BackgroundThis study aims to compare the increased time needed to perform advanced focused cardiac measurements in the emergency department, including diastolic heart failure evaluation via E/E′, and cardiac output with LVOT/VTI. Patients with pertinent cardiopulmonary symptoms in the emergency department had a focused cardiac ultrasound performed by the emergency department ultrasound team. The ability to obtain basic cardiac windows, evaluate for effusion, systolic ejection fraction, and right-sided heart pressures were recorded. Advanced measurements, along with time to obtain all images and the training level of the provider, were recorded.ResultsFifty-three patients were enrolled. Basic focused cardiac windows were able to be obtained in 80% of patients. The average 4-window focused cardiac ultrasound took 4 min and 49 s to perform. Diastolic measurements were able to be obtained in 51% of patients, taking an average of 3 min and 17 s. Cardiac output measurements were able to be obtained in 53% of patients, taking an average of 3 min and 8 s.ConclusionThe ability to obtain these images improved with increasing level of training. Performing both cardiac output and diastolic measurements increased the time with bedside ultrasound by 6 min and 25 s, and were able to be obtained in slightly over half of all ED patients.
BackgroundIdentification of elevated intracranial pressure is important following traumatic brain injury. We assessed the feasibility of educating military trainees on accurately obtaining optic nerve sheath diameter measurements using a brief didactic and hands-on training session. Optic nerve sheath diameter is a noninvasive surrogate marker for elevated intracranial pressure, and may be of value in remote military operations, where rapid triage decisions must be made without access to advanced medical equipment.MethodsMilitary trainees with minimal ultrasound experience were given a 5-min didactic presentation on optic nerve sheath diameter ultrasound. Trainees practiced optic nerve sheath diameter measurements guided by emergency physician ultrasound experts. Trainees then measured the optic nerve sheath diameter on normal volunteers. Following this, a trained physician measured the optic nerve sheath diameter on the same volunteer as a criterion standard. An average of three measurements was taken.ResultsTwenty-three military trainees were enrolled. A mixed design ANOVA was used to compare measurements by trainees to those of physicians, with a mean difference of − 0.6 mm (P = 0.76). A Bland-Altman analysis showed that the degree of bias in optic nerve sheath diameter measures provided by trainees was very small: d = − 0.004 for the right eye and d = − 0.007 for the left eye.ConclusionThis study demonstrates that optic nerve sheath diameter measurement can be accurately performed by novice ultrasonographers after a brief training session. If validated, point-of-care optic nerve sheath diameter measurement could impact the triage of injured patients in remote areas.
Purpose: Identification of tube thoracostomy insertion location is currently performed using a blind, landmark based approach at either the fifth intercostal space (ICS) or inframammary crease in the midaxillary line. A significant percentage of thoracostomies at this site result in complications. This pilot study aimed to assess whether bedside ultrasound could aid in identifying safer tube thoracostomy insertion sites in emergency department patients.Methods: Fifty emergency department patients were enrolled in this study. Right and left hemidiaphragms were evaluated with ultrasound at the fifth ICS. Observations were made on if the diaphragm was below, above, or crossed the fifth ICS during an entire respiratory cycle.Results: Eighty-one (95% confidence interval 72-82) of the diaphragms were below, 13 (95% confidence interval 8-21) of the diaphragms were at, and 6 (95% confidence interval 3-12) of the diaphragms were above the location marked using traditional landmark techniques. On the right and left hemidiaphragms, 20% (95% confidence interval 19.9%-20.1%) and 18% (95% confidence interval 17.9%-18.1%) of diaphragms were above or crossing the fifth ICS, respectivelyConclusions: Ultrasound identified a significant number of potential chest tube insertion sites at the fifth ICS that would result in subdiaphragmatic insertion or diaphragmatic injury. Based on this data ultrasound can be used to identify safer insertion sites and reduce thoracostomy complications.
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