Closed reduction of fractures or dislocations in the hand and wrist can be difficulty to achieve. Gravity can serve as an assistant. Commercial finger traps are available, but can sometimes be hard to find in the Emergency Department. An earlier trick of the trade describes the use of a gauze role to build your own finger trap setup. The following describes a simpler way to build finger traps using a gauze roll.
Paraphimosis occurs when a retracted foreskin can’t be reduced back over the glans of the penis. Risk factors for paraphimosis include scarring, vigorous sexual activity, chronic balanoposthitis, and forgetting to replace the foreskin after catheterization or manipulation.
Paraphimosis can be a urological emergency as the tight ring formed by the foreskin can cause ischemia to the tip of the penis and eventually gangrene. Timely reduction is of high importance. Treatment involves gentle compression of the glans and gradual manual foreskin retraction.1 Unfortunately, as time goes on, more swelling occurs making traditional reduction techniques more difficult.
Ear irrigation is an important tool for adult and pediatric patients in the Emergency Department (ED) with ENT complaints. Irrigation can be used to clear ear cerumen, visualize tough-to-see tympanic membranes, and remove foreign bodies. This may reduce the need for subspecialist care and improve the patient’s hearing and quality of life.1 Commercial electronic and mechanical devices are available for irrigation and have been studied. Moulton and Jones presented the improved efficacy of foreign body removal using an electric ear syringe in an (ED) population.2 In this trick of the trade, we present a low cost and effective way of “ear-rigation” taught to us by one of our veteran nurses using easily available tools in the ED.
You are caring for a patient with an incredibly swollen eye – like a scene out of almost any Rocky film. This patient is likely going to the CT scanner, but regardless of the finding (retrobulbar hematoma, orbital wall fracture, etc.) you still need to evaluate for extraocular muscle entrapment and loss of pupillary response. There’s only one problem: you can’t see the eye. The old standards like getting the patient to retract their lid using paperclips or a cotton swab may help; but sometimes there is just too much swelling, and those techniques are just not enough. Without brute force – and potentially causing more trauma – you likely won’t be able to examine this patient’s eye.
With the advent of commercial intraosseous (IO) needles for vascular access, administering IV medications for patients in extremis has been made much easier. Securing the IO needle to the patient’s tibia, femur, or humerus, however, is a different story. After successful patient resuscitation, these needles often tenuously secured through creative uses of sterile gauze, trimmed paper cups, bag valve masks, and/or just tape. Stabilization of tibial IO lines can be difficult in a sedated, intubated patient. This can be even more difficult in an agitated, moving patient.
In cardiac arrest care it is well accepted that time to defibrillation is closely correlated with survival and outcome.1 There has also been a lot of focus over the years on limiting interruptions in chest compressions during CPR. In fact, this concept has become a major focus of the current AHA Guidelines. Why? Because we know interruptions are bad.2,3 One particular aspect of CPR that has gotten a lot of attention in this regard is the peri-shock period. It has been well established that longer pre- and peri-shock pauses are independently associated with decreased chance of survival.4,5 Can we do better to shock sooner and minimize these pauses?
The Problem: A patient is rolled in to your ED by EMS with extremity trauma. You’re rightfully concerned about possible vascular injury to an upper or lower extremity, but you can’t palpate a dorsalis pedis (DP) or posterior tibialis (PT) pulse! You spend minutes, whisking the doppler probe, attempting to hear a waveform in a busy ED. Unfortunately you can’t seem to hear the “whoosh,” making accurate it nearly impossible for you to measure ankle-brachial indices (ABI). 1–3