EMS, Helicopter EMS (HEMS) Activation


Article Author:
Andrew Godfrey


Article Editor:
Joshua Loyd


Editors In Chief:
David Tauber


Managing Editors:
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Frank Smeeks
Kristina Soman-Faulkner
Benjamin Eovaldi
Radia Jamil
Sobhan Daneshfar
Saad Nazir
William Gossman
Pritesh Sheth
Hassam Zulfiqar
Steve Bhimji
John Shell
Matthew Varacallo
Ahmad Malik
Mark Pellegrini
James Hughes
Beata Beatty
Hajira Basit
Phillip Hynes
Kavin Sugumar


Updated:
2/25/2019 7:29:07 AM

Introduction

Helicopter-based emergency medical services (HEMS) evolved from rudimentary transportation-only services to advanced, critical-care capable units that offer some of the most advanced pre-hospital care available. HEMS offers many benefits including the ability to expeditiously access rural or remote locations, provide multiple advanced crew configurations, and intervene when in ground-based units are not available. However, HEMS capabilities must be weighed against the disadvantages of rotor-wing flight including the inherent risk of crashes with subsequent crew or patient injury or death, changes in physiology associated with flight, cost, and utilization of a limited resource. Given the risks and benefits of HEMS, certain guidelines should be considered to determine the need for HEMS response. Establishing the indications and contraindications for HEMS can greatly reduce the stress on requesting providers during already stressful patient encounters. As always, guidelines should be used in conjunction with clinical judgment on a case-by-case basis.[1][2][3][4]

Issues of Concern

Many organizations, including the American College of Emergency Physicians (ACEP), National Association of EMS Physicians (NAEMSP), and Air Medical Physician Association (AMPA), have recommendations for appropriate utilization of HEMS. When considering HEMS activation, evaluation of the following items, as outlined by the NAEMSP, can help determine appropriate HEMS activation:

  • From a clinical standpoint, does the patient require minimal transport time outside of the hospital or critical care setting?
  • Are there time critical evaluations or treatments for the patient which are required but unavailable at the referring facility?
  • Are ground units able to access the patient for timely transport?
  • Are the predicted and current weather conditions along the expected path and nearby areas amenable to rotor-wing flight?
  • Do the patient and all accompanying equipment fall within the size and weight limitations of the aircraft?
  • Are helipads, airports, or improved landing zones available near the referring and receiving hospitals?
  • Can ground-based personnel provide the patient's care requirements, or does the patient require a higher level of care only available on a HEMS unit?
  • Can local ground transport services adequately provide a local response if a unit is taken out of service for a prolonged transport?
  • Is regional ground-based critical care transport a viable alternative to HEMS transportation?

It must be kept in mind that recommendations for HEMS activation are not intended to replace clinical judgment, nor are they intended to be the sole determinators as to which patients should be transported by HEMS units.

Clinical Significance

Several principles should be kept in mind when determining the need for HEMS activation. First and foremost, critical care resources should be provided to patients who require them as rapidly as possible.  Patients who are critical or unstable require transport as rapidly as possible and likely require critical intervention during transport. Time to destination for definitive care is also a consideration, and any delays should be minimized. The most suitable crew should transport more stable patients with the most appropriate mode of transportation.  Ground-based critical care may be more appropriate when a patient requires critical care during transport, but rapid transport is not required. Furthermore, stable patients who do not require critical care during transport may be best served by local EMS transport or non-critical care transport unless doing so would place an undue burden on the system. Mass casualty or disaster incidents may also necessitate the use of HEMS to provided extended capabilities, extra personnel, or rapid treatment and transport of critically injured or ill patients.[5][6][7]

Scene Trauma Considerations

Scene responses by HEMS units typically involve trauma patients. In an age of regionalized trauma care, rapid aeromedical transport of trauma patients helps provide earlier definitive care and delivery of treatment to help stabilize critically injured patients. The NAEMSP recommendations for scene response include the following as possible indications for HEMS activation for trauma patients:

General

  • Trauma score less than 12
  • Unstable vital signs
  • Significant trauma in patients less than 12 years old or older than 55 years old
  • Significant trauma in pregnant patients
  • Multisystem trauma injuries including multiple long bone fractures and two or more injured body regions

Mechanism

  • Penetrating head, neck, chest, thoracic, abdominal, or pelvic trauma
  • Crush injury to the head, chest, or abdomen
  • Ejection from a vehicle
  • Pedestrian or cyclist struck by a motor vehicle
  • Death in the same passenger compartment as the patient
  • On-scene EMS personnel concern for patient’s vehicle compartment
  • Fall from significant height
  • Near drowning and drowning injuries

Neurological Injuries

  • Glasgow coma scale (GCS) less than 10
  • Declining mental status
  • Obvious skull fracture
  • Exam and presentation concerning for spinal cord injury 

Thoracic Injuries

  • Major chest wall injury including flail chest or open chest wound
  • Pneumothorax or hemothorax
  • Suspected cardiac injury

Abdominopelvic Injuries

  • Significant abdominal pain after blunt trauma
  • Seatbelt sign or other abdominopelvic contusions
  • Obvious rib fracture(s) below the nipple line
  • Suspected major pelvis fracture (open pelvis fracture, unstable pelvis fracture, suspected pelvis fracture with hypotension)

Orthopedic and Extremity Injuries

  • Partial or total amputation of a limb excluding digits
  • Finger or thumb amputation when an emergent surgical evaluation is required but not available by rapid ground-based transport
  • Fracture or dislocation with vascular injury or compromise
  • Extremity ischemia
  • Open long bone fractures
  • Two or more long bone fractures

 Burns

  • Greater than 20% total body surface area (TBSA) burns
  • Burns to the face, head hands, feet, or genitals
  • Inhalation burn or injury
  • Electrical or chemical burns
  • Burns with associated injuries

While the above list is extensive, individual system requirements, destination facility availability and resources, and geographic location will influence HEMS activation. For example, a motor vehicle crash involving several patients in a large metropolitan area with a trauma center 20 minutes from the scene via ground transport would not typically warrant HEMS activation; however, a mass casualty incident in the same location might necessitate HEMS use. Alternatively, a motor vehicle crash with 2 critical patients in a county served by 2 advanced life support (ALS) units 45 minutes from the hospital would almost certainly be appropriate for HEMS activation. In this case, the patients will benefit from rapid transport and critical care capabilities while preventing the depletion of the entirety of that county’s ALS resources if both units were required for transport.

More recently, Thomas et al., attempted to develop an evidence-based guideline for the use of HEMS for trauma patients. While a lack of high-quality research confounded their efforts, they proposed guidelines based on the Center for Disease Control and Prevention (CDC) 2011 Guidelines for the Field Triage of Injured Patients.

Medical and Interfacility Considerations

Regionalization of care is commonplace and likely to continue as hospital systems grow and merge. This allows centralization of advanced care and provides previously unavailable specialty care to more patients by transfer agreements and referrals. Timely transport of patients requiring critical interventions can often be accomplished via ground-based units, but certain conditions may benefit from rapid aeromedical transport and the capabilities provided by HEMS units. The NAEMSP identified the following conditions and possible indications for HEMS transport of medical and interfacility patients.

Trauma

  • Any patient identified in the list above who cannot be managed sufficiently at the referring hospital
  • Patients with identified or suspected injuries that are beyond the capabilities of the referring hospital such as intrathoracic, intraabdominal, or intracranial injuries identified in the primary or secondary survey or adjunct imaging

Cardiac

  • Acute coronary syndromes including ST-segment elevation myocardial infarction (STEMI) who require advanced intervention including cardiac catheterization, intra-aortic balloon pump, or emergent surgery
  • Cardiogenic shock requiring advanced intervention
  • Cardiac tamponade requiring advanced intervention
  • Mechanical cardiac disease including acute or worsening valvular disease and acute cardiac rupture

Neurological

  • Central nervous system hemorrhage (intracranial hemorrhage, epidural hematoma, among others)
  • Mass lesion resulting in spinal cord compression
  • Ischemic stroke requiring thrombolytic or intra-arterial therapy not available at the referring hospital
  • Status epilepticus

Obstetrics

When considering aeromedical transport for obstetric patients, it is critically important to weigh the risks and benefits of HEMS for this specific population. Delivery of an infant while in flight in a helicopter is challenging at best and may be impossible due to airframe limitations. Patients at risk of imminent delivery are best served by ground-based critical care units in which delivery of the infant is more manageable. Nevertheless, situations may exist where distance, crew capabilities, or referring hospital limitations may necessitate the use of HEMS to transport an obstetric patient. Such indications may include:

  • Delivery of the infant would require obstetric or neonatal care not available at the referring hospital
  • Active premature labor when estimated gestational age (EGA) is less than 34 weeks or estimated fetal weight (EFW) is less than 2000 grams
  • Eclampsia or severe pre-eclampsia
  • Third-trimester hemorrhage
  • Hydrops fetalis
  • Maternal comorbidities that could result in premature delivery
  • Severe predicted fetal disease or illness that cannot be managed at the referring hospital
  • Acute maternal abdominal emergencies that require surgery prior to 34 weeks EGA or EFW less than 2000 grams

Neonatal

Like cardiac and trauma care, neonatal care may be highly regionalized. Many neonates do not require rapid transport to a referral center but instead require the advanced care available in regional centers. In many cases, HEMS can deliver specialized personnel and equipment to a referring hospital allowing stabilization of a neonate. Following stabilization, transport to the regional neonatal center maybe best accomplished via a ground unit, allowing the HEMS unit to return to service. Ground transport times greater than 30 minutes may be an indication for HEMS transport of neonates and should be considered on a case-by-case basis. Neonates with the below conditions may benefit from HEMS activation.

  • EGA less than 30 weeks or weight less than 2000 grams
  • Significant neonatal complications including cardiac or respiratory arrest, sepsis, meningitis, hemodynamic instability, temperature instability, or significant metabolic abnormality
  • Oxygen supplementation with a fraction of inspired oxygen (FiO2) greater than 0.6 (60%), positive airway pressure such as CPAP, or mechanical ventilation
  • Pneumothorax, interstitial emphysema, or extrapulmonary air leak
  • Seizures, congestive heart failure, or disseminated intravascular coagulation
  • Surgical emergencies requiring capabilities not available at the referring hospital

Other Medical or Surgical Patients

Patients who require care beyond that available at a referring facility may be candidates for HEMS transport. Many times these patients can be cared for by ground-based critical care units. However, some patients will be too unstable to remain out of a hospital for the duration of a ground-based transport. In these cases, HEMS transport may be a viable alternative.

  • Resolved cardiac or respiratory arrest exceeding the referring facility's capabilities
  • Vasopressor requirement
  • Mechanical ventilation requirement or advanced mechanical ventilation strategies such as inverse-ratio ventilation
  • Potential airway deterioration not yet definitively managed
  • Toxicology care requiring a bedside toxicologist or care otherwise not available at the referring facility
  • Urgent hyperbaric oxygen requirement
  • Urgent dialysis
  • Gastrointestinal bleeding requiring blood products or hemodynamic management
  • Surgical emergencies requiring specialized care (aortic dissection, ischemic limbs, among others)
  • Pediatric patients requiring care exceeding the referring facility's capabilities

Cardiac arrest patients who remain in cardiac arrest are rarely appropriate for HEMS transport and activation. Cardiopulmonary resuscitation (CPR) cannot be safely performed in an aircraft, although mechanical CPR devices may allow safe CPR in the future.

Autolaunch

Autolaunch or auto dispatch is a concept in which a HEMS unit is activated automatically by a 911 dispatch center upon receipt of a call. Typically, criteria are predetermined on a local basis so that when they are met, a HEMS unit is placed on standby or dispatched simultaneously with the ground-based EMS crew. Crews placed in standby typically complete pre-flight preparations and await final activation before lifting off. In certain regions, an auto launch can reduce the response time to a scene, quickly provide care, and shorten transport times. Data is sparse concerning auto launch impacting patient outcomes, but some reviews do show that it reduces response times and lengths of stay in the hospital. 

Mission Acceptance

Typical HEMS crews consist of a pilot and 2 or 3 medical providers. In an attempt to prevent flight crews from feeling pressured into accepting missions, many HEMS organizations notify flight crews only of destinations so that they may determine if a mission is acceptable from a weather and safety standpoint. Details of the mission beyond destinations are given only when the mission is determined to be safe for the crew. HEMS programs may participate in a notification service such as www.weatherturndown.com which allows programs to post declined missions. Declined missions are visible to all users to prevent "helicopter shopping" whereby a referring facility requests HEMS activation from nearby programs when the initial HEMS program declines the mission. Direct dispatch, whereby a local 911 dispatcher calls the HEMS base and directly requests a HEMS unit, potentially bypasses multiple safety layers built into the call triage and dispatch process and should be discouraged. All HEMS programs should have a dispatch center which fields all requests for service thereby allowing missions to be triaged, evaluated for safety by the flight crew, and appropriately tracked.

Conclusion

HEMS activation is a constantly evolving field. Regionalization of specialty resources, access to remote locations, advanced in-flight care, and referring hospital capabilities all influence HEMS use. As a critical component to any regional EMS system, HEMS must be appropriately utilized to provide the greatest benefit to the largest number of patients. These guidelines are intended to offer a framework for appropriate HEMS activation and do not serve as a replacement for clinical assessment and decision-making.


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EMS, Helicopter EMS (HEMS) Activation - Questions

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Which of the following generally is not an accepted indication for Helicopter Emergency Medical Service (HEMS) activation?



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A referring hospital requests helicopter emergency medical services (HEMS) transport for a newborn neonate in distress. The referring facility has a newborn nursery but no NICU and no neonatologists on staff. Which of the following scenarios is generally acceptable for HEMS activation and transport, specifically involving neonatal patients?



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A referring hospital contacts your helicopter emergency medical services (HEMS) dispatch center to facilitate transport of multiple patients. Of the following patients, which one is appropriate for transport via helicopter?



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Which of the following scenarios would be most appropriate for helicopter emergency medical services (HEMS) activation?



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Helicopter emergency medical services (HEMS) dispatch receives a request for a 21-year-old man involved in a high-speed motor vehicle collision with a Glasgow coma scale of 3. Which of the following is an example of the correct mission acceptance process?



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EMS, Helicopter EMS (HEMS) Activation - References

References

Thomas SH,Brown KM,Oliver ZJ,Spaite DW,Lawner BJ,Sahni R,Weik TS,Falck-Ytter Y,Wright JL,Lang ES, An Evidence-based Guideline for the air medical transportation of prehospital trauma patients. Prehospital emergency care : official journal of the National Association of EMS Physicians and the National Association of State EMS Directors. 2014;     [PubMed]
Tomazin I,Vegnuti M,Ellerton J,Reisten O,Sumann G,Kersnik J, Factors impacting on the activation and approach times of helicopter emergency medical services in four Alpine countries. Scandinavian journal of trauma, resuscitation and emergency medicine. 2012 Aug 20;     [PubMed]
Hopkins CL,Youngquist ST,McIntosh SE,Swanson ER, Helicopter emergency medical services utilization for winter resort injuries. Prehospital emergency care : official journal of the National Association of EMS Physicians and the National Association of State EMS Directors. 2011 Apr-Jun;     [PubMed]
Wigman LD,van Lieshout EM,de Ronde G,Patka P,Schipper IB, Trauma-related dispatch criteria for Helicopter Emergency Medical Services in Europe. Injury. 2011 May;     [PubMed]
Thomas SH,Kociszewski C,Schwamm LH,Wedel SK, The evolving role of helicopter emergency medical services in the transfer of stroke patients to specialized centers. Prehospital emergency care : official journal of the National Association of EMS Physicians and the National Association of State EMS Directors. 2002 Apr-Jun;     [PubMed]
Griggs JE,Jeyanathan J,Joy M,Russell MQ,Durge N,Bootland D,Dunn S,Sausmarez ED,Wareham G,Weaver A,Lyon RM, Mortality of civilian patients with suspected traumatic haemorrhage receiving pre-hospital transfusion of packed red blood cells compared to pre-hospital crystalloid. Scandinavian journal of trauma, resuscitation and emergency medicine. 2018 Nov 20;     [PubMed]
Sebastian C,Collopy K,Clancy TV,Acquista E, Analysis of Helicopter-Transported Trauma Patients at a Regional Trauma Center. The American surgeon. 2018 Jun 1;     [PubMed]

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