EWM is honoured to welcome Dr Rachel Anderson of EverestER and Antarctic Expedition & Logistics fame to the EWM family as the course director of the 2014 Nepal Mountain Medicine Course…
Rachel is an Emergency Medicine registrar in the UK who has worked in the expedition environment in Nepal and Antarctica.
She has worked for Everest ER for two seasons as a base camp medic as well as at Union Glacier and the South Pole for Antarctic Logistics and Expeditions. She has recently completed the Diploma in Mountain Medicine (DIMM) and was lead lecturer on a wilderness medical expedition to Aconcagua in 2013.
She is a keen mountaineer and spends time in Scotland, the Alps and at high altitude venues such as the Himalaya. She also has an interest in humanitarian work and has the Diploma in Tropical Medicine and Hygiene and has worked in South Africa. Her next planned trip is to work as part of the mountain rescue team on Denali this summer.
For the last two months, I have been working as a Remote Site Medic in Southeast Turkey. On 15/09, one of our Helo’s received heavy automatic fire in an attempt by rebels to shoot it down on a remote LZ. This resulted in a downed helo and Mass Casualty Incident in which I medevaced out 4 patients, one Critical via both Air and Ground. Although the MCI ran exceptionally well as we had been training for exactly such an event, we were evacuated from the site. 2 days later, 45 min before my convoy to depart with the last group, a soldier took a round thru the chest from a sniper. A significant sucking chest wound/ Hemo vs Hemopneumo, our Helos had already evacuated which resulted in a 1.5 hour ground medevac out of the mountains while providing ALS in the back.
I attended your Expedition Med course in Keswick in March, and wanted to extend my appreciation for the training and lectures provided, as I found them quite relevant during this difficult week. Our team of mountaineers and I are now safely back in London, and upon last report both of my critical patients are alive after repeated surgical interventions.
Michael Jorgensen, PA-C, RN
We have a couple of last minute discounted places on our upcoming Mountain Medicine Course in Nepal headed up by Dr Luanne Freer of Everest ER and Dr Martin Rhodes. Contact [email protected] if you are interested and have the time free!!
Some of the detail…
The ultimate mountain medicine course, the path of which follows the Everest Base Camp Trail up the Khumbu valley to base camp itself, situated in the shadow of the worlds most iconic peak.
Many of you know Dr Luanne Freer as the founder and director of EverestER, and a volunteer physician for the non profit Himalayan Rescue Association (HRA) in Nepal. Founded in 2003 EverestER is the world highest clinic a seasonal tent-based medical facility at the Everest Base Camp (17,600 ft/5350m).
Luanne, who is also a past president of the Wilderness Medical Society and Medical Director for Yellowstone National Park, aims to pass on the learning’s from her years of providing medical cover at this altitude through this mountain medicine course, and also hopes to transfer her passion for the Khumbu valley and Nepal in general
‘The Mountain Medicine course was one of the most amazing experiences of my life lead by a world class exped team. Really grateful for the opportunity to attend the course’
Pre-hospital Expedition Medicine Series
Dr Amy Hughes, Medical Director of Expedition Medicine and Pre-Hospital Emergency Medicine Registrar and HEMS paramedic Dave Marshall, both part of the Kent Helicopter Emergency Medical Team, continue their series examining pre-hospital expedition trauma care and associated kit.
In the second article in the series, Dave Marshall gives an overview of managing pelvic fractures pre-hospitally and in an expedition environment, and introduces the use of the pelvic splint.
Edited by Dr Amy Hughes.
Pre hospital and Expedition management of pelvic trauma and use of the pelvic splint
Expeditions have become more and more adventurous over the past years, both in destination and the participants involved. As a result, the frequency and pattern of injury is changing and the demand on the medical team thus increased. Having a broad knowledge of fracture management, including mechanism of injury, clinical findings, reduction techniques and splinting is essential. Although one of the most enjoyable challenges of being a medic on an expedition team is improvisation regarding kit used to manage various ailments and injuries, practice and competence in the use of non-improvised kit such as the Pelvic Sam Splint is essential.
Mechanism of Injury
Pelvic fractures often result in extensive disruption of the bony structures and associated ligaments of the pelvis and are potentially life-threatening injuries. The fractures associated with the greatest morbidity and mortality involve significant forces such as motor vehicle crashes, motorcyclist crash, pedestrian versus car, falls from height and crush injuries. Early suspicion, identification and management of a pelvic fracture at the prehospital stage is essential to reduce the risk of death as a result of hypovolaemia, (1). It is especially important to be able to identify, treat and minimize risk of further damage when in a remote area miles from the nearest medical facility.
Understanding the mechanism of injury is vital in being able to predict the potential for significant injury to the pelvis and its underlying structures, even in the absence of clinical signs. It is, therefore, essential that time is taken to evaluate the mechanisms involved in any accident resulting from significant force or where there is pain or injury to the spine, abdomen, pelvis or femurs.
In motor vehicle accidents – a not uncommon event on expeditions – learning how to ‘read’ the wreckage to help identify possible pelvic injury, in conjunction with clinical suspicion, can significantly aid diagnoses.
Anatomical structure of the pelvis (2)
The pelvic ring is often likened to a polo mint in that it is almost impossible to have a significant break in one place and not another. The most common area to be damaged in trauma is the pubic rami, acetabulum and the sacroiliac joint. There is extensive vasculature through and around the pelvic ring, most notably the iliac vessels. For imagery see http://visualsunlimited.photoshelter.com/image/I0000kUOn3NJHcZU.
The greatest risk of a pelvic fracture is catastrophic haemorrhage and gentle handling of the patient in the initial and subsequent stages could literally be the difference between life and death. Whole blood clotting time is approximately 10 minutes, (depending on the environment). Expedition medics should be familiar with the ‘first clot best clot’ theory. In other words, a patient sustaining a traumatic injury resulting in haemorrhage will begin to form a clot using their own clotting factors. If this clot is disrupted they could easily bleed to death. A full fluid resuscitation will not be practical in the field as most expeditions carry a maximum of 2 litres of crystaloid. However it should be noted that overloading the patient with fluid can be equally harmful, and small boluses should be given to maintain a central pulse and cerebral perfusion. This is known as permissive hypotension and will be discussed in more detail in a future article. Disruption of this first clot in the prehospital setting could be fatal, and without access to blood and clotting agents the patient may die. Trauma will result in the patient becoming acidotic, hypothermic, and coagulopathic. (3)
This coagulopathy cannot be easily reversed pre-hospitally, each factor contributes to the decline in the others. (see above diagram). Any disruption to the first clot will have devastating consequences. Ultimately, the patient requires definitive haemorrhage control, (surgery, angiography and embolisation), and replacement of blood and clotting agents.
Clinical Features of a pelvic injury: (4)
- Asymmetry of the pelvis – do not spring the pelvis. Visual alignment and gentle palpation of the Anterior Superior Iliac Spine may help demonstrate pelvic injury, but often the pelvis visually appears normal, thus mechanism of injury is vital in determining injury
- Shortening/rotation of the leg/s
- Inguinal pain
- Localised swelling/contusion
- Hematuria/urinary incontinence
- Bleeding PR/PV – PR examination not recommended to determine pelvic injury.
- MECHANISM, MECHANISM, MECHANISM! (albeit not a clinical feature!) – there may be no obvious clinical abnormality despite significant injury. Thus clinical suspicion is essential.
Management of pelvic fractures and clot preservation:
As we have already discussed, a patient with a suspected pelvic fracture must be handled very carefully. Whether in a medical facility or the most extreme expedition environment, the same principles apply to prevent worsening the injury and preserving the clot.
Log rolling the patient should be avoided at all costs!
The medical kit available on expeditions will be minimal. Stretchers may have to be improvised and transportation limited. However, all medical kits should have some sort of pelvic binder which should be applied carefully and correctly at the earliest opportunity, (see images below).
Application of the pelvic SAM splint.
Log rolling patients, whilst sometimes useful in a controlled hospital environment following appropriate imaging, should be avoided in the pre hospital field. In simple risk versus benefit terms it could have catastrophic consequences. By using the hands available and correctly briefing the team about the amount of movement required (one cheek off!), it should be possible to optimise the care of the casualty prior to evacuating them to definitive care.
Improvised methods of pelvic splinting on expeditions
Much of the challenge of expedition medicine is improvisation. The medical kit you take out with you may not have SAM splints in them. Providing a support can be placed across the greater trochanter, then any sort of material could be used – for example clothing, a sheet, or a canvass of some kind.
The approach to fluid management in trauma has changed. Two litres of fluid is not necessarily required for management of pelvic injury. Titrate fluid according to the presence of pulses or cerebration (alertness). The presence of a radial pulse, and even in certain circumstances (without associated head injury) presence of a femoral pulse signifies the blood pressure is sufficient to perfuse the necessary organs and promote clot preservation. Further details of permissive hypotension will follow in another article.
Essential – this depends on what is available. Intravenous opiates or a fentanyl lolly is ideal for analgesia, after the use of paracetamol or a NSAID.
Pelvic injuries are often present in conjunction with other significant injuries – spinal, femur, urological or abdominal as examples. Whether or not other injuries have been excluded, spinal precautions are essential in conjunction with good management of the pelvis.
- Lee C, Porter K. The prehospital management of pelvic fractures, Emergency Medical Journal 2007;24:130-133
- Image 1: Available at: http://home.comcast.net/~wnor/pelvis.htm
- Maya A, Matinowitz U, Kluger Y. Coagulopathy in the critically injured patient, Yearbook of Intensive Care and Emergency Medicine 2006, Part 5,232-243
- Crawford C, Pelvic Fracture in Emergency Medicine, available at: http://emedicine.medscape.com/article/825869-overview
Expedition Medicines Mountain Medicine course in along the Everest Base Camp Trail in Nepal led by expedition doctor’s Luanne Freer and Amy Hughes and Everest Expedition Leader Nick Arding OBE has been formally accredited by the Wilderness Medical Society for 22.5 CME points.
Spaces are very limited
‘There’s no snow.’ This was the text I received the week before the course. Slightly concerning since we planning on skiing, snowmobiling and dogsledding. All of which can prove difficult without snow. Snowholing may also prove to be a challenge. As I flew over Oslo it looked as if there was plenty of snow, and as we descended into Alta over the snow clad mountains the pilot announced the temperatures outside were -25. There was no snow from a Norwegian perspective but there was still plenty for us from blighty. The group were exposed to every polar weather experience: -30 whilst dogsledding, snow and wind whilst snowholing and a fabulous slush covering the surface of the ice drill. The group rose to the challenge and threw themselves into each new skill.
There were some highlights for me: the largest snow hole ever created, greatest height achieved by two ladies on a snowmobile (I had never seen the bottom of a snowmobile in flight until last week), Martin manfully getting frostbite the week before the course so that everyone could see how to dress frostbite properly, everyone did the ice drill and thankfully again no injuries. Thank you to all of you who made the course a success, from the directing staff who worked tirelessly and managed to consume 24000 calories between 4 of them in 24 hours, to the participants who had a try at everything and continued to smile and to our host at Ongajok who yet again provided us with wonderful food and accommodation. Finally thank you to the northern lights for giving us another beautiful display