New care paradigms are required to enable remote life-saving interventions (RLSIs) in extreme environments such as disaster settings. Informatics may assist through just-in-time expert remote-telementoring (RTM) or video-modelling (VM). Currently, RTM relies on real-time communication that may not be reliable in some locations, especially if communications fail. Neither technique has been extensively developed however, and both may be required to be performed by inexperienced providers to save lives. A pilot comparison was thus conducted.

Procedure-naïve Search-and-Rescue Technicians (SAR-Techs) performed a tube-thoracostomy (TT) on a surgical simulator, randomly allocated to RTM or VM. The VM group watched a pre-prepared video illustrating TT immediately prior, while the RTM group were remotely guided by an expert in real-time. Standard outcomes included success, safety, and tube-security for the TT procedure.

There were no differences in experience between the groups. Of the 13 SAR-Techs randomized to VM, 12/13 (92%) placed the TT successfully, safely, and secured it properly, while 100% (11/11) of the TT placed by the RTM group were successful, safe, and secure. Statistically, there was no difference (P = 1.000) between RTM or VM in safety, success, or tube security. However, with VM, one subject cut himself, one did not puncture the pleura, and one had barely adequate placement. There were no such issues in the mentored group. Total time was significantly faster using RTM (P = .02). However, if time-to-watch was discounted, VM was quicker (P = .000).

Random evaluation revealed both paradigms have attributes. If VM can be utilized during “travel-time,” it is quicker but without facilitating “trouble shooting.” On the other hand, RTM had no errors in TT placement and facilitated guidance and remediation by the mentor, presumably avoiding failure, increasing safety, and potentially providing psychological support. Ultimately, both techniques appear to have merit and may be complementary, justifying continued research into the human-factors of performing RLSIs in extreme environments that are likely needed in natural and man-made disasters.

The management of out-of-hospital traumatic cardiac arrest (TCA) for professional rescuers entails Advanced Life Support (ALS) with specific actions to treat the potential reversible causes of the arrest: hypovolemia, hypoxemia, tension pneumothorax (TPx), and tamponade. The aim of this study was to assess the impact of specific rescue measures on short-term outcomes in the context of resuscitating patients with a TCA.

This retrospective study concerns all TCA patients treated in two emergency medical units, which are part of the Northern French Alps Emergency Network (RENAU), from January 2004 through December 2017. Utstein variables and specific rescue measures in TCA were compiled: fluid expansion, pelvic stabilization, tourniquet application, bilateral thoracostomy, and thoracotomy procedures. The primary endpoint was survival rate at Day 30 with good neurological status (Cerebral Performance Category [CPC] score CPC 1 and CPC 2).

In total, 287 resuscitation attempts in TCA were included and 279 specific interventions were identified: 262 fluid expansions, 41 pelvic stabilizations, five tourniquets, and 175 bilateral thoracostomies (including 44 with TPx).

Among the standard resuscitation measures to treat the reversible causes of cardiac arrest, this study found that bilateral thoracostomy and tourniquet application on a limb hemorrhage improve survival in TCA. A larger sample for pelvic stabilization is needed.

Recent terror attacks led the Norwegian government to develop a procedure for emergency and law enforcement services cooperation during Active Violent Incidents (AVI, abbreviated PLIVO in Norwegian). To address further national initiatives to improve preparedness for mass casualty events and penetrating injuries among emergency medical services (EMS) in Norway, training and equipment status were mapped.

All EMS regions in Norway were invited to participate in an electronic nation-wide survey about practical medical training in PLIVO scenario training and specific training in hemorrhage control and penetrating injuries.

Ninety percent (842/938) had attended at least 1 PLIVO training scenario. Of these, 76% (642/938) reported only evacuation training during the exercise, while only 20% (168/938) had practiced hemorrhage control. Eighty-one percent (760/938) respondents reported that they were equipped with tourniquets and 91% (853/938) were equipped with gauze to pack wounds. However, only 52% (487/938) and 48% (450/938) reported practical training in tourniquet application and wound packing, respectively, while 30% (280/938) reported that they had no training or only theoretical education in tourniquet application. Supervised practical training on penetrating thoracic injuries was reported by <20%, and <50% reported practical training in needle decompression of a tension pneumothorax.

Enhanced focus on training in hemorrhage control and penetrating injuries is needed. This supports the recent decision from the Norwegian government to strengthen the training for EMS in AVI (PLIVO) exercises, by focusing on medical procedures in addition to evacuation training. Although the estimated response rate is 17%, we believe the large number of respondents still make the results valuable.

The primary goal of this study was to determine if ultrasound (US) use after brief point-of-care ultrasound (POCUS) training on cardiac and lung exams would result in more paramedics correctly identifying a tension pneumothorax (TPTX) during a simulation scenario.

A randomized controlled, simulation-based trial of POCUS lung exam education investigating the ability of paramedics to correctly diagnose TPTX was performed. The US intervention group received a 30-minute cardiac and lung POCUS lecture followed by hands-on US training. The control group did not receive any POCUS training. Both groups participated in two scenarios: right unilateral TPTX and undifferentiated shock (no TPTX). In both scenarios, the patient continued to be hypoxemic after verified intubation with pulse oximetry of 86%-88% and hypotensive with a blood pressure of 70/50. Sirens were played at 65 decibels to mimic prehospital transport conditions. A simulation educator stated aloud the time diagnoses were made and procedures performed, which were recorded by the study investigator. Paramedics completed a pre-survey and post-survey.

Thirty paramedics were randomized to the control group; 30 paramedics were randomized to the US intervention group. Most paramedics had not received prior US training, had not previously performed a POCUS exam, and were uncomfortable with POCUS. Point-of-care US use was significantly higher in the US intervention group for both simulation cases (P <.001). A higher percentage of paramedics in the US intervention group arrived at the correct diagnosis (77%) for the TPTX case as compared to the control group (57%), although this difference was not significantly different (P = 0.1). There was no difference in the correct diagnosis between the control and US intervention groups for the undifferentiated shock case. On the post-survey, more paramedics in the US intervention group were comfortable with POCUS for evaluation of the lung and comfortable decompressing TPTX using POCUS (P <.001). Paramedics reported POCUS was within their scope of practice.

Despite being novice POCUS users, the paramedics were more likely to correctly diagnose TPTX during simulation after a brief POCUS educational intervention. However, this difference was not statistically significant. Paramedics were comfortable using POCUS and felt its use improved their TPTX diagnostic skills.

Needle thoracostomy (NT) is a common prehospital intervention for patients in extremis or cardiac arrest due to trauma. The purpose of this study is to compare outcomes, efficacy, and complications after a change in policy related to NT in a four-county Emergency Medical Services (EMS) system with a catchment area of greater than 1.6 million people.

This is a before and after observational study of all patients who had NT performed in the Central California (USA) EMS system. The before, anterior midclavicular line (MCL) group consisted of all patients who underwent NT from May 7, 2007 through February 28, 2013. The after, midaxillary line (MAL) axillary group consisted of all patients who underwent NT from March 1, 2013 through January 30, 2016, after policy revisions changed the timing, needle size, and placement location for NT. All prehospital and hospital records where NT was performed were queried for demographics, mechanism of injury, initial status and post-NT clinical change, reported complications, and final outcome. The trauma registry was accessed to obtain Injury Severity Scores (ISS). Information was manually abstracted by study investigators and examined utilizing univariate and multivariate analyses.

Three-hundred and five trauma patients treated with NT were included in this study, of which, 169 patients (the MCL group) were treated with a 14-guage intravenous (IV) catheter at least 5.0-cm long at the second intercostal space (ICS), MCL after being placed in the ambulance; and 136 patients (the MAL group) were treated with a 10-guage IV catheter at least 9.5-cm long at the fifth ICS, MAL on scene. The mean ISS was lower in the MAL cohort (64.5 versus 69.2; P=.007). The mortality rate was 79% in both groups. The multivariate model with regard to survival supported that a lower ISS (P<.001) and reported clinical change after NT (P=.003) were significant indicators of survival. No complications from NT were reported.

Changing the timing, length of needle, and location of placement did not change mortality in patients requiring NT. Needle thoracostomy was used more frequently after the change in policy, and the MAL cohort was less injured. No increase in reported complications was noted.

WeichenthalLA, OwenS, StrohG, RamosJ. Needle Thoracostomy: Does Changing Needle Length and Location Change Patient Outcome?Prehosp Disaster Med. 2018;33(3):237–244.

The use of prehospital needle thoracostomy (NT) is controversial. Some studies support its use; however, concerns exist regarding misplacement, inappropriate patient selection, and iatrogenic injury. Even less is known about its efficacy in situations where there is a delay to definitive care.

To determine any differences in survival of patients who underwent NT in the setting of prolonged versus short transport times, and to describe differences in mechanisms and complications between the two groups.

This was a retrospective, matched, case-control study of trauma patients in a four county Emergency Medical Service (EMS) system from April 1, 2007 through April 1, 2013. This system serves an urban, rural, and wilderness catchment area. A prehospital database was queried for all patients in whom NT was performed, identifying 182 patients. When these calls were limited to those with prolonged transport times, the search was narrowed to 32 cases. A matched control group, based on age and gender, with short transport times was then created as a comparison. Data collected from prehospital and hospital records included: demographics; mechanism of injury; call status; response to NT; and final outcome. Univariate and multivariate analyses were conducted, as appropriate, to assess the primary outcome of survival and to further elucidate the descriptive data.

There was no difference in survival between the case and control groups, either when evaluated with univariate (34% vs 25%; P=.41) or multivariate (odds ratio=0.99; 95% CI, 0.96-1.02; P=.57) analyses. Blunt trauma was the most common mechanism in both groups, but penetrating trauma was more common in the control group (30% vs 9%; P=.003). Patients in the control group were also more likely to have no vital signs on initial assessment (62% vs 31%; P=.003). More patients in the case group were described as having clinical improvement after NT (34% vs 19%; P=.03). No complications of NT were reported in either group.

There was no significant difference in survival between patients with prolonged versus short transport times who underwent NT. Patients with prolonged transport times were more likely to have sustained blunt trauma, have vital signs on EMS arrival, and to have clinical improvement after NT.

WeichenthalL , CraneDH , RondL , RocheC . Needle Thoracostomy for Patients with Prolonged Transport Times: A Case-control Study. Prehosp Disaster Med. 2015;30(4):1–5.

Tension pneumothorax is the second leading cause of preventable combat death. Although relatively simple, the management of tension pneumothorax is considered an advanced life support skill set. The purpose of this study was to assess the ability of non-medical law enforcement personnel to learn this skill set and to determine long-term knowledge and skill retention.

After completing a pre-intervention questionnaire, a total of 22 tactical team operators completed a 90-minute-long training session in recognition and management of tension pneumothorax. Post-intervention testing was performed immediately post-training, and at one- and six-months post-training.

Initial training resulted in a significant increase in knowledge (pre: 1.3 ±1.35, max score 7; post: 6.8 ±0.62, p < 0.0001). Knowledge retention persisted at one- and six-months post-training, without significant decrement.

Non-medical law enforcement personnel are capable of learning needle decompression, and retain this knowledge without significant deterioration for at least six months.