The EMS Today conference is always filled with interesting content both in the classrooms as well as the show floor. My live Twitter feed during the conference referenced highlights of the educational sessions I attended ranging from the Operational category to Advanced practice and even some Basic courses. The complete experience shared by everyone is permanently archived with the official #EMSToday hashtag.
I traveled the exhibit hall several times last month looking for innovative and practice-changing technology. There was plenty to be found and the “best” will always be subjective. While these are some that I felt were worth sharing, others may have found significant gems I missed. If you were also there, please feel free to use the comment section below to add your own impressions of what you see as important in changing the practice of our field of EMS.
One of my favorite sessions at any national EMS conference is when you can find a gathering of even a small number of “Eagles” (the top Medical Directors from around the country.) The lightning round of “The Eagles Unplugged” presentations in Charlotte was on February 22, just a week before the huge international Gathering of Eagles in Dallas. One of the first topics requested by the audience was on “spinal immobilization” (or in deference to my friend Rommie Duckworth, the proper term should arguably be “spinal stabilization”.) There was certainly no love in that packed room for most techniques or devices currently in use. In fact, the emphatic consensus statement was that there is simply no literature that shows any benefit to current spinal motion restriction while there are plenty of documented complications.
In regards to spinal stabilization, everyone in the room agreed that the long spine board is gone and immobilization currently consists of just a collar. However, there was no consensus on what that collar should look like while there was no shortage of complaints for what is currently on the market. One of the JEMS “Hot Products” from EMS Today in 2017, however, was the SIPQuik vacuum cervical splint from Care 2 Innovations which I only got to play with this year. Basically, it is a collar-shaped bag filled with tiny styrofoam beads and a generous velcro strap. It has several advantages in that it fits a wide variety of patients and will conform closely to the shape of the neck to provide gentle support in any position. Unlike rigid collars that require the head to be placed in the neutral position for stabilization, the SIPQuik can wrap around the neck and be secured comfortably snug with the strap before the collar is molded to support the head while the air is vacuumed from the collar. The beads are held tightly in place to provide support that minimizes the possibility of further injury. Removing the manual pump without locking the air tube will allow air to reinflate the collar for easy removal.
Several sessions, and exhibitors, included discussions of safety for care providers while working on the road. In America, we tend to love the large square box we call the patient compartment in our Type I and Type III transport vehicles. The size of the box and position of supplies and equipment requires a significant range of motion and most providers roam about unrestrained. Traditional safety belts are already available in every seat, however, they are just too cumbersome to apply and too restrictive to be used. At least this was my thinking until I placed by arms into the new 6-point “Back Pack” belting system on the EVS2160BPB from Emergency Vehicle Seating, Ltd. Unfortunately, the Back Pack system is not advertised on their website yet, but if you are interested, they will know what you are asking about if you contact them.
The shoulder straps were as easy to apply as simply slipping my arms through the loops. But the range of motion was incredible and allowed me to stand up fully and reach clear across my imaginary patient to where I would expect cabinets to be on the other side of the room – while still wearing the shoulder straps and even the lap belt! As I return to the seat the straps automatically tighten and should the vehicle have an accident, the belts would immediately tighten to prevent my head from crashing into those same cabinets across my patient. This quick and easy seat belt access is certified to meet all safety standards of FMVSS and SAE while providing maximum flexibility for the care of my patient. Two EVS1790 captain’s style chairs in place of the typical bench seat also allows comfortable and safe crew seating or can be rotated and tilted forward to allow the transport of a second patient on the non-skid back surface of the seats. Clearly, EVS has been giving plenty of thought to where we put our butts.
Another one of the hottest topics in prehospital treatment of trauma has to be the use of tourniquets and binders. I really thought that the poplar military-style tourniquet had not changed significantly from the belt and windlass configuration of decades ago, but there have been innovations here as well.
The S.T.A.T. Tourniquet is probably the greatest revolution in design. It comes in both a pediatric and adult size, but immediately conjures up the ubiquitous zip tie. It is wrapped around the limb above the injury and the end is inserted and pulled as tight as needed (in 2mm increments) to easily adjust. Although it looks like a zip tie, it is anything but what you find in the hardware store however. It is a wider design to prevent cutting into the skin and the material is a stretchier rubber to hold fast and evenly to secure blood flow. It also has a simple timer that can be activated when applied to measure half hour increments up to a max of 2 hours. Like the common zip tie it resembles, it can be used in combination to create a larger band or used in a series for splinting too. One major difference from the traditional zip tie is that this model also has a release tab to remove the tension. The simple design and lower cost compared to a traditional windlass system makes it ideal for public use in an MCI situation as part of a hemorrhage control kit. S.T.A.T. Medical Devices even sells them preloaded on a carabiner in a quantity of 25 tear-off tourniquets.
In case that style of tourniquet design is just too revolutionary, the folks over at SAM Medical have evolved the traditional tourniquet design by adding TRUFORCE Buckle technology to auto-lock the tourniquet during application. Slack in the tourniquet is the main cause of application failure requiring extra time twisting the windlass or even restarting the application. The SAM XT is designed to
require 33 pounds of force to engage two pegs that hold the strap before it is Velcro-ed together and the windlass can be engaged to stop the bleeding. This makes application easier and quicker. They also have a junctional tourniquet to stop pelvic hemorrhage. And my favorite model is the SAM Pelvic Sling II to comfortably apply the correct force to stabilize pelvic fractures. The design looks similar to the SAM XT tourniquet, but uses a patented AUTOSTOP buckle instead that ensures that the optimal compressive force is reached to confirm correct application. It is more expensive than a hospital sheet, but it provides confidence and comfort in a professional design.
I was also impressed by the Water-Jel Burn Dressings which provides a cooling gel (that is water-based, bacteriostatic and biodegradable) that actually stops the burn progression by actively cooling the skin and relieving pain rather than simply covering the wound to protect against airborne contamination. These dressings come in several different sizes and have a shelf-life of 5 years. The other great feature of these dressing is that each dressing has a Total Body Surface Area (TBSA) icon that indicates approximate total body surface area covered with the use of that particular dressing to improve your estimates of the body area covered.
Finally, to reduce medication calculation errors in pediatric patients, CertaDose provides syringes printed with color bands that match the Broselow tape used with younger patients. These syringes are clinically proven to reduce critical dosing errors by labeling the correct dosage directed on syringes labeled by the medication to be administered. Simply select the correct drug, match the color zones according to the Broselow tape and draw up the correct dosage.
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