program shall monitor individuals exposure/dose if they are likely to receive 10% of the limit, or in the case of declared pregnant workers and minors the threshold is 100 mrem.

Personnel Monitoring Methods(Dosimetry)Monitoring RequiredMonitoring MethodWhole BodyTLD or OSL BadgeExtremityFinger Ring TLDInternal ContaminationUrinalysis or BioassayWhole Body BadgeRing BadgeThyroid Bioassay

General Rules for Use of DosimetryWear your own badge.Wear your whole body (WB) badge whenever working with radiation sourcesNotify the RSO immediately when a badge is lost.Wear ring badges under gloves.Store badges in designated areas at the end of each day of work.

Personnel Dosimetry - FYIDosimetry does not protect you from radiation.Dosimetry is not a warning device (i.e. it will not alarm, beep or change color)Dosimetry documents the radiation dose an individual receives when working with radiation sources.It is ILLEGAL to intentionally expose an individuals dosimeter.

Personnel Dosimetry ReviewEach monitoring period dose report is reviewed by the Radiation Safety OfficerThe report is compared against the institutions investigational levels:

>200 mrem/monitoring period to whole body > 2000 mrem/monitoring period to extremities > 800 mrem/monitoring period to the skinAction Required: Written notification from RSO to worker and investigation

Dose Equivalent to an Embryo/fetus (.1610)Occupational exposure to the fetus of a declared pregnant woman shall not exceed 500 millirem during the 9 month pregnancy.Declare pregnancy as soon as possible

Declared Pregnant WorkersAvailable for those radiation workers who are pregnant or planning a pregnancy.Purely VOLUNTARY!To be apart of the program, you must DECLARE your pregnancy in writing to your supervisor and provide the estimated date of conception. The RSO must be notified immediately upon declaration.The declared pregnant worker may be provided with a dosimeter that will be worn at the waist level. If lead is worn, the fetal badge shall always be worn under the lead.

Dose Limits for Individual Members of the Public (.1611)The total effective dose equivalent shall not exceed 100 millirem within one year.The dose in any unrestricted area from external sources of radiation , exclusive of the dose contribution from patients administered radioactive material and released in accordance with the regulations, does not exceed 2 millirem in any one hour.This is basically 2 millirem per week for a 50 week work period.Patients recieving medical care are exempted from this rule!

How do we comply with the Dose Limits for Members of the Public?

Radiation Safety Policies and ProceduresRadiological Area SurveysContamination surveysExternal Radiation surveysEnvironmental Monitoring Landauer OSL Environmental monitorsStandard OSL monitors

Geiger Mueller Detector

Geiger counters are portable devices that detect and measure radioactivity.Can be used to detect beta, gamma and X-ray radiation.Geiger-Muller tube is filled with an inert gas that will conduct electricity when ionized. The tube amplifies this conduction by a cascade effect and outputs a current pulse, which is displayed by a needle or audible clicks.

Licensing of Radioactive Material (.300).0350, Records and Reports of Misadministration.0356, Procedures for Administration Requiring a Written Directive.0364, Medical Events.0365, Report and Notification of a Dose to an Embryo/Fetus or Nursing Child

Records and Reports of Misadministration (.0350)

Repealed as of November 1, 2007Changed to Medical Event, .0361

Written DirectivesThe prescription or order given by a physician that is documented in the patient chart or electronic charting system (Lantis).A written prescription must be completed by the authorized Physician.Treatment summary will be completed by the chief radiation therapist and medical physics staff upon completion of treatmentThe patients identity will be verified before each and each administrations written directive.

The Written Directive will Include:Volume (site) to be treatedRadiation modalityDose per fractionTotal number of fractionsTreatment PatternPrescription point or isodoseTechnique used

Medical Events (.0364)Medical Event is the administration of radioactive material or radiation that results in:1. A dose that differs from the prescribed dose by 5 rem effective dose equivalent, 50 rem to an organ or tissue.2. The total dose delivered differs from the prescribed dose by 20% or more..3. An administration of the wrong radioactive drug containing radioactive material.4. An administration of a radiopharmaceutical by the wrong route of administration.5. An administration to the wrong patient.

Reporting a Medical EventNotify the RSO ImmediatelyCall DENR, RPS within 24 hours of event919-571-4141Give the following information:Callers NameLicensee: East Carolina University School of MedicineDate of Medical EventDate of discoveryLicense Number: 074-296-A2Brief Description of Event

Reporting a Medical EventECHI will submit a written report to DENR within 15 days.The report should include the following:1. The licensees name2. The name of the prescribing physician3. Brief description of the event4. Why the event occurred5. The effect on the individual(s) who received the administration6. Corrective Actions7. Certification that we notified the individual involved

The Medical Event reporting form is available on the web at: www.ncradiation.net

Accelerator SafetyMaintenance should only be performed by a qualified expert with the proper training. Before entering the treatment room for any reason, always verify that LINAC or Cyberknife is in a beam off condition. Notify the operator before entering.

Before rotating the gantry, always verify that the treatment couch is positioned and the patient restrained so a collision cannot occur.

Notify your supervisor of any abnormal occurences with the LINAC/Cyberknife..

Do not continue operation of the LINAC/Cyberknife or attempt to deliver a treatment if there is any indication of a malfunction of any kind.

Always remove the console keys and deposit them in a secure area when the LINAC/Cyberknife is unattended. The keys should always be removed at night and on the weekend.

Accelerator SafetyIf a power failure or emergency stop should shut down the LINAC/Cyberknife during treatment, always remove the patient and have a maintenance check of the unit before completing treatment.

Emergency procedures are posted at all three shielded vaults. Emergency contacts are also listed.

Quality Assurance checks should be performed daily, monthly and annually. Review the Radiation Oncology policies and procedures regarding the the type of checks that are to be performed

No one except the patient under treatment shall be in the accelerator room when the beam (x-ray or electron) is energized. When a patient must be held in position for radiation therapy, mechanical supporting or restraining shall be used.This is a North Carolina Regulation for the Protection Against Radiation, 15A NCAC 11 .0609(e)(2).Absolutely NO exceptions to this rule.

LINAC Emergency ProcedureIn the event of any malfunction of the treatment unit(s) (mechanical, electrical, or otherwise) which may prove hazardous to the patient, therapist or the any member of the public:

1.Press any emergency off button.2.Remove patient and other personnel from vault.3.Close accelerator door.4.Call the Radiation Safety Officer AND the Medical Physicist listed below.5.Remain at the console and prevent entry of personnel into vault until problem has been resolved, if possible.

Emergency Call ListMedical Physicist:Melodee WolfeBeeper: 754-3422Home: 524-5720Claudio SibataBeeper: 561-9445Home:412-2875

Radiation Safety Officer:

Marcus JeannetteBeeper: 757-5056Home: 258-8005

One Last Thought to Remember!Radiation protection is not just the responsibility of management, the Radiation Safety Committee, the Radiation Safety Officer or co-workers, it is all of our responsibility.

ReferencesThe North Carolina Regulations for the Against Radiation May be found at the following Website:

http://ncradiation.net/documents/15ANCAC11_1107.pdf

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