Posts Tagged ‘metal’

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MRI Safety Planning Season

Tuesday, October 14th, 2008

Ahh the four seasons… Winter, Spring, Summer, and MRI Safety Planning.

What, you’ve only heard it referred to as ‘Autumn‘ before? Well, that’s not terribly surprising. We’re so inundated with honorary days, weeks, and even months, that the season of MRI Safety Planning fails to get its fair share of media time. But here’s why MRI Safety Planning season should be tops on your list right now.

First, while there is a growing awareness of MRI Safety Week, a single week doesn’t really afford the time needed to plan for improvements to MRI safety. Real improvements come from refinements in operations and process, coupled with effective tools and training. That sort of interdisciplinary approach often requires more than a couple days to put together.

Second, MRI Safety Week falls in the middle of summer when budget-wrangling loses the attention-span battle to thoughts of barbecues and coco-butter suntan lotion. It is precisely now, when so many organizations are hammering out their financial priorities for next year’s budget, that MRI safety planning should be in full-swing.

By combining the operations planning with the budgeting, you can reap some real multi-task benefits from these synergistic efforts, and – buoyed by the support of our whole Mednovus organization – I’m here to help you make it as productive as possible.

When making your MRI safety plans, it’s important to know what new criteria are going to be expected of your facility. Accrediting bodies are all looking at MRI safety in a new way, and this is starting with the Joint Commission’s Environment of Care requirements, effective January of 2009.

There is also the flurry of recent MRI safety Best-Practice recommendations from a number of documents, all of which should be part of the Administrator / Technologist library of reference materials. One common element to the Joint Commission’s Sentinel Event Alert #38, the ACR’s Guidance Document for Safe MR Practices, and the recent Veterans Administration MRI Design Guide, is the recommendation for the use of ferromagnetic detection (see below).

While ferromagnetic detection systems can be readily incorporated into both new and operational MRI facilities with minimal muss & fuss, even the most easily-installed and cost-effective systems typically require advanced budgetary planning.

The upshot? Please start thinking today about your planned MRI safety improvements for 2009 and budget accordingly.

Whether you’re considering the newly-released Mednovus Sentinel® GS 2.0 portals (both the 24-inch Patient Sentinel® GS 2.0 and the 48-inch Entry Sentinel® GS 2.0) or our SAFESCAN® hand-held Target Scanner™ (or the optimal combination of both), it would be a privilege to be at your service.

We at Mednovus are delighted to announce our new association with Siemens Medical Solutions, a world leader in MR imaging, and we encourage you to contact your local Siemens sales rep to get product quotes for your budgeting purposes. Alternatively, simply let us know where you are located, and we will put you in touch with the appropriate Mednovus product expert from Siemens’ national accessories division. Contact us soon so that we can arm you with the information you need to secure MRI safety improvements in next year’s budget.

Yes! Please put me in touch with the right Siemens’ accessories product expert!

By reviewing your current MRI safety protocols against published best-practices, and soon-to-be accreditation standards, you can prioritize the areas for improvement in 2009. In many cases, no-cost operational changes will help you achieve your goals, but whether it’s a new MRI-friendly infusion pump, improved signage, or the thrice-recommended ferromagnetic detector, you will probably need to have a few MRI safety line-items in next year’s budget.

Please contact us if we can be of any assistance in helping you with your observances of MRI Safety Planning season.

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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Posted in Ferromagnetic Detection for MRI Safety | 1 Comment »

Inside The Scanner Room? Too Little, Far Too Late!

Sunday, September 28th, 2008

Many facilities planning for ferromagnetic detectors, particularly existing MRI providers who must retrofit the new technology into tight-fit suite layouts, have a hard time finding optimal locations for the new MRI pre-screening instruments.

Real estate within the outer walls of the hospital is at such a premium that a good proportion of MRI providers are already working within MRI suites into which their large (and frequently growing) operational requirements have been shoehorned-in. They could really do with several hundred additional square feet, so the addition of anything to the suite can trigger a domino series of complications.

Pass-through ferromagnetic detection portals, such as the Mednovus Sentinel® series products, can be sited as either free-standing or doorway-mounted instruments. One caveat for doorway-mounted versions is that the door should not swing through the aperture of the portal (door hardware, even on most RF-shielded doors for MRI suites, has ferromagnetic components and would set off the detector). This means that there is one side of the doorway that is ill-suited to receive a mounted portal.

For MRI suites where space is already at a premium, it is sometimes felt that mounting a ferromagnetic detector at the door into the magnet room is the only place where both existing operations and available space will permit.

But if the door to that room swings out (as is currently recommended by the majority of MRI equipment manufacturers), can you put the detector on the other side of the doorway; on the inside of the MRI scanner room? Physically, yes, you can put the instrument there. Physically, you could also use your MRI scanner room as a waiting area for patients with unknown medical implants and devices, but both ideas would have grave dangers.

The intention of ferromagnetic detection is to alert you to the presence of magnetically attracted materials before they get close to the magnet. Placing a ferromagnetic detector inside the room would only be less effective if were mounted at the face of the bore of the magnet.

Since it often takes a moment to react to the alarm of a ferromagnetic detector, the step or two that a person may take past the ferromagnetic detector isn’t typically a problem outside the MRI scanner room, but in the room where inches can make enormous differences in the magnetically attractive effects, those couple steps can make the difference between avoiding an accident or cleaning-up after one.

Couple the compromised effectiveness with the fact that – at one time or another – everything needs servicing, and you’ve introduced another object into the MRI scanner room that may necessitate servicing from workers with tools. The attempt at increasing safety has actually introduced a new opportunity for accidents.

Lastly, MRI equipment manufactures are (justifiably) nervous about the introduction of equipment into the room which supports the MRI scanner. Does this other equipment emit RF noise that might interfere with the MRI images? Is it going to compromise the function of the scanner? Will the magnetic fields of the scanner adversely effect the other equipment?

In response to these concerns, MRI equipment vendors typically prohibit equipment or devices that haven’t been tested and deemed non-disruptive. Even just placing a ferromagnetic detector inside the MRI scanner room would very likely void significant portions of your MRI manufacturer’s warranty.

The fact is that there are often alternate locations for siting of a pass-through ferromagnetic detectors. It may take a little creative thought or a willingness to slightly modify operational protocols, but typically there are a handful of possibilities for each site. There is no reason – whatsoever – to place a ferromagnetic detector inside the MRI scanning room, and it is extremely ill-advised to do so.

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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Posted in Ferromagnetic Detection for MRI Safety | 1 Comment »

MRI Patient Pre-Screening

Sunday, August 31st, 2008

Ferromagnetic detection is a vital part of the pre-screening for persons about to enter the MRI magnet room, but it’s only one part of the overall sequence.

First, before we jump into the issue of where in the sequence ferromagnetic detection is best deployed, it’s important to break pre-MRI screening into its two constituent parts: clinical screening and physical screening.

Clinical Screening:

Before being brought to the MRI magnet, everyone (and this means patients, visitors and staff) needs to be screened for contraindications. Most often we think of pacemakers, but other contraindications include nerve stimulators, insulin pumps, prosthetics, halo vests, and a number of other objects. The screening is typically accomplished through the use of forms to help the subject identify any clinical risks for the MRI provider. The screening form is then to be reviewed between the patient and the MRI Technologist.

Once clinically cleared of contraindications for the MRI exam, then the subject should proceed to the next step…

Physical Screening:

Contrasted with the widespread uniformity of the clinical screening, the physical screening takes very different forms at different provider. However, all have the same objective, namely, to remove ferromagnetic materials from the subject and keep them away from the MRI scanner. Even small quantities of ferromagnetic material can cause artifacts in the MRI scan when near the imaging volume. Small ferromagnetic items, such as bobby pins and nail clippers, have caused serious harm when propelled by the magnetic force of an MRI magnet. And obviously, large items such as oxygen cylinders and floor polishers can have catastrophic consequences if brought to the MRI room.

Some MRI providers have outpatients simply empty their pockets, others provide gowns or scrubs for MR patients to change into, and all should use ferromagnetic screening to help verify patients’ compliance with screening instructions.

When performed in the above order, providers avoid gowning patients only to find out that the patient can’t receive the MR exam. Additionally, when clinical screening is accurately completed first, the Technologist has done everything within his or her human capabilities to mitigate the contraindication risks associated with exposure to magnetic fields. Although it is impossible to completely eliminate the chances of accidents, by following the recommended industry-standard procedures of  conscientious clinical and physical screenings followed by properly-performed ferromagnetic detection, the safety of your MRI center has been significantly enhanced.

Some of the most sensitive ferromagnetic detectors currently available use passive magnetic fields to improve sensitivity. These GS (Greater Sensitivity) detectors use a localized DC field (i.e. stronger versions of a similar type of the permanent magnet that holds your notes on your refrigerator door). While the magnetic field strength very close to the GS detector can exceed the 5-gauss threshold, that limit is for persons who haven’t been successfully cleared for MRI contraindications (a step which was just completed if the pre-MRI screening was conducted in the proper order).

While patients and caregivers should be concerned about exposing unscreened persons to the extraordinarily powerful magnetic fields around the MRI, momentary exposure of post-screened persons to the passive “fridge-door” magnetic fields of a GS ferromagnetic detector is very, very small on the relative risk-o-meter. And this minute risk comes with an enormous potential safety upside…

No ferromagnetic detection system on the market from any manufacturer is intended (or approved) for finding objects internal to the body of the patient. However as an incidental finding, ferromagnetic detectors have alarmed on the ferromagnetic content of implants (including pacemakers) that were disavowed by the patient in the clinical screening process. While ferromagnetic detection should never be used in lieu of conscientious clinical screening, they have helped to identify critical contraindications that may have otherwise jeopardized the safety of the MR patient — had they not been found by the ferromagnetic detector.

And the relative risk of being exposed to 5, 10 or even 100 gauss as a part of a physical pre-screen (particularly when already cleared of clinical contraindications) is microscopic, when compared to either the risk of the planned exposure to 15,000 / 30,000 gauss, or the potential benefit of identifying a contraindication that the patient themselves didn’t communicate.

The take-home messages from this are these:

  • MRI providers should provide as thorough and comprehensive clinical screening as humanly possible for everyone approaching the MRI.
  • Once the clinical screening is complete, the provider’s standard physical screening (emptying pockets, changing into scrubs, etc…) should be conducted as appropriate to the MR patient / visitor.
  • And following the clinical and physical screenings, patient / visitor compliance should be verified with a ferromagnetic detector.
  • If these industry-standard procedures are correctly followed, there should remain only minute (accepted) risks associated with exposure to any magnetic field, either the enormous field of the MR or the comparatively tiny field present in GS detectors.

Clearly, providers should feel free to use whatever ferromagnetic detection they wish – from their choice of manufacturer – in order to conform with ACR, VA and Joint Commission guidance, whether it be an instrument which relies on only the trace-magnetism of the Earth’s own magnetic field, or one in which the detection sensitivity has been enhanced through the use of a locally-provided, passive DC magnetic field as found in GS ferromagnetic detectors.

My recommendation is always to use a detector with the greatest possible sensitivity. Because, while they are wonderful instruments that can make a substantial improvement in a provider’s MR safety protocols, ferromagnetic detectors are dumb. They can’t differentiate ‘good’ ferromagnetic material from ‘bad’. These sorts of value judgments should be made by a trained MR technologist and not by a machine.

In my opinion, ferromagnetic detectors should be used to help find every piece of ferromagnetic material that they can, so that the Technologist knows what is about to enter their magnet room (and can make re-screening decisions as appropriate). The greater the sensitivity of the detector, the more informed those Technologist decisions will be.

Pass-through ferromagnetic detection systems, such as the newly released Mednovus Sentinel® GS 2.0 portals, also have user-adjustable sensitivity settings, so that the system can be ‘dialed back’ as needed for special circumstances, further supporting the concept of having the instrument with the greatest sensitivity, and tuning it to meet your specific needs.

As evidenced by repeated, and increasing MRI projectile accidents, there is enormous room for improvement from the prior standards. Effective pre-screening of MRI patients, including the use of ferromagnetic detection at the appropriate point, can make an significant difference in the safety of the MR exam. Providers should turn to the current best practice guidance and compare their pre-MRI screening processes, making any indicated changes to help assure the safety of their patients, visitors, and staff.

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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Video Excerpt From Dr. Kanal’s AHRA MR Safety Presentation

Wednesday, August 20th, 2008

As mentioned in an earlier post, noted MR safety guru Dr. Emanuel Kanal gave a brilliant presentation at the 2008 annual meeting of the American Healthcare Radiology Administrators (AHRA). While his session, “MR Safety Update, 2008″ addressed several different MR safety issues, below is a video excerpt, which marries the audio recording with his presentation slides, showing information on ferromagnetic detection that Dr. Kanal presented.

Excerpt from Dr. Emanuel Kanal "MR Safety Update 2008" at AHRA [ 0:01 ] Play Now | Play in Popup | Download

Among the ACR Guidance Document on Safe MR Practices: 2007, the recent Joint Commission Sentinel Event Alert #38 on MRI Accidents and Injuries, and other standards and expert recommendations, it is abundantly clear that ferromagnetic detection is a potent part of an effective MR screening program.

A PDF transcript of the above video is available for download at http://MRImetaldetector.com/blog/wp-content/uploads/Transcript_of_Dr_Kanal_Edited_video.pdf.

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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Posted in Ferromagnetic Detection for MRI Safety | 1 Comment »

Do Hand-Held Magnets = Ferromagnetic Detection?

Tuesday, August 5th, 2008

In short, no. Hand-held magnets do not do the same job that ferromagnetic detectors do.

In many MRI facilities, foreign materials brought by people to the MR suite are tested for magnetic field hazards with high strength hand-held magnets. Ones designed specifically for MRI screening are far stronger than the ones holding up my daughter’s artwork on my refrigerator. Some of these ‘test’ magnets can be 1 Tesla at the surface (10,000 gauss)!

Example of hand-held MRI test magnet

These extremely powerful hand-held magnets can help users differentiate between superficial materials that are, and are not, ferromagnetic, but the extraordinary strength of these magnets introduces a number of additional cautions which limit their use.

First, the key word in the paragraph above is ‘superficial.’ The magnetic field of all permanent magnets drops off precipitously (field strength drops with the cube of distance… double the distance and the magnetic field is cut to 1/8th the original value), so permanent magnets will be useful for distinguishing ferromagnetic materials only at or near the surface of an object. Ferromagnetic components below the surface may go undetected by a hand-held magnet, but rest assured that the MRI will find them if those objects make it into the scanner room!

Second, the potential forces exerted on a ferromagnetic body with magnetic field strengths of near 1 Tesla mean that shallow ferromagnetic material within the body of the patient could be moved, perhaps dangerously, by these very strong magnetic forces. But if the purpose of screening is to prevent accidents instead of preemptively causing them, hand-held magnets are poorly suited for patient screening.

Third, if screening medical equipment instead of patients, even some pieces of equipment designed for use in MRI scanner rooms have maximum allowable static and dynamic magnetic field values. Sticking a 1 Tesla magnet all over an anesthesia machine may wind up having some unintended consequences with regard to operation.

Lastly, 1-Tesla magnets stick hard to things. While the hand held magnets aren’t weighty, their magnetic force can require a bit of elbow-grease to get them separated from the cart or medical gas cylinder to which they got stuck. No, it’s not like it becomes epoxied on, but wielding one of these high strength permanent magnets is not a trivial affair.

Each ferromagnetic detection product has its own limitations, so I’m not attempting to state that FMD systems are the perfect solution to the hand-held magnet problem. Hand-held magnets can be useful, in a limited range of uses.

When it comes to the recommendations of the ACR Guidance Document for Safe MR Practices, or the Joint Commission Sentinel Event Alert (#38) on MRI Accidents and Injuries, or the U.S. Veterans Administration’s new MRI Design Guide, the experts all seem to have recognized the benefits of ferromagnetic detection and made a clear distinction between the new technology and the old custom of using permanent magnets to test for safety.

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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Is Siemens Medical ‘On Board’ With Ferromagnetic Detection?!?

Sunday, August 3rd, 2008

MRI equipment vendor executives generally must be guarded about what they say to the media. We’ve all seen the cartoon depictions of the mini-angel and devil sitting on opposite shoulders of a person, lobbying for their own moral agenda. When I meet an executive from the MRI vendors, I imagine a very similar scene, only instead of angels and devils, I imagine a gaggle of attorneys advising the person as to what can and can’t be said, particularly in the realm of MRI safety.

So, it surprised me, more than a little, when I came across this gem…

“There must be metal detectors at the entrance to every room with a MRI device.”

Realizing that the speaker meant ferromagnetic detection, these words sound like ones that have passed my own lips, or those of noted MRI safety guru Dr. Emanuel Kanal. Imagine my surprise to learn that this statement was issued by none other than Walter Marzendorfer, CEO of Siemens’ MRI business unit.

The interview, which appears in the Israeli business publication ‘Globes’ [click here to go to the Globes interview], includes the statement about the magnetic field risks and the necessity of projectile detection to help mitigate the safety concerns.

Walter Maerzendorfer, CEO of Siemens MRI Business Unit “The main safety issue where MRI is involved is the fact that it is a magnet. Accidents happen when a doctor enters the MRI room with a scalpel in his pocket and bends over the patient. People forget. There must be metal detectors at the entrance to every room with a MRI device.”

–Walter Marzendorfer, CEO of Siemens’ MRI business unit

I believe that Siemens Medical worldwide views this statement with the same unequivocal eye with which I read it, and that ferromagnetic detection will be offered for Siemens MRI installations.

Stay tuned as the MRI vendor situation develops!

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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Subscribing To The MRI Metal Detector Blog

Saturday, August 2nd, 2008

Alright folks, time for just a moment of ‘under the hood’ talk about this blog and how to get the content as easily as possible. Absolutely, you can point your browser here and see what’s new, but you can also have the entries catalogued for you, available as individual stories. This ‘snackable’ format is available via RSS (Real Simple Syndication), another internet 3-letter acronym which essentially means you’ve subscribed to the MRI Metal Detector Blog in the electronic equivalent of having the Sunday paper delivered to your doorstep.

Now, to read the MRI Metal Detector Blog, you’re coming to the newsstand, but if you want ‘home delivery’ all you need to do is click to have this content available on demand and indexed in a pull down menu in your browser. Myself, I have BBC news and the MRI Metal Detector Blog set up as RSS feeds in my browser, Firefox. But you don’t have to have Firefox, there are RSS features either already built-in or quick plug-in augmentations for every other browser. Or, you can have RSS info piped to your Google home page or other personalized websites.

To get started using RSS, all you need to do is scroll all the way down to the very bottom of this page. In the footer of the page you’ll see some stuff about Podpress (the software that makes bringing you this blog so darn easy) and also a couple of links for RSS subscriptions. I encourage you to click on the ‘RSS entries’ text link and set yourself up for a regular supply of direct-delivered MRI Metal Detector Blog content.

While I’m not a computer guru, I am happy to help out as best I can with anyone having difficulty getting up and running with a RSS feed.

If you have any questions about this blog, either content or the technical voodoo that makes it work, please don’t be shy about contacting me. You can either post a comment to one of these entries  (which I get and read each and every one) or you can send me an email as my address is at the foot of each blog entry I make.

Thank you for joining the MRI Metal Detector Blog and for your efforts to improve safety of MRI exams for patients, staff, and the MRI provider.

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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Posted in Ferromagnetic Detection for MRI Safety | 2 Comments »

Ferrous Metal Detectors – The Technologist’s Best Friend

Thursday, July 31st, 2008

Change is often difficult, especially when we’re asked to change the ways in which we do things and the change doesn’t appear to have any direct, personal benefit.

Employees will be required to park in “Lot K” beginning on September 1st.’

The company has switched health insurance providers and you will receive your new card in the mail in 4 – 6 weeks.’

All persons entering the MRI scanner room must successfully clear a ferromagnetic screening.’

Except that sometimes, things that don’t appear to be in our best interests in fact are to our personal benefit, and ferromagnetic detection is one of them.

First, let’s dispel the myth that ferromagnetic detection is somehow there to ‘grade’ the screening effectiveness of the Technologist. The fact is that most of the time when ferromagnetic material makes it through the screening process it is because the person bringing it failed to comply with instructions that they’d been given!

Yes, there are differences among Technologists and some are more thorough than others, going beyond the standard screening forms. But time and time again we find that projectile accidents are compliance lapses on the part of patients, visitors, contractors, transport, housekeeping, anesthesiology and the myriad of others who come to the MRI suite.

If you had a tool to verify that patients complied with your critical safety instructions, wouldn’t you want to use it?

So, ferromagnetic detection is – first and foremost – present to make sure that patients, staff and visitors comply with the MR Technologist’s instruction. An alarm on your ferromagnetic detector should be viewed as a patient compliance issue.

Second, ferromagnetic detectors help to protect Technologists (and medical directors, and radiology administrators) from liability. The civil lawsuit resulting from the death of the young boy in a 2001 MRI accident personally names the two Technologists and the medical director for the MRI provider. Even if they aren’t found to have any individual civil liability in the trial, they’ve already had a multi-million dollar lawsuit hanging over their heads for the last 6 years or so.

While the presence of a ferromagnetic detector won’t transform an MRI provider into a guaranteed accident-free site, when used effectively these instruments can dramatically improve compliance with the Technologist’s instructions and help reduce the likelihood of future ferromagnetic projectile / missile accidents.

Maybe there’s a silver lining to having to walk the extra two blocks from the newly designated employee parking lot or switching healthcare insurance companies (then again, maybe there isn’t), but there should be no question that ferromagnetic detectors are definitely in the best interests of Technologists, radiology administrators, and MRI medical directors.

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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VA Calls For Ferromagnetic Detection In New Design Guide

Tuesday, July 15th, 2008

The last time the United States Veterans Administration issued an update to their MRI Design Guide was 1996, which seems to be about 50 years in the MRI world. Just this past week, however, they made up for lost time and did so in a big way!

The new VA MRI Design Guide takes a quantum leap in addressing new technologies, new clinical practices and new tools and tactics for enhancing the safety of patients and staff. One of these new strategies includes the use of ferromagnetic detection systems for MRI patient screening.

The new Design Guide is fully downloadable in PDF form in four individual sections from the VA’s website:

http://www.va.gov/facmgt/standard/dg_imag.asp

Or, you can download the complete document, rolled into one PDF, from the Mednovus website:

http://www.Mednovus.com/downloads/VA_MRI_Design_Guide-08.pdf

The VA joins a growing list of professional bodies, accrediting agencies and organizations recommending the use of ferromagnetic detection for patient screening.

In a forthcoming entry I’ll feature quotes from and links to these various standards calling for the use of ferromagnetic detection to enhance MRI patient screening.

Regards,

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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The Costs Of MRI Accidents (And How To Help Avoid Them)

Thursday, July 10th, 2008

I mentioned in a prior post that projectile accidents, ones in which ferromagnetic objects get sucked to the extraordinarily powerful MRI magnets, are expensive. We’re not just talking cab fare here. Not even a fancy night out. We’re talking easily 6-figure price tags for repair and service, plus tens-of-thousands in lost revenue and operational expenses.

Here’s a perfect example that made the local news in Seattle a few years ago…

Floor Polisher vs. Seattle Area Hospital's MRI [ 0:01 ] Play Now | Play in Popup | Download

$200,000! And that was probably just the repair bill and didn’t count the ongoing expenses such as the scheduled staff’s salaries, the cost of the machine and the service contract (which, by the way, wouldn’t cover this type of accident), and the $1,000 per hour that the hospital failed to bring in by performing MRI scans.

“Uhh, Mr. Jones we could probably squeeze you in if you don’t mind if we cover your body in Crisco so that we can slide you past the floor polisher that’s wedged in the front of the opening to the MRI scanner.”

And at $10,000 – $15,000 per day in lost revenue (and probably something approaching that for ongoing operational expenses) the immediate indirect costs probably start to rival the direct repair costs. Then add on the fact that the accident made the evening news. How many patients over the next several days and weeks canceled their appointments (or worse, simply didn’t show up) out of a fear that the MRI at the hospital was unsafe??

The shocking truth is that these sorts of accidents occur all the time. MRI providers can be faced with up to a half-million dollars in costs just from one overzealous housekeeper with a floor polisher.

Why do floor polishers and oxygen cylinders (and a whole laundry list of other items) repeatedly get sucked into magnets and cause so much damage? It’s usually because people are either unaware of the fact that there is a risk from these super-strong magnets, or because they mistakenly think that the object that they’re carrying is safe in the MRI room. In either case, a ferromagnetic detector could provide the feedback needed to alert the patient, support staff or physician that they have something on their person that may prove to be a major threat to the MRI scanner.

Tobias Gilk, President & MRI Safety Director
Mednovus, Inc.
Tobias.Gilk@Mednovus.com
www.MEDNOVUS.com

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