Prevention and Treatment of Nonfreezing Cold Injuries and Warm Water Immersion Tissue Injuries: Supplement to Wilderness Medical Society Clinical Practice Guidelines for the Prevention and Treatment of Frostbite.

We convened an expert panel to develop evidence-based guidelines for the evaluation, treatment, and prevention of nonfreezing cold injuries (NFCIs; trench foot and immersion foot) and warm water immersion injuries (warm water immersion foot and tropical immersion foot) in prehospital and hospital settings. The panel graded the recommendations based on the quality of supporting evidence and the balance between benefits and risks/burdens according to the criteria published by the American College of Chest Physicians. Treatment is more difficult with NFCIs than with warm water immersion injuries. In contrast to warm water immersion injuries that usually resolve without sequelae, NFCIs may cause prolonged debilitating symptoms, including neuropathic pain and cold sensitivity.

Wilderness Medical Society Clinical Practice Guidelines for the Out-of-Hospital Evaluation and Treatment of Accidental Hypothermia: 2019 Update.

To provide guidance to clinicians, the Wilderness Medical Society convened an expert panel to develop evidence-based guidelines for the out-of-hospital evaluation and treatment of victims of accidental hypothermia. The guidelines present the main diagnostic and therapeutic modalities and provide recommendations for the management of hypothermic patients. The panel graded the recommendations based on the quality of supporting evidence and a balance between benefits and risks/burdens according to the criteria published by the American College of Chest Physicians. The guidelines also provide suggested general approaches to the evaluation and treatment of accidental hypothermia that incorporate specific recommendations. This is the 2019 update of the Wilderness Medical Society Practice Guidelines for the Out-of-Hospital Evaluation and Treatment of Accidental Hypothermia: 2014 Update.

Wilderness Medical Society practice guidelines for the out-of-hospital evaluation and treatment of accidental hypothermia.

To provide guidance to clinicians, the Wilderness Medical Society (WMS) convened an expert panel to develop evidence-based guidelines for the out-of-hospital evaluation and treatment of victims of accidental hypothermia. The guidelines present the main diagnostic and therapeutic modalities and provide recommendations for the management of hypothermic patients. The panel graded the recommendations based on the quality of supporting evidence and the balance between benefits and risks/burdens according the criteria published by the American College of Chest Physicians. The guidelines also provide suggested general approaches to the evaluation and treatment of accidental hypothermia that incorporate specific recommendations.

Wilderness Medical Society practice guidelines for the out-of-hospital evaluation and treatment of accidental hypothermia: 2014 update.

To provide guidance to clinicians, the Wilderness Medical Society (WMS) convened an expert panel to develop evidence-based guidelines for the out-of-hospital evaluation and treatment of victims of accidental hypothermia. The guidelines present the main diagnostic and therapeutic modalities and provide recommendations for the management of hypothermic patients. The panel graded the recommendations based on the quality of supporting evidence and the balance between benefits and risks/burdens according the criteria published by the American College of Chest Physicians. The guidelines also provide suggested general approaches to the evaluation and treatment of accidental hypothermia that incorporate specific recommendations. This is an updated version of the original Wilderness Medical Society Practice Guidelines for the Out-of-Hospital Evaluation and Treatment of Accidental Hypothermia published in Wilderness & Environmental Medicine 2014;25(4):425-445.

Percutaneous transtracheal ventilation: resuscitation bags do not provide adequate ventilation.

INTRODUCTION: Percutaneous, transtracheal jet ventilation (PTJV) is an effective way to ventilate both adults and children. However, some authors suggest that a resuscitation bag can be utilized to ventilate through a cannula placed into the trachea. HYPOTHESIS: Percutaneous transtracheal ventilation (PTV) through a 14-gauge catheter is ineffective when attempted using a resuscitation bag. METHODS: Eight insufflation methods were studied. A 14-gauge intravenous catheter was attached to an adult resuscitation bag, a pediatric resuscitation bag, wall-source (wall) oxygen, portable-tank oxygen with a regulator, and a jet ventilator (JV) at two flow rates. The resuscitation bags were connected to the 14-gauge catheter using a 7 mm adult endotracheal tube adaptor connected to a 3 cc syringe barrel. The wall and tank oxygen were connected to the 14-gauge catheter using a three-way stopcock. The wall oxygen was tested with the regulator set at 15 liters per minute (LPM) and with the regulator wide open. The tank was tested with the regulator set at 15 and 25 LPM. The JV was connected directly to the 14-gauge catheter using JV tubing supplied by the manufacturer. Flow was measured using an Ohmeda 5420 Volume Monitor. A total of 30 measurements were taken, each during four seconds of insufflation, and the results averaged (milliliters (ml) per second (sec)) for each device. RESULTS: Flow rates obtained using both resuscitation bags, tank oxygen, and regulated wall oxygen were extremely low (adult 215 +/- 20 ml/sec; pediatric 195 +/- 19 ml/sec; tank 358 +/- 13 ml/sec; wall at 15 l/min 346 +/- 20 ml/sec). Flow rates of 1,394 +/- 13 ml were obtained using wall oxygen with the regulator wide open. Using the JV with the regulator set at 50 pounds per square inch (psi), a flow rate of 1,759 +/- 40 was obtained. These were the only two methods that produced flow rates high enough to provide an adequate tidal volume to an adult. CONCLUSIONS: Resuscitation bags should not be used to ventilate adult patients through a 14-gauge, transtracheal catheter. Jet ventilation is needed when percutaneous transtracheal ventilation is attempted. If jet ventilation is attempted using oxygen supply tubing, it must be connected to an unregulated oxygen source of at least 50 psi.

The status of bedside ultrasonography training in emergency medicine residency programs.

UNLABELLED: Bedside ultrasonography (BU) is rapidly being incorporated into emergency medicine (EM) training programs and clinical practice. In the past decade, several organizations in EM have issued position statements on the use of this technology. Program training content is currently driven by the recently published "Model of the Clinical Practice of Emergency Medicine," which includes BU as a necessary skill. OBJECTIVE: The authors sought to determine the current status of BU training in EM residency programs. METHODS: A survey was mailed in early 2001 to all 122 Accreditation Council for Graduate Medical Education (ACGME)-accredited EM residency programs. The survey instrument asked whether BU was currently being taught, how much didactic and hands-on training time was incorporated into the curriculum, and what specialty representation was present in the faculty instructors. In addition, questions concerning the type of tests performed, the number considered necessary for competency, the role of BU in clinical decision making, and the type of quality assurance program were included in the survey. RESULTS: A total of 96 out of 122 surveys were completed (response rate of 79%). Ninety-one EM programs (95% of respondents) reported they teach BU, either clinically and/or didactically, as part of their formal residency curriculum. Eighty-one (89%) respondents reported their residency program or primary hospital emergency department (ED) had a dedicated ultrasound machine. BU was performed most commonly for the following: the FAST scan (focused abdominal sonography for trauma, 79/87%); cardiac examination (for tamponade, pulseless electrical activity, etc., 65/71%); transabdominal (for intrauterine pregnancy, ectopic pregnancy, etc., 58/64%); and transvaginal (for intrauterine pregnancy, ectopic pregnancy, etc., 45/49%). One to ten hours of lecture on BU was provided in 43%, and one to ten hours of hands-on clinical instruction was provided in 48% of the EM programs. Emergency physicians were identified as the faculty most commonly involved in teaching BU to EM residents (86/95%). Sixty-one (69%) programs reported that EM faculty and/or residents made clinical decisions and patient dispositions based on the ED BU interpretation alone. Fourteen (19%) programs reported that no formal quality assurance program was in place. CONCLUSIONS: The majority of ACGME-accredited EM residency programs currently incorporate BU training as part of their curriculum. The majority of BU instruction is done by EM faculty. The most commonly performed BU study is the FAST scan. The didactic component and clinical time devoted to BU instruction are variable between programs. Further standardization of training requirements between programs may promote increasing standardization of BU in future EM practice.

Hypothermia with profound anemia and pancreatitis.

A patient with severe hypothermia presented with an initial rectal temperature of 28.3 degrees C coupled with a hemoglobin of 2.2 g x dL(-1) and acute pancreatitis. Although hypothermia decreases oxygen and substrate consumption by tissues and can be cerebro-protective, the ideal rewarming strategy is unclear when the oxygen-delivery system is profoundly deficient, as with severe anemia. In this patient, truncal active external rewarming with a forced-air system, heated inhalation, and slow warmed transfusion yielded a 1.5 degrees C x h(-1) rate of rewarming and a good outcome. We discuss the numerous protective and detrimental factors affecting oxygenation and ventilation during hypothermia coupled with profound anemia and the possible etiologic explanations for coexistent hypothermia and pancreatitis.

Hypothermia.

Accidental hypothermia is defined as an unintentional decline in the core temperature below 35 degrees C. The population of patients at risk is very heterogeneous. Common thermal stressors include both primary exposures and secondary contributory diseases or injuries. As the core temperature progressively declines, the compensatory metabolic, adrenergic, and cardiovascular responses that attempt to maintain thermal homeostasis fail. At this juncture, therapeutic intervention must occur. An understanding of the pathophysiological variables impacting rewarming is critical. For example, the effects of cold on the coagulation system impact both the approach to cardiovascular resuscitation and the choice of rewarming technique. There are no randomized controlled trials that definitively establish the ideal rewarming strategy for each unique presentation. The resuscitative goal is to match the clinical presentation with the threshold temperatures at which various rewarming modalities and pharmacological interventions should occur. Identification of the indications for both noninvasive and invasive active rewarming techniques in patients requiring critical care is key. Poikilothermia, failure to rewarm, endocrinologic insufficiency, cardiovascular instability, traumatic or toxicological induced peripheral vasodilation, or the presence of major predisposing factors mandates active rewarming. The simultaneous or sequential use of the various rewarming techniques permits a versatile approach to therapy. Outcome remains problematic to predict because there may never be a validated prognostic neurological scale. The history, physical examination, and, ironically, the vital signs are routinely misleading. A tachycardia that is not proportionate to the degree of hypothermia suggests hypovolemia, hypoglycemia, or the presence of toxins. Given the decreased carbon dioxide production, persistent hyperventilation implies an underlying organic acidosis or central nervous system abnormality. Finally, toxic or traumatic or infectious impairment of the central nervous system may be obscured by hypothermia.