Tag Archives: extrication

What Is The Safest Extrication Method From A Car Crash?

Today’s post is directed to all those prehospital trauma professionals out there.

Car crashes account for a huge number of injuries worldwide. About 40% of people involved are trapped in the vehicle. And unfortunately, entrapped individuals are much more likely to die.

There are four basic groups (and their category in parentheses) of trapped car occupants:

  • those who can self-extricate or extricate with minimal assistance (self-extrication)
  • individuals who cannot self-extricate due to pain or their psychological response to the event but can extricate with assistance (assisted extrication)
  • people who are advised or choose not to self-extricate due to concern for exacerbating an injury, primarily spine (medically trapped)
  • those who are physically trapped by the wreckage who require disentanglement (disentanglement and rescue)

Prehospital providers have several choices to help extricate patients in the second and third categories: encourage self-extrication, rapid extrication without tools, or traditional extrication, where the vehicle is cut away to allow egress. The fourth category always requires tools for extrication.

Although rescue services try to minimize or mitigate unnecessary patient movement, stuff happens. Large and forceful movement is considered high risk, but smaller movements do occur. This is of particular concern in patients who might have a spine injury.

There have been several recent papers suggesting there might be greater benefits to self-extrication. A group of authors in the UK and South Africa designed a biomechanical study to test these extrication methods in healthy volunteers.

The authors wanted to determine exactly how much movement occurred using the various extrication techniques. The volunteers were fitted with an Inertial Measurement Unit, which measures the orientation of the head, neck, torso, and sacrum in real-time.  The IMU can detect even minimal changes in the orientation of the body. The volunteers were placed in a standard 5-door hatchback sedans that were prepared for each type of extrication, as seen above.

Here are the factoids:

  • A total of 230 extrications were performed for analysis
  • The smallest amount of maximal and total movement of body segments was seen in the self-extrication group
  • The greatest amount of movement was found in the rapid extrication group, with 4x to 5x the movement in the self-extrication group
  • The difference in body movement between the self-extrication group and all others was significant
  • In general, movement increased as extrication techniques progressed from roof removal to B post removal to rapid extrication

The authors concluded that self-extrication resulted in the smallest amount of movement and the fastest extrication time and should be the preferred technique.

Bottom line: This is the first study that specifically evaluated spinal movement occurring with commonly used extrication techniques. Other similar studies have used various measurement techniques, none of which are as precise as this. One potential weakness with this one is that it used healthy volunteers. But obviously, it is not practical to attempt anything like this with real, injured patients. 

Since we know that patients trapped in cars are more likely to die, time is of the essence. This study shows that self-extrication is both fast and safe with respect to spinal movement. The information will assist our prehospital colleagues in making the best decisions possible when faced with patients trapped in their cars.

Reference: Assessing spinal movement during four extrication methods: a biomechanical study using healthy volunteers. Scand J Trauma  open access 30: article 7, 2022.

What Is The Safest Extrication Method From A Car Crash?

Today’s post is directed to all those prehospital trauma professionals out there.

Car crashes account for a huge number of injuries world-wide. About 40% of people involved in them are initially trapped in the vehicle. And unfortunately, entrapped individuals are much more likely to die.

There are four basic groups (and their category in parentheses) of trapped car occupants:

  • those who can self-extricate or extricate with minimal assistance (self-extrication)
  • individuals who cannot self-extricate due to pain or their psychological response to the event, but can extricate with assistance (assisted extrication)
  • people who are advised or choose not to self-extricate due to concern for exacerbating an injury, primarily spine (medically trapped)
  • those who are physically trapped by the wreckage who require disentanglement (disentanglement and rescue)

Prehospital providers have several choices to help extricate patients  in the second and third categories: encourage self-extrication, rapid extrication without the use of tools, or traditional extrication where the vehicle is cut away to allow egress. The fourth category always requires tools for extrication.

Although rescue services try to minimize or mitigate unnecessary movement of the patient, stuff happens. Large and forceful movement is considered high risk, but smaller movement do occur. This is of particular concern in patients who might have a spine injury.

There have been a number of recent papers suggesting there might be greater benefits to self-extrication. A group of authors in the UK and South Africa designed a biomechanical study to test these methods of extrication in healthy volunteers.

The authors wanted to find out exactly how much movement occurred using the various extrication techniques. The volunteers were fitted with an Inertial Measurement Unit, which measures the orientation of the head, neck, torso, and sacrum in real time.  The IMU can detect even very small changes in orientation of the body. The volunteers were placed in a standard 5-door hatchback sedans that were prepared for each type of extrication as seen above.

Here are the factoids:

  • A total of 230 extrications were performed for analysis
  • The smallest amount of maximal and total movement of body segments was seen in the self-extrication group
  • The greatest amount of movement was found in the rapid extrication group, with 4x to 5x the movement in the self-extrication group
  • The difference in body movement between the self-extrication group and all others was significant
  • In general, movement increased as extrication techniques progressed from roof removal to B post removal to rapid extrication

The authors concluded that self-extrication resulted in the smallest amount of movement and the fastest extrication time, and that it should be the preferred technique.

Bottom line: This is the first study that specifically evaluated spinal movement occurring with commonly used extrication techniques. Other similar studies have used a variety of measurement techniques, none of which are as precise as this. One potential weakness with this one is that it used healthy volunteers. But obviously, it is not practical to attempt anything like this with real, injured patients. 

Since we know that patients trapped in cars are more likely to die, time is of the essence. This study shows that self-extrication is both fast and safe with respect to spinal movement. The information will assist our prehospital colleagues in making the best decisions possible when faced with patients trapped in their car.

Reference: Assessing spinal movement during four extrication methods: a biomechanical study using healthy volunteers. Scand J Trauma  open access 30: article 7, 2022.

EMS: How Soon To Extricate The Pinned Patient?

This post was requested by one of my EMS colleagues who is the medical director of a rural EMS agency.

Maybe you watched the movie “Signs” by M. Night Shyamalan, starring Mel Gibson.  Gibson is a preacher whose wife was killed in a tragic accident. She was running and was pinned against a tree by a pickup truck. She is so badly injured that only the pressure of the truck against her is keeping her alive (and together, apparently). Gibson gets to have a few final words before being extricated (and killed).

Could this really happen? Shouldn’t entrapped people be extricated immediately, or do our prehospital providers need to wait until more advanced medical care is present at the scene?

Here’s the movie clip, if you are interested:

YouTube player

Obviously, you will find NO research on anything like this. The real question is, should EMS first responders (if not medically equipped and able) completely extricate an entrapped patient before paramedics or other trauma professionals with advanced skills are present? In other words, can you die just from being unentangled from the wreckage, like Mel Gibson’s wife?

The answer is, possibly. But it might not be for the reasons you think. Remember, this is Hollywood.

There are two killers upon release from entrapment. First, the mechanism by which the patient is pinned may be holding pressure on things that are or want to bleed. These include the pelvic bones, injuries to the torso, groins, and proximal extremities, and possibly even intra-abdominal hemorrhage sources. I’m discounting the chest because if there is enough pressure to tamponade bleeding, it will probably critically impair hemodynamics and ventilation to the point of killing your patient prior to extrication anyway.

The second factor is a crush injury, with release of a bolus of acidic, potassium laden blood from the crushed extremity upon release. This is probably quite rare, since it takes a significant amount of time for the un- or under-perfused extremity to build up enough of these substances to pose a threat. If the patient has been entrapped for less than 30-60 minutes, there is probably little danger to releasing them.

Bottom line: It is probably best to wait for ALS providers to arrive so IVs can be established and post-extrication resuscitation can be planned. This includes having fluid and/or blood products available in case critical bleeding starts once the pressure has been released. And don’t worry about reperfusion injury unless your patient has been trapped for quite a while.

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