Month: February 2022

25 Feb 2022
Medical equipment. In the room of computed tomography at hospital.

What are Radiation Medical Events and How to Prevent Them

The use of radiation in medicine via radiology, nuclear medicine, and radiotherapy helps detect and treat a variety of medical conditions in humans. It is a commonly used practice, with over 10 million procedures performed in the United States each year and thousands of lives saved as a result.

When radiation is administered improperly it is classified as a radiation medical event. A radiation medical event can occur when certain forms of radioactive sources are applied differently from what was intended or prescribed.

Although a radiation medical event does not necessarily result in harm to the patient, it does indicate that there is a potential problem in the medical facility’s use of radioactive sources (materials or equipment). An investigation into the event is required as soon as a medical event is suspected, typically by a clinical health physicist, as well as a written report documenting their findings.

What is a Radiation Medical Event?

The NRC defines an incident as a radiation medical event when (10 CFR 35.3045) the administration of byproduct material or radiation from byproduct material for, except permanent implant brachytherapy, results in—

  1. A dose that differs from the prescribed dose or dose that would have resulted from the prescribed dosage by more than 0.05 Sv (5 rem) effective dose equivalent, 0.5 Sv (50 rem) to an organ or tissue, or 0.5 Sv (50 rem) shallow dose equivalent to the skin;
    • The total dose delivered differs from the prescribed dose by 20 percent or more; or
    • The total dosage delivered differs from the prescribed dosage by 20 percent or more or falls outside the prescribed dosage range; or
    • The fractionated dose delivered differs from the prescribed dose for a single fraction, by 50 percent or more.
  2. A dose that exceeds 0.05 Sv (5 rem) effective dose equivalent, 0.5 Sv (50 rem) to an organ or tissue, or 0.5 Sv (50 rem) shallow dose equivalent to the skin from any of the following—
    • An administration of a wrong radioactive drug containing byproduct material or the wrong radionuclide for a brachytherapy procedure;
    • An administration of a radioactive drug containing byproduct material by the wrong route of administration;
    •  An administration of a dose or dosage to the wrong individual or human research subject;
    • An administration of a dose or dosage delivered by the wrong mode of treatment; or
    • A leaking sealed source.
  3. A dose to the skin or an organ or tissue other than the treatment site that exceeds by:
    • 0.5 Sv (50 rem) or more the expected dose to that site from the procedure if the administration had been given in accordance with the written directive prepared or revised before administration; and
    • 50 percent or more the expected dose to that site from the procedure if the administration had been given in accordance with the written directive prepared or revised before administration.
  4. For permanent implant brachytherapy, the administration of byproduct material or radiation from byproduct material (excluding sources that were implanted in the correct site but migrated outside the treatment site) that results in—
    • The total source strength administered differing by 20 percent or more from the total source strength documented in the post-implantation portion of the written directive;
    • The total source strength administered outside of the treatment site exceeding 20 percent of the total source strength documented in the post-implantation portion of the written directive; or
    • An administration that includes any of the following:
      1. The wrong radionuclide;
      2. The wrong individual or human research subject;
      3. Sealed source(s) implanted directly into a location discontiguous from the treatment site, as documented in the post-implantation portion of the written directive; or
      4. A leaking sealed source resulting in a dose that exceeds 0.5 Sv (50 rem) to an organ or tissue.
  5. Intervention of a patient or human research subject in which the administration of byproduct material or radiation from byproduct material results or will result in unintended permanent functional damage to an organ or a physiological system, as determined by a physician.

Radiation Medical Event Reports

Any of these medical events must be reported by telephone to the appropriate regulatory agency (i.e., Nuclear Regulatory Commission or Agreement State agency) no later than the next calendar day after discovery. A detailed written report, as described in 10 CFR 35.3045, must be submitted within 15 days after the discovery of the event. Such reports do not include information that could identify the affected patient as these reports are made available to the public.

medical event report

While medical events are accidental, it should be noted that a radiation medical event and a radiation accident are not the same things. Radiation accidents are defined as an event that “has led to significant consequences to people, the environment, or the facility,” such as a nuclear reactor core melt.

The purpose of medical event reporting is to initiate a process that will: (i) determine the root cause(s) and contributing cause(s); (ii) implement immediate corrective actions as may be necessary; (iii) identify preventative actions necessary to prevent a reoccurrence, and (iv) ensure appropriate notification of the patient and referring physician has occurred.  Additionally, the event may trigger the regulatory agency to alert other licensees to a potential problem that should be addressed.   

A medical event may indicate that there are problems within a facility that needs to be addressed. Communication problems, improper labeling, lack of training, and basic human error are all possible explanations.

An investigation into the technical aspects of the procedure, overall quality assurance practices (i.e., audits), and treatment delivery are required. A physician may also need to provide a separate analysis of potential injury or inadequate treatment to determine if any harm came to the patient because of the medical event.

Other medical event reports include:

  1. Report and notification of a dose to an embryo/fetus or a nursing child (10 CFR 35.3047) This includes an unintended dose to an embryo/fetus or a nursing child greater than 5 rem resulting from administration of a byproduct material to the mother/breast feeding individual. No report is required if the dose to the embryo/fetus was approved by the authorized user; or
  2. Report of a leaking sealed source (10 CFR 35.3067). The written report should include the model number, serial number, the radionuclide and its estimated activity, the date and results of the leak test, and the action taken.

How Are Patients Notified of a Medical Event?

NRC regulations state that it is the licensee’s responsibility to notify the exposed individual and their referring physician of the medical event within 24 hours of its discovery. If the notice is made verbally, the patient can request a written notification as well as access to the full report.

Severe events are rare, and harm is unlikely to befall a patient involved with a radiation medical event. However, it is important that the individual receive the appropriate medical care as soon as possible if needed.

Radiation Medical Events Can Be Prevented

With proper continuing education training, regular machine and technology upkeep, a working standard operating procedure, and efficient reporting systems, radiation medical events can be prevented.

It also helps to have a third-party consultant who can identify potential problems in your radiation safety program.

The team at Versant Physics is trained and equipped to help radiology departments and medical facilities prevent radiation medical events. Our board-certified medical and health physicists can help by performing acceptance testing of radiation-producing machines, conducting regulatory compliance audits, performing shielding evaluation and design calculations, and leading training opportunities.

Contact our regulatory team to discuss your radiation safety program needs.

Further Reading:

07 Feb 2022

How to Increase Dosimetry Compliance Rates with Versant Physics Proven Management Process 

One of the many responsibilities of a Radiation Safety Officer is to manage their facility’s personnel dosimetry program and monitor the exposures of the radiation workers employed there. This may seem like a simple task; however, it can be a challenge to get workers to wear and exchange/read their dosimeters in accordance with state and federal regulations. This leads many RSOs to wonder if it is possible to improve dosimetry compliance rates, particularly in large programs that have hundreds of occupationally exposed individuals to monitor. 

With the right dosimeter and the right management process, improving dosimetry compliance rates is very possible, regardless of the size of your dosimetry program.

Below we explain the common problems associated with traditional methods of personnel dosimetry program management, as well as offer a solution for improving your dosimetry compliance rates without increasing costs or workload for your staff.

The Problem with Traditional Methods of Dosimetry Management

Dosimetry is one of the key elements of a radiation safety program, but it can also be one of the biggest headaches for Radiation Safety Officers and Environmental, Health, and Safety managers. There are several problems with traditional methods of dosimetry management that managers often encounter, including:

  • A time-consuming badge collection and redistribution process
  • High costs of running a badge monitoring program
  • Time between when an exposure or anomaly is received and when an individual is made aware of the exposure
  • Keeping track of historical dose reads and measurements
  • Efficient communication with wearers regarding read reminders, exceeding dose limits, and more

These problems can make an RSO feel as though they’re herding cats at worst and like they’re constantly one step behind at best. Juggling these many tasks within just one aspect of a radiation safety program, along with a variety of other responsibilities, it’s not hard to see why dosimetry compliance rates can be rather low.  

Versant Physics Personnel Dosimetry Management

Versant Physics manages personnel dosimetry programs a bit differently. In addition to using top-of-the-line electronic dosimeters that utilize the latest monitoring technology, our team of badge specialists and physicists combines customer service, technical support, and quality administration tactics to manage everything your program needs to run successfully. From ordering new badges to ensuring wearers read their badges promptly, our team’s management process is proven and effective.

Versant Physics also utilizes their proprietary radiation safety software Odyssey to manage the personnel dosimetry programs of their clients.

Personnel Dosimetry Management Module

Odyssey is a cloud-based software that features an entire module devoted to personnel dosimetry management. The module includes useful tools like a query builder for compiling data records and a Form Generator for easy management of Form-5s. The module also features a series of customizable widgets that allow users to visualize pre-set metrics in their program, including a User Watch List for wearers likely to exceed internal or annual dose limits, Read Activity, and Badges Communicated.

Instadose+ by Mirion Technologies

Personnel dosimetry programs managed by Versant Physics also utilize the Instadose+ dosimeter. These small, lightweight badges combine Bluetooth technology, Direct Ion Storage (DIS), and SmartMonitoring to wirelessly and remotely transmit radiation dose data. Mobile devices, such as a smartphone or tablet, as well as PCs or hotspot stations, assist with this process.

Instadose+ Dosimeter

Each dosimeter has a built-in memory chip with a unique serial code that is assigned to the specific wearer. The badges are assigned long-term, meaning they do not need to be sent in for processing at the end of a monitoring period. Instead, wearers are responsible for reading their badges per the monitoring period set up by their radiation safety program.

Reading the badge is easy and takes less than a minute to complete from start to finish. Wearers typically read their badge by opening the Instadose+ app on their mobile device and holding down the button on the back of the dosimeter for 5 seconds, or until the light on the top of the badge turns green. Readings are then stored within their secure account.

The Instadose+ allows for unlimited, on-demand dose reads, so wearers can complete this process as often as they desire. Not only is this useful from a dose history standpoint, but it also gives wearers the power to view their current and historical dose reads from their online account anytime they want. If they have a question or a concern, the answers are already at their fingertips.

Overall, the Instadose+ simplifies dose reads and makes them more accessible to the individual worker and radiation safety officer. This allows for improved dosimetry compliance across the board.

Its user-friendly read process, historical dose transparency, and accurate, reliable readings are some of the reasons why it is a key player in Versant Physics’ badge management process.  

Badge Administration

Our experienced technical support specialists are equipped to handle the entire badge management process. This includes ordering badges from the manufacturer to removing wearers from the program. They also handle:

  • Remote and/or in-person badge training
  • Initialization of badges
  • Vendor credentialing and attestation
  • On-site event support

Compliance Administration

Versant Physics assigns a physicist to each client to help drive program compliance. The physicist works with the program RSO to develop an effective plan for making sure wearers read their badges. In the event there is no program RSO, Versant Physics’ physicists can serve as in-house RSOs as well.

Together with the badge team, they are also responsible for: 

  • Regular communication with wearers (weekly, monthly, or quarterly)
  • Read-day reminders
  • Non-communicated follow-up reminders
  • Comprehensive monthly compliance reports
  • Dose monitoring
  • High dose alerts
  • Dose discussions with RSOs/workers

Consistent communication with wearers is a necessary part of improving overall dosimetry compliance rates. Depending on the monitoring period set by the program RSO, Versant Physics sends out scheduled read-day reminder emails. They also send follow-up emails to those that have not read their badge.

Furthermore, RSOs and program leadership are always kept in the loop as to where their program currently stands. This is done through the use of a comprehensive monthly report.

Versant Physics monthly report displays badges that have not submitted a reading during the monitoring period. It also lists duplicate badges, lost and defective badges, as well as any new badges that were assigned in that month. The report provides status updates on mid-month follow-up with wearers, an active wearer list organized by location, and high dose reports as well.

This report paints a clear picture of program compliance month over month and helps pinpoint areas of concern. It also addresses program elements that could be improved upon in the following months.

Customer Service and Technical Support

When issues arise or wearers experience problems with their badges, Versant Physics’ team of technical support specialists are trained and ready to handle them promptly. They will help with:

  • Badge troubleshooting
  • Issuing replacement badges
  • Phone and email support

Additionally, wearers have access to the Versant Physics support desk, where they can submit questions or concerns with their badges 24/7. All requests submitted by wearers and program personnel receive a response within 24-hours.

A Note on Radiation Dose Limits

Versant Physics clients can set their own dose limits for their employees (within the regulatory limits) depending on what works best for their program.

For example, some clients prefer to set specific limits for single doses. Others have more lenient thresholds that are measured quarterly. Whatever your program’s monitoring preferences are, Versant Physics is prepared to help you implement and manage them.

The Takeaway

Versant Physics badge specialists, physicists, and technical support teams provide efficient badge management catered to the needs of your program. With the help of the Instadose+ dosimeter, Odyssey radiation safety software, and years of experience managing dosimetry programs of all sizes, we can work with you to help improve dosimetry compliance rates in your program.

Contact our team to learn more about our badge management process and pricing.