Minimal training sufficient to diagnose pediatric wrist fractures with ultrasound

Point-of-care ultrasound for the diagnosis of distal forearm fractures in children and adolescents: a scoping review

Distal forearm fractures are the most common pediatric fractures. Currently, the diagnostic reference standard is X-ray. However, there is growing evidence that point-of-care ultrasound can be used for the diagnosis of distal forearm fractures in children and adolescents with good accuracy. The objective of this scoping review was to explore the current evidence for the use of ultrasound for the diagnosis of pediatric distal forearm fractures and to identify the gaps in the literature for further research. We performed a scoping review searching on the following databases PubMed, MEDLINE, SCOPUS, EMBASE, and ClinicalTrials.gov. The main review question was "What is the evidence for using ultrasound to diagnose distal forearm fractures in patients < 18 years old?" All types of studies, including randomized clinical trials and prospective and retrospective observational studies (case-control, cohort, and cross-sectional studies, case series) were included. Twenty-three articles were included in the scoping review; only two articles were from a single randomized controlled trial. Our scoping review found high sensitivity (91.5-99.5%) and specificity (85-99.5%) of POCUS for distal forearm fracture diagnosis. All studies used a linear ultrasound probe, with an upper range frequency ranging from 5 to 15 MHz and typically used a six-view scanning protocol. The duration of the procedure was only a few minutes, and pain associated with ultrasound was usually mild. When compared with X-ray, an ultrasound first approach shortened the length of stay by an average of 15 min per participant. Conclusions: The evidence suggests that ultrasound can be used for the diagnosis of clinically nondeformed distal forearm fractures in children and adolescents by a variety of practitioners. However, the current gaps in the literature include its translation into clinical practice and its cost-effectiveness.

Ultrasound-guided techniques for managing length- unstable femoral shaft fractures in children

OBJECTIVE

The management of length-unstable femoral shaft fractures(LUFSFs) in pediatric patients is still controversial. This study aims to explore the clinical efficacy of ultrasound-guided closed reduction combined with external fixation for treating LUFSFs in children.

METHODS

We conducted a retrospective analysis of clinical data from 19 pediatric patients with LUFSFs who underwent ultrasound-guided closed reduction and external fixation between January 2018 and January 2023. Ultrasound was employed not only to facilitate closed reduction of the fracture but also to guide real-time insertion of Schanz pins and monitor pin length as it traversed the opposite cortex. Surgical time, intraoperative fluoroscopy count, hospital stay length, fracture fixation duration, complication incidence, fracture reduction quality at the final follow-up were recorded.

RESULTS

The patients' average age was 7.5 years( range: 5 to 11 years). The mean surgical duration was 70.4 min (range: 48-105 min), and the average intraoperative fluoroscopy count was 6.5 (range: 2-16). Fracture fixation lasted an average of 10.9 weeks (range: 7-20 weeks). All patients were followed up for more than one year. 6 cases of superficial pin tract infection occurred, which resolved with oral antibiotics and enhanced needle tract care. No deep infections were observed. Temporary stiffness of the knee joint was observed in 2 patients. According to Flynn's efficacy evaluation system, fracture reduction quality at the final follow-up was rated as excellent in 11 cases and satisfactory in 8 cases, yielding a combined success rate of 100% (19/19).

CONCLUSIONS

The technique of ultrasound-guided closed reduction combined with external fixation offers favorable outcomes for children aged 5 to 11 years with LUFSFs, reducing reliance on fluoroscopic guidance.

A meta-analysis on the diagnostic utility of ultrasound in pediatric distal forearm fractures

Pediatric distal forearm fractures, comprising 30% of musculoskeletal injuries in children, are conventionally diagnosed using radiography. Ultrasound has emerged as a safer diagnostic tool, eliminating ionizing radiation, enabling bedside examinations with real-time imaging, and proving effective in non-hospital settings. The objective of this study is to evaluate the diagnostic efficacy of ultrasound for detecting distal forearm fractures in the pediatric population. A systematic review and meta-analysis were conducted through a comprehensive literature search in PubMed, Scopus, Web of Science, and Embase databases until October 1, 2023, following established guidelines. Eligible studies, reporting diagnostic accuracy measures of ultrasound in pediatric patients with distal forearm fractures, were included. Relevant data elements were extracted, and data analysis was performed. The analysis included 14 studies with 1377 patients, revealing pooled sensitivity and specificity of 94.5 (95% CI 92.7-95.9) and 93.5 (95% CI 89.6-96.0), respectively. Considering pre-test probabilities of 25%, 50%, and 75% for pediatric distal forearm fractures, positive post-test probabilities were 83%, 44%, and 98%, while negative post-test probabilities were 2%, 6%, and 15%, respectively. The bivariate model indicated significantly higher diagnostic accuracy in the subgroup with trained ultrasound performers vs. untrained performers (p = 0.03). Furthermore, diagnostic accuracy was significantly higher in the subgroup examining radius fractures vs. ulna fractures (p < 0.001), while no significant differences were observed between 4-view and 6-view ultrasound subgroups or between radiologist ultrasound interpreters and non-radiologist interpreters. This study highlighted ultrasound's reliability in detecting pediatric distal forearm fractures, emphasizing the crucial role of expertise in precisely confirming fractures through ultrasound examinations.

Diagnostic accuracy of ultrasound versus X-ray for distal forearm fractures in children and adolescents: a systematic review and meta-analysis

PURPOSE

Utilizing ultrasound for the detection of distal forearm fractures in children presents a potential safe and radiation-free alternative compared to X-ray.

METHODS

A systematic review was undertaken to compare the diagnostic accuracy of ultrasound in detecting distal forearm fractures in children with X-ray imaging within the period spanning January 2010 to August 2023. The electronic databases MEDLINE and Cochrane CENTRAL were utilized for data retrieval. The QUADAS-2 tool was employed to assess the quality of the included studies. Subsequent statistical analysis was performed to calculate pooled sensitivity and specificity, positive and negative likelihood ratios, as well as the diagnostic odds ratio.

RESULTS

Our meta-analysis included seventeen studies, encompassing a total of 2003 patients, 2546 ultrasound scans, and 1203 fracture cases as identified by the reference test (X-ray). The pooled sensitivity and specificity were 0.96 (95% CI: 0.93-0.98) and 0.96 (95% CI: 0.89-0.98), respectively. The positive likelihood ratio was 13.40 (95% CI: 7.97-21.50), the negative likelihood ratio was 0.06 (95% CI: 0.04-0.1), and the pooled diagnostic odds ratio was 209 (95% CI: 92.20-412.00). Our statistical analysis revealed low heterogeneity within our studied cohort.

CONCLUSIONS

Our study indicates that ultrasound exhibits exceptionally high accuracy in the detection of distal forearm fractures in children and adolescents. It can be employed safely to either confirm or rule out a fracture, thus circumventing the need for potentially harmful radiation exposure in this vulnerable population. Future research endeavors should focus on establishing a universally accepted protocol for training and scanning methods to standardize practices and eliminate disparities in diagnostic procedures.

A comparative study: Ultrasound-guided leverage reduction with internal fixation using Kirschner wires or elastic stable intramedullary nailing for severely displaced radial neck fractures in children

Treatment of radial neck fractures (RNFs) in children, particularly those with severe displacement or angulation, remains controversial, largely due to the challenge of achieving optimal reduction without resorting to open reduction. This study aimed to assess the outcomes of ultrasonography (US)-guided percutaneous leverage reduction coupled with US-guided fixation using either elastic stable intramedullary nail (ESIN) or Kirschner wire (KW) for severely displaced Judet type III and IV RNFs in children. We hypothesized that both strategies would be effective and aimed to identify the superior approach. A total of 38 pediatric patients presenting with Judet type III and IV RNFs resulting from falls were treated surgically between January 2020 and January 2022. The cohort comprised 15 boys and 23 girls, aged on average 7.6 ± 2.3 (range: 2.8-11.3 years). The fractures were classified as type III (n = 28) and type IV (n = 10). The patients were divided into 2 treatment groups: ESIN group (n = 15; treated with US-guided percutaneous leverage reduction and ESIN fixation) and the KW group (n = 23; treated with US-guided percutaneous leverage reduction and KW fixation). Variables such as surgical time, frequency of intraoperative radiography, fracture healing time, hospitalization costs, radiographic outcomes, and functional elbow scores were analyzed. Most fractures demonstrated both clinical and radiographic evidence of complete healing within 7 weeks. Based on the Tibone and Stoltz classification (Tibone J, Stoltz M. Fractures of the radial head and neck in children. J Bone Joint Surg Am. 1981;63:100-6), almost all patients had excellent or good clinical outcomes, with only one exception in the ESIN group. The KW group exhibited significantly lower hospitalization costs compared to the ESIN group [(9562.6 vs 12,043.6 + 7694.0)¥, P < .05]. Both groups required notably few intraoperative radiographic exposures (KW: 5.4 ± 2.1 times, ESIN: 4.0 ± 1.9 times, P < .05). No major complications were reported. However, one case of ESIN displacement and joint protrusion was noted. Our study suggests that US-guided percutaneous leverage reduction, combined with either ESIN or KW fixation, is an effective treatment for severely displaced radial neck fractures in children. Both treatment modalities resulted in notably few intraoperative radiographic exposures and yielded favorable clinical and radiological outcomes. The integration of US-guided leverage reduction and KW fixation is both cost-effective and safe.

2D/3D ultrasound diagnosis of pediatric distal radius fractures by human readers vs artificial intelligence

Wrist trauma is common in children and generally requires radiography for exclusion of fractures, subjecting children to radiation and long wait times in the emergency department. Ultrasound (US) has potential to be a safer, faster diagnostic tool. This study aimed to determine how reliably US could detect distal radius fractures in children, to contrast the accuracy of 2DUS to 3DUS, and to assess the utility of artificial intelligence for image interpretation. 127 children were scanned with 2DUS and 3DUS on the affected wrist. US scans were then read by 7 blinded human readers and an AI model. With radiographs used as the gold standard, expert human readers obtained a mean sensitivity of 0.97 and 0.98 for 2DUS and 3DUS respectively. The AI model sensitivity was 0.91 and 1.00 for 2DUS and 3DUS respectively. Study data suggests that 2DUS is comparable to 3DUS and AI diagnosis is comparable to human experts.

Sonographic Fracture Diagnosis in Children and Adolescents

BACKGROUND

Clinical examination after trauma, especially in young children, often proves difficult. As a result, the majority of images show unremarkable findings in the imaging workup of trauma by radiography. Sonography represents an imaging technique without the use of X-rays. As the quality of ultrasound equipment has increased over the past 20 years, numerous studies have demonstrated that fractures in children and adolescents can be detected with very high sensitivity and specificity by sonography.

METHOD

This paper reviews the results obtained so far in the literature. Based on these findings, the importance of sonographic fracture diagnosis in childhood and adolescence for the most important locations is demonstrated.

RESULTS

When examining with a high-frequency linear transducer, sensitivities and specificities of more than 90 % can be achieved for the detection of fractures. Dislocations are also reliably detected. In contrast to X-ray examination, sonography allows the diagnosis of cartilage and soft-tissue injuries. Sonography reveals callus formation earlier than radiographs. The examination causes less pain than X-ray examination. If sonographic clarification is limited purely to fracture detection or exclusion, less time is required compared to X-ray diagnosis. The procedure can be learned quickly. If the documentation follows a defined standard examination procedure, the results can also be reproduced by non-examiners.

CONCLUSION

So far, sonography has only been an additive procedure in fracture diagnosis. However, there are now initial recommendations for sonographic fracture diagnosis alone, such as in skull, clavicle and non-displaced distal forearm fractures.

KEY POINTS

· Sonography can be used to detect or rule out fractures very sensitively.. · Sonographic examination causes less pain than X-ray examination.. · Sonography is usually an additive procedure in fracture diagnosis.. · In the meantime, sonography alone may be sufficient for diagnosing individual fractures..

ZITIERWEISE

· Moritz JD. Sonografische Frakturdiagnostik im Kindes- und Jugendalter. Fortschr Röntgenstr 2023; 195: 790 - 796.

Ultrasound in the Diagnosis of Pediatric Distal Radius Fractures: Does it Really Change the Treatment Policy? An Orthopedic View

BACKGROUND

Distal radius fractures are the most common pediatric fractures, increasing in number in recent decades. Although simple bi-planar radiographs are sufficient for diagnosis, wrist ultrasonography has been popularized in recent years for fracture detection, mostly because of the concern about children's radiation exposure. Despite its availability and diagnostic accuracy, ultrasound has not gained widespread acceptance and popularity among orthopedic surgeons. We asked about the reasons for its lack of acceptance as a diagnostic tool by orthopedic surgeons, and its failure to be incorporated into diagnostic algorithms.

MATERIAL AND METHODS

We reviewed the latest articles concerning the use of ultrasound in the diagnosis of pediatric distal radius fracture. Data extraction was performed from each study with a focus on the following items: the specialty field of the authors, number of patients, number of fractures, mean age of the patients, and the gold standard method of diagnosis.

RESULTS

Nine studies concerning the diagnostic accuracy of ultrasound in detecting distal radius fractures in children were included in the review. The most common field of practice of the authors was emergency medicine. Only two studies had an orthopedic surgeon among their authors. All studies employed X-ray imaging as the gold standard method. All studies were designed as prospective trials without randomization of patients. Generally, there was no independent blinded reviewer for the interpretation of ultrasound and X-ray images.

CONCLUSIONS

Most studies were completed by emergency medicine physicians, without involving an orthopedic surgeon. Ultrasound evaluation was undertaken primarily by emergency medicine physicians with little experience. These studies were not randomized controlled trials, and knowledge of the history and clinical presentation of the subjects could have led to information bias. The relatively low number of included patients and lack of follow-up examinations were other limitations. As a result, we believe that ultrasound has not proven to be a suitable substitute for conventional X-ray imaging in the detection of pediatric distal radius fractures. We propose X-ray evaluation as the clinical gold standard method for pediatric wrist fractures.

Management of "torus" or "buckle" fractures of the distal radius: a systematic review

BACKGROUND

Torus fractures, also known as buckle fractures, of the distal radius are a very common reason for presentation to emergency departments. Traditional approaches to their management involved immobilisation in a circumferential cast but the evidence now supports the use of removable splints with or without radiological and clinical follow-up. Unfortunately current practice conflicts with the evidence base and there is no guideline which highlights all the evidence as one clear, concise management protocol.

METHODS

An online review of Pubmed, EMBASE, Biomed, and the Cochrane library using keyword searches combining "radius", "torus", "buckle" and "fracture" was performed. All prospective, retrospective or randomised trials involving the management of distal radius torus fractures in patients aged 0-18 years were included. Our outcomes focused on 5 aspects of patient care: immobilisation method and duration, clinical follow-up, radiological follow-up and the use of diagnostic ultrasound.

RESULTS

The initial search identified 143 papers which following application of the inclusion and exclusion criteria 21 articles were deemed eligible. A Cochrane review and 8 systematic reviews were also identified and manually searched for missed articles and this yielded a further 3 articles.

CONCLUSIONS

Current research indicates that torus fractures should be managed with a removable splint supplied in A&E and worn for 3 weeks. There is no need for fracture clinic follow-up or repeat radiological imaging once patients are given adequate information at the time of diagnosis. This would represent both an economical and resource saving for patients, parents and the health service.

Radiation Reduction Strategies in Pediatric Orthopaedics

INTRODUCTION

Pediatric orthopaedic patients have the potential for significant radiation exposure from the use of imaging studies, such as computed tomography and bone scintigraphy. With the potential for long-term treatment, such as is required for scoliosis or osteogenesis imperfecta, patients are at even greater risk of radiation-induced carcinogenesis.

DISCUSSION

Although an association between radiation and cancer risk is evident, causation is difficult to prove because comorbidities or genetic predispositions may play a role in the higher baseline rates of malignancy later in life. Efforts have been made over the years to reduce exposure using more modern imaging techniques and simple radiation reduction strategies. Educational efforts and clinical practice guidelines are decreasing the rate of computed tomography scan use in pediatrics. Although considerable work is being done on the development of radiation-free imaging modalities, imaging that uses ionizing radiation will, in the near term, be necessary in specific circumstances to provide optimal care to pediatric orthopaedic patients.

CONCLUSION

Knowledge of the ionizing radiation exposure associated with commonly used tests as well as radiation-reduction strategies is essential for the optimal and safe care of pediatric orthopaedic patients.

Diagnostic Accuracy of 3D Ultrasound and Artificial Intelligence for Detection of Pediatric Wrist Injuries

Wrist trauma is common in children, typically requiring radiography for diagnosis and treatment planning. However, many children do not have fractures and are unnecessarily exposed to radiation. Ultrasound performed at bedside could detect fractures prior to radiography. Modern tools including three-dimensional ultrasound (3DUS) and artificial intelligence (AI) have not yet been applied to this task. Our purpose was to assess (1) feasibility, reliability, and accuracy of 3DUS for detection of pediatric wrist fractures, and (2) accuracy of automated fracture detection via AI from 3DUS sweeps. Children presenting to an emergency department with unilateral upper extremity injury to the wrist region were scanned on both the affected and unaffected limb. Radiographs of the symptomatic limb were obtained for comparison. Ultrasound scans were read by three individuals to determine reliability. An AI network was trained and compared against the human readers. Thirty participants were enrolled, resulting in scans from fifty-five wrists. Readers had a combined sensitivity of 1.00 and specificity of 0.90 for fractures. AI interpretation was indistinguishable from human interpretation, with all fractures detected in the test set of 36 images (sensitivity = 1.0). The high sensitivity of 3D ultrasound and automated AI ultrasound interpretation suggests that ultrasound could potentially rule out fractures in the emergency department.

The Child With a Painful Arm: A POCUS Screening Protocol to Identify Fracture in Children With Upper Extremity Injury

BACKGROUND

Young children present frequently to the emergency department with an immobile, painful arm. It is often difficult to discern a point of tenderness in a frightened, injured child. Common approaches included sending the child for x-ray studies of the extremity or empirically attempting reduction of radial head subluxation. We created a step-by-step point-of-care ultrasound screening protocol of the upper extremity to increase or decrease the probability of fracture before x-ray study or reduction.

CASE REPORT

We present the cases of 6 children younger than 4 years without a clear history of pulled elbow and without swelling or deformity on examination, for whom this protocol revealed fracture or lowered the probability of fracture, thereby increasing the safety of radial head reduction. WHY SHOULD AN EMERGENCY PHYSICIAN BE AWARE OF THIS?: In most cases, identification of a single fracture on ultrasound allows for focused x-ray study on the area of fracture. Children with a normal ultrasound screen can undergo reduction of radial head subluxation safely.

Comparison of ultrasound-guided versus fluoroscopy-guided reduction of forearm fractures in children

PURPOSE

Point-of-care ultrasound (POCUS) can be used to guide and assess reduction of pediatric forearm fractures. In this study, we sought to compare the success rate of ultrasound-guided fracture reduction with fluoroscopy-guided fracture reduction. We also sought to determine whether there are cost or time benefits to using ultrasound instead of fluoroscopy.

METHODS

The electronic medical records of patients less than 18 years of age presenting to a pediatric emergency department with a forearm fracture between April 2016 and March 2019 were screened for inclusion in this study. A total of 27 ultrasound-guided reductions were identified during this time period and 81 fluoroscopy-guided reductions were randomly selected for comparison. Cost data was provided by the financial department. Reduction success, total length of stay, and costs were compared between the two groups, and multiple linear regression was used to determine the influence of any confounding predictor variables.

RESULTS

There were no failed reductions in either group. Length of stay was shorter in the POCUS group (221 min) compared with the fluoroscopy group (254 min, p = 0.014), but this significance was lost in the regression model when adjusted for ketamine use. Provider costs ($430 v $442, p = 0.822) and total costs ($1219 v $1204, p = 0.851) were the same between the POCUS group and the fluoroscopy group, respectively.

CONCLUSION

POCUS appears to be an equally effective imaging modality to guide reduction of forearm fractures as compared to fluoroscopy.

Ultrasound Imaging of Orthopedic Injuries

With the high cost and limited availability of gold standard imaging modalities, ultrasound has become an alternative in many musculoskeletal (MSK) injuries. Ultrasound has become increasingly portable and readily available in many acute care settings. Its ability to diagnose MSK injuries and help guide management has the potential to improve patient safety and flow. Ultrasound has been shown to diagnose fractures, dislocations, and tendon and ligament injuries. It helps guide fracture and dislocation reductions and aids in regional anesthesia for pain management. This article reviews the common MSK injuries that can be diagnosed with ultrasound with a focus on point-of-care ultrasound.

Point-of-care ultrasound in primary care: a systematic review of generalist performed point-of-care ultrasound in unselected populations

BACKGROUND

Both the interest and actual extent of use of point-of-care ultrasound, PoCUS, among general practitioners or family physicians are increasing and training is also increasingly implemented in residency programs. However, the amount of research within the field is still rather limited compared to what is seen within other specialties in which it has become more established, such as in the specialty of emergency medicine. An assumption is made that what is relevant for emergency medicine physicians and their populations is also relevant to the general practitioner, as both groups are generalists working in unselected populations. This systematic review aims to examine the extent of use and to identify clinical studies on the use of PoCUS by either general practitioners or emergency physicians on indications that are relevant for the former, both in their daily practice and in out-of-hours services.

METHODS

Systematic searches were done in PubMed/MEDLINE using terms related to general practice, emergency medicine, and ultrasound.

RESULTS

On the extent of use, we identified 19 articles, as well as 26 meta-analyses and 168 primary studies on the clinical use of PoCUS. We found variable, but generally low, use among general practitioners, while it seems to be thoroughly established in emergency medicine in North America, and increasingly also in the rest of the world. In terms of clinical studies, most were on diagnostic accuracy, and most organ systems were studied; the heart, lungs/thorax, vessels, abdominal and pelvic organs, obstetric ultrasound, the eye, soft tissue, and the musculoskeletal system. The studies found in general either high sensitivity or high specificity for the particular test studied, and in some cases high total accuracy and superiority to other established diagnostic imaging modalities. PoCUS also showed faster time to diagnosis and change in management in some studies.

CONCLUSION

Our review shows that generalists can, given a certain level of pre-test probability, safely use PoCUS in a wide range of clinical settings to aid diagnosis and better the care of their patients.

The use of cadaver models to diagnose rib fractures: A pilot study

BACKGROUND

In the emergency department, rib fractures are a common finding in patients who sustain chest trauma. Rib fractures may be a sign of significant, underlying pathology, especially in the elderly patients where rib fractures are associated with significant morbidity and mortality. To date, no studies have evaluated the ability of ultrasound to detect rib fractures using cadaver models and subsequently use this model as a teaching tool.

OBJECTIVES

The purpose of this study was to determine if it is possible to generate rib fractures on cadaver models which could be accurately identified using ultrasound.

METHODS

This was a cross-sectional study performed during one session at a cadaver lab. A single hemithorax from four adult cadavers were used as models. Single rib fractures on each of rib five through eight were created. Four subjects, blinded to the normal versus fractured ribs, were asked to identify the presence of a fracture on each rib.

RESULTS

A total of 8 of 16 potential ribs had fractured induced by study staff. Mean accuracy was 55% for all subjects. The overall sensitivity and specificity for detecting rib fractures was 50% (CI: 31.89-68.11) and 59.38% (CI: 35.69-73.55) respectively. The overall PPV and NPV was 55.17% and 54.29% respectively.

CONCLUSIONS

In this pilot study, subjects were not able to detect induced rib fractures using ultrasound on cadaver models. The use of this model as a teaching tool in the detection of rib fractures requires further investigation.

The role of ultrasound as a problem-solving tool in the assessment of paediatric musculoskeletal injuries

Musculoskeletal trauma in the paediatric population covers a wide range of injuries; although many overlap with their adult counterparts, others are exclusive to the immature skeletal system. Ultrasound is a versatile tool particularly suited to both the imaging of children and the dynamic assessment of musculoskeletal injuries. This pictorial review aims to discuss a range of injuries, focusing on those commonly encountered in children. We shall describe the muscle-tendon-bone complex and changes that occur with increasing skeletal maturity and how this affects the type of injury encountered.

Fundus Photography vs. Ophthalmoscopy Outcomes in the Emergency Department (FOTO-ED) Phase III: Web-based, In-service Training of Emergency Providers

We evaluated a web-based training aimed at improving the review of fundus photography by emergency providers. 587 patients were included, 12.6% with relevant abnormalities. Emergency providers spent 31 minutes (median) training and evaluated 359 patients. Median post-test score improvement was 6 percentage points (IQR: 2-14; p = 0.06). Pre- vs. post-training, the emergency providers reviewed 45% vs. 43% of photographs; correctly identified abnormals in 67% vs. 57% of cases; and correctly identified normals in 80% vs. 84%. The Fundus photography vs. Ophthalmoscopy Trial Outcomes in the Emergency Department studies have demonstrated that emergency providers perform substantially better with fundus photography than direct ophthalmoscopy, but our web-based, in-service training did not result in further improvements at our institution.