As authors of a previous report about serious injuries that occurred during an extreme sports obstacle course in the U.S. (1), we read with interest the article by Alana Hawley, etal describing injury and illness outcomes in a series of Canadian obstacle course events. (2) In this Canadian study a small percentage of participants presented to onsite medial services; the majority of complaints were minor and musculoskeletal in nature. Only 2% of those treated were transferred to hospital through EMS which is consistent with other types of mass gathering events. This is in sharp contrast to our report in which over 100 EMS (advanced life support calls) were activated on a single race. Social media drives continued interest in these outcomes, and as authors, we were surprised by the robust response of interest by a variety of media outlets in our 2014 manuscript. Particularly as these events become more popular internationally, we just ask participants and readers to exercise caution before they are left with the impression that these events are safe. Other than the identified limitations that the Dr Hawley and her study team expresses, it should be noted that they studied ONLY Mud Hero obstacle courses. According to the Mud Hero frequently asked questions, (3) the obstacles in these races have both hard and easy options and they do not expose their participants to barbed wire, ice baths, or electric shocks. The electrical shock injuries were the most severe type (myocarditis, cerebrovascular accident) that we reported in our study. Ideally those in the medical profession preparing for an event in their area would determine the type of obstacles that will be used in the race, and organize the appropriate EMS support. Likewise, participants preparing for obstacle races should recognize the potential for increased personal risk in those that have more dangerous obstacles (such as electrical shocks). (1) Greenberg MR, Kim PH, Duprey RT, etal. Unique obstacle race injuries at an extreme sports event: a case series. Ann Emerg Med. 2014;63:361-6. (2) Hawley A, Mercuri M, Hogg K, Hanel E. Obstacle Course Runs: Review of Acquired injuries and illnesses at a Series of Canadian events (RACE) Emerg Med J (online ahead of print) 9/15/2016 (3) Mud Hero Frequently Asked Questions. http://www.mudhero.com/en/faqs/ Accessed 09/20/2016

Conflict of Interest:

None declared

Dear authors,

In your intersting RCT of propofol versus midazolam sedation, you describe giving a fentanyl dose of 3mcg/kg, in conjunction with a titrated dose of propofol or midazolam.

This appears a pretty large dose, compared to the procedural sedation literature, where the usual dose is 1 mcg/kg (min-max 0.5-2.0).[1-2]

From previous research with propofol and midazolam in the Emergency Department, adverse event rate is between 4 and 30%, and around 11% in a 1711 patient cohort.[3] If your fentanyl dose of 3 mcg/kg is indeed correct, I'm curious how you succeeded to have no patients with a respiratory depression.

kind regards,

dr. Gael Smits, Emergency Physician

1. Hohl CM, Sadatsafavi M, Nosyk B, et al. Safety and clinical effectiveness of midazolam versus propofol for procedural sedation in the emergency department: a systematic review. Acad Emerg Med 2008;15:1-8. doi:10.1111/j.1553-2712.2007.00022.x

2. Kuypers MI, Mencl F, Verhagen MF, et al. Safety and efficacy of procedural sedation with propofol in a country with a young emergency medicine training program. Eur J Emerg Med 2011;18:162-7. doi:10.1097/MEJ.0b013e32834230fb

3. Smits GJ, Kuypers MI, Mignot LA, et al. Procedural sedation in the emergency department by Dutch emergency physicians: a prospective multicentre observational study of 1711 adults. 2016;:1-6. doi:10.1136/emermed

Conflict of Interest:

None declared

Walker et al. report the first economic analysis of the cost of training medical scribes (1). The concept of the medical scribe has been around for at least 4 decades (2), but with the recent advent of the electronic medical record (EMR), especially in the US, there has been a rapid increase in the use of scribes, particularly in emergency departments (3). The ongoing exponential growth in the use of scribes has been referred to as the "great scribe experiment" (4). Currently 1 in 5 practices with an EMR uses scribes (4). The data so far suggests that scribes increase physician productivity and revenue as well as both patient and physician satisfaction (3,5).

Two approaches to training medical scribes have been described: teaching existing medical personal to perform scribing duties, or bringing on new personnel entirely devoted to scribing. The medical scribe field, as well as Walker et al., are now moving towards the later method, which generally attracts students and recent college graduates looking to obtain medical knowledge and experience before moving on to additional training in the medical field, such as medical or physician assistant school. While the later method has its advantages, it leads to frequent turnover and thus the need for near-continuous training of new scribes, which is why is it critical to evaluate the scribe training process. Walker et al. have made an important contribution in describing the start up cost of a scribe program, but the costs of maintaining an ongoing program are equally, if not more, important.

In order to bring in medical scribes, hospitals or medical groups generally take one of two approaches. They either contract with existing outside scribe companies (ie. ScribeAmerica, PhysAssist, etc.), or they build an in-house scribe program from the ground up, similar to the process reported by Walker et al. The former approach may be more expedient and even cost effective in the short term, however it is unclear whether it would be as beneficial in the long term and is not an option for every practice or department, particularly those in rural areas. Despite the start-up costs, the later approach is arguably preferable as it allows for more flexibility and customization of the scribes' duties to fit the needs of the practice or department. Further research should be directed towards understanding the costs of maintaining an existing, mature 'homegrown' scribe program as compared to the costs of a contract with an existing major scribe company. This would not only provide direction for practices looking to bring on medical scribes, but also inform their decision on whether to train their own scribes or outsource the training to a major existing company.

References: 1. Walker KJ, Dunlop W, Liew D, et al. An economic evaluation of the costs of training a medical scribe to work in Emergency Medicine. Emergency Medicine Journal 2016; 0: 1-5 2. Lynch TS. An Emergency Department Scribe System. Journal of the American College of Emergency Physicians 1974; 3: 302-3 3. Gellert GA, Ramirez R, Webster SL. The Rise of the Medical Scribe Industry: Implications for the Advancement of Electronic Health Records. JAMA 2015; 3: 1315-6 4. Schiff GD, Zucker L. Medical Scribes: Salvation for Primary Care or Workaround for Poor EMR Usability? Journal of General Internal Medicine. 2016; 31: 979-81 5. Bastani A, Shaqiri B, Palomba K, et al. An ED scribe program is able to improve throughput time and patient satisfaction. American Journal of Emergency Medicine. 2014; 32: 399-402

Conflict of Interest:

None declared

Murphy-Jones and Timmons described paramedics' experiences of end-of- life decision making with regard to nursing home residents, including the challenges faced by paramedics when patients lacked decision making capacity and the resultant stress from uncertainty about appropriate treatments. [1] Among the solutions suggested, an essential, straightforward and well-tested tool for the perplexed paramedic was not available to EMTs in London. Emergency medical providers in the United States report that that Physicians Orders for Life-Sustaining Treatment (POLST) Paradigm forms both increase the likelihood that the wishes of patients with advanced illness and frailty will be honored and decrease the family and health professional angst of end-of-life decision-making in moments of crisis. POLST orders have been shown to be effective in providing clear instructions to emergency medical providers and in making sure patient wishes at end-of-life are honored -- whether for comfort care or more intensive treatment. [2] [3] [4] The POLST Paradigm is an approach to end-of-life planning for those with advanced illness through a process of shared decision-making between a patient and his/her health care professional. As a result of these conversations, patient wishes are documented in a POLST form, [5] which translates the shared decisions into actionable medical orders, indicating a patient's wishes regarding treatments that are commonly used in a medical crisis. As a medical order, emergency personnel - such as paramedics, EMTs, and emergency physicians - must follow these orders in the absence of other information. The orders address preferences regarding cardiopulmonary resuscitation (CPR), other medical interventions such as intubation and mechanical ventilation, and artificially administered nutrition. The orders are signed by a physician (and is some jurisdictions a nurse practitioner or physician assistant) with the concurrence of the patient or legally recognized decision maker. The POLST form is distinctive, often brightly colored and can be displayed prominently so that it can be easily identified by the emergency medical personnel. The POLST Paradigm has been successfully implemented in the vast majority of states in the US, and is being adopted in a growing number of countries. We encourage health systems to adopt and emergency medical providers who care for patients at the end-of-life to learn more about the POLST Paradigm and how it can provide medical orders and direction when an emergent situation faces providers, patients and families. [6]

Arthur R. Derse, MD, JD Terri A. Schmidt, MD Susan W. Tolle, MD

[1] Murphy-Jones G, Timmons. Paramedics' experiences of end-of-life care decision making with regard to nursing home residents: an exploration of influential issues and factors. ] doi:10.1136/emermed-2015-205405

[2] Schmidt TA, Zive D, Fromme EK, Cook JNB, Tolle SW. Physician Orders for Life-Sustaining Treatment (POLST): Lessons learned from analysis of the Oregon POLST Registry. Resuscitation. 2014; 85:480-485.

[3] Richardson DK, Fromme E, Zive D, Fu R, Newgard CD. Concordance of out-of-hospital and emergency department cardiac arrest resuscitation with documented end-of-life choices in Oregon. Ann. Emerg. Med. 2014; 63:375- 383.

(4) Schmidt TA, Hickman SE, Tolle SW, Brooks HS. The Physician Orders for Life-Sustaining Treatment (POLST) Program: Oregon Emergency Medical Technicians'' Practical Experiences and Attitudes. JAGS. 2004; 52, 1430- 1434.

[5] Oregon POLST Form http://static1.squarespace.com/static/52dc687be4b032209172e33e/t/56e9951204426272fccd1067/1458148629767/Printing+POLST+instructions+3 -16-2016.pdf Accessed June 17, 2016.

[6] National POLST Paradigm, http://www.polst.org/ Accessed June 16, 2016.

Conflict of Interest:

None declared