Chanel O’Brien, DO| EM PGY-3
The Idea: The purpose of this study was to determine the sensitivity and specificity of novice emergency physician-performed point-of-care ultrasound diagnosis of papilledema using optic nerve sheath diameter (ONSD) against ophthalmologist performed dilated fundoscopy.
The Study: This was an observational study performed at a large, >100,000 annual volume, tertiary-care urban academic medical center which retrospectively analyzed results regarding ultrasound measured ONSD of emergency department (ED) patients. The study looked at patients over the age of 18 years that presented with primary vision complaints evaluated for papilledema both by an emergency physician-performed ultrasound and an ophthalmologist-performed fundoscopic examination. Operators were novice resident emergency physicians and had varying levels of POCUS experience. Images were collected on a Phillips Sparq or a Sonosite Xporte ultrasound machine using a high-frequency linear transducer with patients in an upright position. Optic-nerve sheath diameter was measured 3 mm posterior to the papilla with calipers placed at the interior border of the hypoechoic nerve, measured in two planes with the average of the measurements recorded. Patients were excluded if they did not receive both formal ophthalmology evaluation and bedside ocular ultrasound performed by an emergency physician. A retrospective chart review was conducted for adult patients that meet the study criteria above. All POCUS ocular examinations reviewed had been stored within the centralized image repository and were queried for concomitant ED visit ophthalmology consultation via electronic health record database query. As a second measure, the ultrasound images were also reviewed in QPath. During the chart review, the results of the ophthalmologist-performed fundoscopic examination including detection of papilledema and grading of the papilledema (if applicable) were recorded against the physician-measured ONSD. ONSD measurement greater than 5 mm on ocular ultrasound was diagnosed as papilledema.
The Findings: A total of 206 individuals (51% female, 49% male) were included in the analysis for a total of 212 considered encounters performed by 55 unique resident physician operators ranging from PGY1–PGY4. Of those 212 encounters included in the final analysis, 28 (13.2%) resulted in a diagnosis of papilledema by funduscopic examination for at least 1 eye. There was no significant difference in sex amoung the encounters (female: 53.3%, male: 46.7%), but there was a statistically significant difference in sex between encounters with (female: 78.6%; male: 21.4%) and without (female: 49.5%; male: 50.5%) papilledema. There was also a significant difference in age between individuals with (median: 37.0 years, interquartile range: 27.0-46.5 years) and without (median: 48.0 years, interquartile range: 33.0-60.0 years) fundoscopic- diagnosed papilledema. A total of 372 instances of ophthalmologist fundoscopy and emergency physician-performed ONSD measurement were used to calculate the sensitivity and specificity as well as positive and negative predictive value of the emergency physicians’ ocular ultrasound evaluation for papilledema. Sensitivity for the ocular ultrasound (cutoff = 5.0 mm) performed by emergency physicians to diagnose papilledema was calculated to be 46.9%, and specificity was 87.0%. The PPV was 35.4%, and the NPV was 91.5%.
The Takeaway: Compared to the standard of care of formal ophthalmology evaluation via fundoscopy, the ocular ultrasound performed by novice emergency physicians has low sensitivity and high specificity, showing that although it may be a useful tool for ruling in a diagnosis of papilledema, it is not sufficiently sensitive to rule out papilledema. For now, ocular ultrasound cannot be used as a screening tool for evaluation of increased intracranial pressure in the emergency department, and if the physician is concerned for papilledema, the patient should undergo formal ophthalmology evaluation.
