Radiology resident interpretations of on-call imaging studies: the incidence of major discrepancies

RATIONALE AND OBJECTIVES: To determine the incidence of radiology resident preliminary interpretation errors for plain film, body computed tomography, and neuroradiology (neuro)computed tomographic examinations read on call. MATERIALS AND METHODS: We retrospectively reviewed the data in a prospectively acquired resident quality assurance (QA) database dating between January 2000 and March 2007. The database comprises all imaging studies initially interpreted by an on-call resident and later reviewed by a board-certified attending radiologist who determined the level of discrepancy between the two interpretations according to a graded scale from 0 (no discrepancy) to 3 (major discrepancy). We reviewed the data with respect to resident training level, imaging modality, and variance level. Statistical analysis was performed with chi(2) test, alpha = 0.05. We compared our results with other published series studying resident and attending accuracy. RESULTS: A total of 141,381 cases were entered into the database during the review period. Of all examinations, 95.7% had zero variance, 3.3% minor variance, and 1.0% major variance. There was a slight, statistically significant increase in overall accuracy with increased resident year from 95.4% of examinations read by first-year residents (R1s) to 96.1% by fourth-year resident (R4s) (P < .0001). Overall percentages of exams with major discrepancies were 1.0% for R1s, 1.1% for second-year residents, 1.0% for third-year residents, and 0.98% for R4s. CONCLUSIONS: The majority of preliminary resident interpretations are highly accurate. The incidence of major discrepancies is extremely low and similar, even with R1s, to that of attending radiologists published in other studies. A slight, statistically significant decrease in the error rate is detectable as residents gain experience throughout the 4 years of residency.     

Comparison of on-call radiology resident and faculty interpretation of 4- and 16-row multidetector CT pulmonary angiography with indirect CT venography

RATIONALE AND OBJECTIVES: On-call radiology residents frequently interpret computed tomography (CT) pulmonary angiography and CT venography studies outside of routine working hours. The purpose of this study was to compare resident and faculty interpretation concordance rates and to see if concordance rates differed depending on the number of CT detectors used. MATERIALS AND METHODS: The study population included 122 consecutive CT pulmonary angiography (CTPA) and CT venography (CTV) examinations performed on a four-row multidetector CT (MDCT) and 125 consecutive CTPA examinations performed using a 16-row MDCT scanner with CTV performed in 124 patients. Preliminary resident reports and final faculty reports were compared. Discrepant cases were independently reviewed by three cardiothoracic radiologists who were unaware of the initial interpretations. Interpretation concordance rates were calculated for both 4- and 16- row MDCT studies and compared using Fisher's exact test. RESULTS: Resident and faculty CTPA and CTV interpretations were concordant in 80% of the 4-row cases and 94% of the 16-row cases. When comparing resident interpretation to the final expert reference standard, the corrected resident error rate was 11% and 2% for 4-row CTPA and CTV, respectively and 4% and 2% for 16-row CTPA and CTV, respectively. Overall CTPA and CTV concordance was significantly lower for 4-row MDCT (80% versus 94%, P < .001 [two-sided] by Fisher's exact test). CONCLUSIONS: Radiology resident interpretation of CTPA and CTV studies demonstrates a high level of agreement with radiology faculty interpretation. Concordance rates are significantly higher for 16-row MDCT than 4-row MDCT which may be due to improved image quality.     

Resident vs. attending interpretation of on-call studies: clinical impact

Purpose: This study was performed to determine whether significant changes to patient treatment plan or outcome result from discrepancies between on-call radiology residents and follow-up attending radiologists in their interpretation of examinations. Methods: For 70 days we recorded on-call radiology residents' readings of all computed tomography and ultrasound examinations performed in our institution and the follow-up attending radiologists' readings of these same examinations. A chart review was performed to determine whether interpretation discrepancies changed the treatment plan and clinical outcome. Results: Eight-hundred thirty-four examinations met the study guidelines. The overall discrepancy rate was 5.16 %. Of these discrepancies, 6.98 % affected the treatment plan (0.36 % of all 834 studies) and none affected the clinical outcome. Conclusion: Where there is a discrepancy between interpretation of computed tomography and ultrasound after hours by on-call radiology residents and follow-up readings by attending radiologists, this discrepancy has no significant effect on the immediate or long-term care of patients.     

Clinical consequences of misinterpretations of neuroradiologic CT scans by on-call radiology residents

BACKGROUND AND PURPOSE: Studies have looked at the accuracy of radiologic interpretations by radiology residents as compared with staff radiologists with regard to emergency room plain films, emergency room body CT scans, and trauma head CT scans; however, to our knowledge, no study has evaluated on-call resident interpretations of all types of neuroradiologic CT scans. Both as a part of our departmental quality control program and to address concerns of clinical services about misinterpretation of neuroradiologic CT scans by on-call radiology residents, we evaluated the frequency of incorrect preliminary interpretations of neuroradiologic CT scans by on-call radiology residents and the effect of such misinterpretations on clinical management and patient outcome. METHODS: As determined by the staff neuroradiologist the next day, all potentially clinically significant changes to preliminary reports of emergency neuroradiologic CT scans rendered by on-call radiology residents were recorded over a 9-month period. A panel of neuroradiologists reviewed and graded all the changed cases by consensus. An emergency department staff physician reviewed medical records of all submitted cases to determine clinical consequences of the misinterpretations. RESULTS: Significant misinterpretations were made in 21 (0.9%) of 2388 cases during the study period. There was a significant change in patient management in 12 of the cases, with a potentially serious change in patient outcome in two cases (0.08%). CONCLUSION: On-call radiology residents have a low rate of significant misinterpretations of neuroradiologic CT scans, and the potential to affect patient outcome is rare.     

Pediatric Emergency Imaging Studies in Academic Radiology Departments: A Nationwide Survey of Staffing Practices

ObjectiveParticularly for pediatric patients presenting with acute conditions or challenging diagnoses, identifying variation in emergency radiology staffing models is essential in establishing a standard of care. We conducted a cross-sectional survey among radiology departments at academic pediatric hospitals to evaluate staffing models for providing imaging interpretation for emergency department imaging requests.MethodsWe conducted an anonymous telephone survey of academic pediatric hospitals affiliated with an accredited radiology residency program across the United States. We queried the timing, location, and experience of reporting radiologists for initial and final interpretations of emergency department imaging studies, during weekday, overnight, and weekend hours. We compared weekday with overnight, and weekday with weekend, using Fisher’s exact test and an α of 0.05.ResultsSurveying 42 of 47 freestanding academic pediatric hospitals (89%), we found statistically significant differences for initial reporting radiologist, final reporting radiologist, and final report timing between weekday and overnight. We found statistically significant differences for initial reporting radiologist and final report timing between weekday and weekend. Attending radiologist involvement in initial reports was 100% during daytime, but only 33.3% and 69.0% during overnight and weekends. For initial interpretation during overnight and weekend, 38.1% and 28.6% use resident radiologists without attending radiologists, and 28.6% and 2.4% use teleradiology. All finalized reports as soon as possible during weekdays, but only 52.4% and 78.6% during overnight and weekend.DiscussionA minority of hospitals use 24-hour in-house radiology attending radiologist coverage. During overnight periods, the majority of academic pediatric emergency departments rely on resident radiologists without attending radiologist supervision or outside teleradiology services to provide initial reports. During weekend periods, over a quarter rely on resident radiologists without attending radiologist supervision for initial reporting. This demonstrates significant variation in staffing practices at academic pediatric hospitals. Future studies should look to determine whether this variation has any impact on standard of care.     

Discordance rates between preliminary and final radiology reports on cross-sectional imaging studies at a level 1 trauma center

RATIONALE AND OBJECTIVES: The goal was to determine discordance rates between preliminary radiology reports provided by on-call radiology house staff and final reports from attending radiologists on cross-sectional imaging studies requested by emergency department staff after hours. MATERIALS AND METHODS: A triplicate carbon copy reporting form was developed to provide permanent records of preliminary radiology reports and to facilitate communication of discrepant results to the emergency department. Data were collected over 21 weeks to determine the number of discordant readings. Patients' medical records were reviewed to show whether discrepancies were significant or insignificant and to assess their impact on subsequent management and patient outcome. RESULTS: The emergency department requested 2830 cross-sectional imaging studies after hours and 2311 (82%) had a copy of the triplicate form stored in radiology archives. Discrepancies between the preliminary and final report were recorded in 47 (2.0%), with 37 (1.6%) considered significant: 14 patients needed no change, 13 needed a minor change, and 10 needed a major change in subsequent management. Ten (0.43%) of the discordant scans were considered insignificant. A random sample of 104 (20%) of the 519 scans without a paper triplicate form was examined. Seventy-one (68%) did have a scanned copy of the triplicate form in the electronic record, with a discrepancy recorded in 3 (4.2%), which was not statistically different from the main cohort (P = .18). CONCLUSION: Our study suggests a high level of concordance between preliminary reports from on-call radiology house staff and final reports by attending subspecialty radiologists on cross-sectional imaging studies requested by the emergency department.     

Factors affecting attending agreement with resident early readings of computed tomography and magnetic resonance imaging of the head, neck, and spine

RATIONALE AND OBJECTIVES: This study examines the joint effect of several factors on radiology resident performance in the task of interpreting after-hours neuroradiology examinations. MATERIALS AND METHODS: As part of a quality assessment process, we conducted a prospective evaluation of all (N = 21,796) after-hours preliminary readings of neuroradiology examinations performed by radiology residents over a 62-month period at our academic medical center. Each reading was scored by the interpreting neuroradiologist as "agree," "disagree with minimal clinical impact," and "disagree with significant clinical impact." Coded resident and attending identities were also recorded for each case along with modality, body area studied, and the date of examination. These raw data were used to create an analytic data set with level of resident/attending agreement as the outcome and six predictors, including two date-derived variables: months 1-62 representing when the case occurred during the study and quartiles 1-4 accounting for the timing of the case in each resident's own experience. Cross tabulations, plots, bivariate statistics, and logistic regression were used to examine the relationships between study variables and the outcome (level of agreement). RESULTS: Over about 5 years of the study, the absolute number of significant disagreements remained stable at about three per month. The total caseload increased at a rate of 4.1 per month with most of the increase falling into the agree category, whereas the minimal disagreements actually decreased slightly (0.2 per month). In the logistic model for disagreement, three of the factors accounted for most of the variance: attending (61%), resident (15%), and month (15%). Study type (modality and area examined) accounted for another 10%. There was no significant contribution from the variable (quartile) constructed to test for individual resident learning during the on-call experience. CONCLUSION: Although residents differ somewhat in the extent of attending agreement with their on-call work, evaluation or remediation made on the basis of simple comparison of these rates should be done with caution. Improved agreement over time seems to be a collective experience shared by residents.     

Does radiologist recommendation for follow-up with the same imaging modality contribute substantially to high-cost imaging volume?

PURPOSE: To retrospectively measure repeat rates for high-cost imaging studies, determining their causes and trends, and the impact of radiologist recommendations for a repeat examination on imaging volume. MATERIALS AND METHODS: This HIPAA-compliant study had institutional review board approval, with waiver of informed consent. Repeat examination was defined as a same-modality examination performed in the same patient within 0 days to 7 months of a first examination. From a database of all radiology examinations (>2.9 million) at one institution from May 1996 to June 2003, a computerized search identified head, spine, chest, and abdominal computed tomographic (CT), brain and spine magnetic resonance (MR) imaging, pelvic ultrasonography (US), and nuclear cardiology examinations with a prior examination of the same type within 7 months. Examination pairs were subdivided into studies repeated at less than 2 weeks, between 2 weeks and 2 months, or between 2 and 7 months. Automated classification of radiology reports revealed whether a repeat examination from June 2002 to June 2003 had been preceded by a radiologist recommendation on the prior report. Trends over time were analyzed with linear regression, and 95% confidence intervals were calculated. RESULTS: Between July 2002 and June 2003, 31 111 of 100 335 examinations (31%) were repeat examinations. Body CT (9057 of 20 177 [45%] chest and 8319 of 22 438 [37%] abdomen) and brain imaging (6823 of 18 378 [37%] CT and 3427 of 11 455 [30%] MR imaging) represented the highest repeat categories. Among five high-cost, high-volume imaging examinations, 6426 of 85 014 (8%) followed a report with a radiologist recommendation. Most common indications for examination repetition were neurologic surveillance within 2 weeks and cancer follow-up at 2-7 months. From 1997 to mid-2003, MR imaging and CT repeat rates increased (0.71% per year [P < .01] and 1.87% per year [P < .01], respectively). CONCLUSION: Repeat examinations account for nearly one-third of high-cost radiology examinations and represent an increasing proportion of such examinations. Most repeat examinations are initiated clinically without a recommendation by a radiologist.     

Trends in on-call workload in an academic medical center radiology department 1998-20021

RATIONALE AND OBJECTIVES: The workload in radiology departments is increasing rapidly. This study was designed to determine whether and to what extent the workload is being generated outside of traditional working hours (defined as 0800-1700 Monday thru Friday, excluding holidays). MATERIALS AND METHODS: Exam statistics were derived from the radiology department's automated examination scheduling and reporting system for four successive fiscal years. The distribution of the number of studies completed throughout the 24-hour day and the 7-day week was charted. RESULTS: A large proportion of studies are being completed outside of traditional working hours. Moreover, as the overall workload of the department increased, the proportion of studies being completed during nontraditional working hours was increasing at an even faster pace, particularly in the cross-sectional imaging modalities. Computed tomography, magnetic resonance imaging, and ultrasound have increased by 59%, 51%, and 30%, respectively, over 4 years. The on-call proportions have increased from 34% to 40% and 13% to 18% for computed tomography and ultrasound, respectively, over 4 years and from 44% to 50% for magnetic resonance imaging over 3 years. CONCLUSION: These trends have implications for radiologist and radiology technologist staffing. The department has already modified the scheduling of technologist staffing to provide in-house extended-hours coverage in most modalities. As the number of studies conducted outside of traditional working hours continues to expand and the demand for contemporaneous readings increases, radiologist staffing may need to be adjusted as well. Traditional on-call coverage may be insufficient to competently handle the growing workload. This may have particular implications for radiology residency programs.     

Diagnostic Radiology Resident and Fellow Workloads: A 12-Year Longitudinal Trend Analysis Using National Medicare Aggregate Claims Data

PurposeThe aim of this study was to evaluate changes in diagnostic radiology resident and fellow workloads in recent years.MethodsBerenson-Eggers Type of Service categorization was applied to Medicare Part B Physician/Supplier Procedure Summary Master Files to identify total and resident-specific claims for radiologist imaging services between 1998 and 2010. Data were extracted and subgroup analytics performed by modality. Volumes were annually normalized for active diagnostic radiology trainees.ResultsFrom 1998 to 2010, Medicare claims for imaging services rendered by radiologists increased from 78,901,255 to 105,252,599 (+33.4%). Service volumes increased across all modalities: for radiography from 55,661,683 to 59,654,659 (+7.2%), for mammography from 5,780,624 to 6,570,673 (+13.7%), for ultrasound from 5,851,864 to 9,853,459 (+68.4%), for CT from 9,351,780 to 22,527,488 (+140.9%), and for MR from 2,255,304 to 6,646,320 (+194.7%). Total trainee services nationally increased 3 times as rapidly. On an average per trainee basis, however, the average number of diagnostic services rendered annually to Medicare Part B beneficiaries increased from 499 to 629 (+26.1%). By modality, this represents an average change from 333 to 306 examinations (−8.1%) for radiography, from 20 to 18 (−7.4%) for mammography, from 37 to 56 (+49.7%) for ultrasound, from 88 to 202 (+129.1%) for CT, and from 20 to 47 (+132.0%) for MRI.ConclusionsBetween 1998 and 2010, the number of imaging examinations interpreted by diagnostic radiology residents and fellows on Medicare beneficiaries increased on average by 26% per trainee, with growth largely accounted for by disproportionate increases in more complex services (CT and MRI).     

Comparison of emergency cranial CT interpretation between radiology residents and neuroradiologists: transverse versus three-dimensional images

PURPOSE

Three-dimensional (3D) reformatted images provide a more inclusive representation of abnormalities than transverse images in cranial computed tomography (CT). The purpose of this study was to assess the value of 3D reformations for radiology residents in the interpretation of emergency cranial CTs.

MATERIALS AND METHODS

In total, 218 consecutive patients who underwent emergency cranial CT scans with 3D reformation were included in this retrospective study. Four blinded readers (three radiology residents and a neuroradiologist) interpreted the transverse and 3D images in two separate sessions. Each reader assessed 1) abnormal finding(s) and the confidence score(s) (5-point scale) for transverse and 3D images, 2) added value score of 3D images (5-point scale), and 3) interpretation time for both transverse and 3D images. We analyzed discordance between each radiology resident and the neuroradiologist on a lesion-by-lesion basis.

RESULTS

In total, 509 lesions were detected in 218 patients. Discordance rates between the three residents and the neuroradiologist were 11.4%–20.2% (mean, 15.0%) and 8.8%–16.9% (mean, 12.1%) in the interpretation of transverse and 3D images, respectively. Confidence scores were higher for 3D images than for transverse images for all readers. The added value scores for the 3D images were relatively higher for the inexperienced residents. Interpretation times for 3D images were significantly higher than for transverse images for all readers.

CONCLUSION

The 3D reformations assist radiology residents in the interpretation of emergency cranial CT examinations.Unenhanced cranial computed tomography (CT) is the primary imaging modality for the emergency evaluation of patients with acute neurological deficits because of its wide availability, speed, costeffectiveness, and ability to assess less stable patients (1). Although some institutions may have 24-hour CT interpretation by an experienced neuroradiologist, many hospitals provide overnight coverage for CT studies by an on-call radiology resident. The final interpretation is then provided by attending neuroradiologists, usually the next day. Thus, accurate initial interpretation of cranial CT scans by the resident is critical for proper patient management.A few studies have investigated discordance between radiology residents and neuroradiologists in the interpretation of unenhanced cranial CT scans and they reported discordance rates in the range of 2.1%–8.3% (2–4). This discordance rate may be influenced by several factors, such as the resident’s level of training, prevalence and type of disease, and imaging technique (e.g., resolution, display, image plane).A few studies have assessed the added value of three-dimensional (3D) reformations versus transverse plane views in the evaluation of cranial CT examinations (5, 6). To our knowledge, however, no reported study has evaluated the effect of 3D reformatted images on radiology residents’ performance.The aim of this study was to assess the value of 3D reformations to radiology residents in the interpretation of unenhanced emergency cranial CT scans.     

Emergency imaging discrepancy rates at a level 1 trauma center: identifying the most common on-call resident “misses”

The focus of our research is to identify the most frequently reported on-call discrepancies at our hospital by modality and level of resident training. Our intent is to identify specific areas of concern that may be amenable to improvement through initiation of dedicated resident training in the field of emergency radiology. Our study included 648 significant discrepancies from 193,722 studies ordered through the emergency department over a 7-year period. The overall discrepancy rates were calculated for each resident level of training and modality type. Significance was determined using χ2 testing with α?=?0.05. The most common types of discrepancies were identified. The overall rate of reported discrepancies was low for all levels of training (0.23–0.42 %) with a small, but statistically significant, decrease in rate for the senior residents. Common categories of discrepancies for all residents included fractures on radiographs (XR) and computed tomography (CT), masses and hemorrhage on CT, and lung nodules and pulmonary infiltrates on radiographs. Specific discrepancies reported more frequently for new call-takers included phalangeal fractures on XR as well as white matter disease, hepatic lacerations, pyelonephritis, peritoneal fluid, lymphadenopathy, and pneumothoraces on CT. It is our recommendation that radiology resident training programs ensure that the common discrepancies illustrated herein are specifically addressed as part of a dedicated emergency radiology course.     

Radiology Resident Experience in a Community-Based Residency Program

RATIONALE AND OBJECTIVES: The authors performed this study to examine the educational experience of radiology residents by evaluating exposure to total number and variety of examinations. They examined this exposure in relation to current concepts of resident education regarding exposure to difference radiologic examinations, preparation for private practice, and 4th-year resident experience. MATERIALS AND METHODS: The number of examinations performed by radiology residents and the number classified as general versus cross-sectional radiology were analyzed by calculating the average number of studies performed per academic year during the past 6 years. RESULTS: In general, there was in increase in the total number of examinations performed per resident during the past 6 years. There was no statistically significant difference in the experience with general versus cross-sectional radiologic examinations. The data support the contention that 4th-year residents perform fewer examinations. CONCLUSION: Experience with all radiologic examinations is increasing as the overall utilization of radiology services increases. Fourth-year residents read fewer images; further studies are necessary to determine whether this finding reflects a planned decrease in workload or an increase in the complexity of the workload. It may be necessary to establish a minimum number and mixture of examinations to prepare residents for private practice.     

Comparison between estimates of radiological workload]

OBJECTIVE: To comparise three methods for assessing the productivity of radiological services: a) simple count of radiological examinations, b) method proposed by SNR-SAGO-SIRM, c) method used by Regione Emilia Romagna (RER) to evalutate the characteristics of these methods and to find a common method of estimate. MATERIAL AND METHODS: On the radiological examinations performed at our unit over a period of 12 months were recorded. The different types of examinations were clustered into five homogenous groups (general radiology, ultrasound, barium examinations, CT, MRI). The data were assessed by a) number of examinations/hour per radiologist, b) score/hour according to the SNR-SAGO-SIRM method and c) score/hour according to the RER method, and then compared for the percentage of the single aggregates. RESULTS: a) The total number of examinations was 26,776 with 40% being accounted for by general radiology; mean numbers of examinations our ranged from 2.43 (August) to 4.20 (March). b) The total score according to the SNR-SAGO-SIRM method was 67,054. The radiologist weight per hour ranged from 6.37 (August) to 9.67 (May). Ultrasound was the most relevant examination in the unit accounting for 43% of total weight. c) The total score according to the RER method was 1,850,780. The radiologist weight per hour ranged from 159 (August) to 316 (April). CT was the most relevant examination (51% of total weight). CONCLUSION: According to the simple count of examinations, general radiology and ultrasound were the most relevant examinations together accounting for 75% of examinations, i.e. 40% and 35% respectively, whereas by SNR-SAGO-SIRM standards the two techniques represent 19% and 45% respectively. The simple count method therefore fails to give adequate weight to technologically advanced imaging technique. The SNR-SAGO-SIRM method adequately takes into account the combination of patient-number and patient weight. The RER method gives excessive weight costly technology as it considers the total weight of the examination and not only the radiologist's activity.     

CT pulmonary angiography for the detection of pulmonary embolism: interobserver agreement between on-call radiology residents and specialists (CTPA interobserver agreement)

PURPOSE: The aim of this study was to prospectively determine interobserver agreement between on-call radiology residents and specialists in the interpretation of computed tomographic pulmonary angiography (CTPA). METHODS: CTPA examinations obtained between January 2002 and March 2003 were interpreted by a radiology resident on call and by two radiology specialists. Agreement was assessed using percentage of agreement between interpreters and by the kappa coefficient. Sensitivity of residents' interpretations was calculated by relating them to the interpretation of Specialist 1, which served as the gold standard. RESULTS: Of the 81 CTPA examinations evaluated, there was agreement of 93% and 91% for the diagnosis of pulmonary embolism (PE) and of 97% and 85% for the exclusion of PE with Specialist 1 and 2, respectively. The concordance between residents' interpretations and those of Specialist 1 was very high (kappa=.8), and with those of Specialist 2 was high (kappa=.7). In all cases of agreement between the two specialists, there was complete agreement between the specialists' and the residents' intepretations. CONCLUSIONS: Our study showed good to very good agreement of residents' interpretations with each of the radiology specialists. Therefore, relying on the residents' preliminary interpretations during after-hour calls is reasonable.     

Resident Interpretation of Emergency CT Scans in the Evaluation of Acute Appendicitis

PURPOSE: Radiology resident interpretation of computed tomographic (CT) scans at academic institutions often guides management of cases of suspected acute appendicitis in the emergency department. The purpose of this study was to compare resident and faculty interpretation of CT scans obtained for acute appendicitis. MATERIALS AND METHODS: From December 16, 1999, to July 13, 2000, CT was performed in 103 consecutive patients between the hours of 9:00 PM and 8:00 AM who were suspected of having acute appendicitis. The authors compared the residents' preliminary written interpretations with both the final reports written by the faculty and the surgical findings. The faculty interpreting the CT scans were aware of resident interpretations but were not aware that a study was being conducted. RESULTS: The final faculty interpretation and the preliminary resident interpretation were identical in 96 of the 103 patients (93%; 95% confidence interval: 87.8%, 97.2%). In only one patient was a scan originally interpreted as negative interpreted as positive by the faculty member. Clinically, the patient did not have acute appendicitis, and surgery was not perforrmed. CONCLUSION: In the diagnosis of acute appendicitis, image interpretations made by adequately trained radiology residents can be expected to closely match those of the radiology faculty, and the practice of after-hours interpretation of such studies by radiology residents is safe.     

24/7/365 Neuroradiologist Coverage Improves Resident Perception of Educational Experience,Referring Physician Satisfaction,and Turnaround Time

PurposeTo quantitatively and qualitatively assess the impact of attending neuroradiology coverage on radiology resident perceptions of the on-call experience, referring physician satisfaction, and final report turnaround times.Materials and Methods24/7/365 attending neuroradiologist coverage began in October 2016 at our institution. In March 2017, an online survey of referring physicians, (emergency medicine, neurosurgery, and stroke neurology) and radiology residents was administered at a large academic medical center. Referring physicians were queried regarding their perceptions of patient care, report accuracy, timeliness, and availability of attending radiologists before and after the implementation of overnight neuroradiology coverage. Radiology residents were asked about their level of independence, workload, and education while on-call. Turnaround time (TAT) was measured over a 5-month period before and after the implementation of overnight neuroradiology coverage.ResultsA total of 28 of 64 referring physicians surveyed responded, for a response rate of 67%. Specifically, 19 of 23 second (junior resident on-call) and third year radiology residents (senior resident on-call) replied, 4 of 4 stroke neurology fellows replied, 8 of 21 neurosurgery residents, and 16 of 39 emergency medicine residents replied. Ninety-five percent of radiology residents stated they had adequate independence on call, 100% felt they have enough faculty support while on call, and 84% reported that overnight attending coverage has improved the educational value of their on-call experience. Residents who were present both before and after the implementation of TAT metrics thought their education, and independence had been positively affected. After overnight neuroradiology coverage, 85% of emergency physicians perceived improved accuracy of reports, 69% noted improved timeliness, and 77% found that attending radiologists were more accessible for consultation. The surveyed stroke neurology fellows and neurosurgery residents reported positive perception of the TAT, report quality, and availability of accessibility of attending radiologist.ConclusionsIn concordance with prior results, overnight attending coverage significantly reduced turnaround time. As expected, referring physicians report increased satisfaction with overnight attending coverage, particularly with respect to patient care and report accuracy. In contrast to some prior studies, radiology residents reported both improved educational value of the on-call shifts and preserved independence. This may be due to the tasking the overnight neuroradiology attending with dual goals of optimized TAT, and trainee growth. Unique implementation including subspecialty trained attendings may facilitate radiology resident independence and educational experience with improved finalized report turnaround.     

Comparison of interpretations of CT angiograms in the evaluation of suspected pulmonary embolism by on-call radiology fellows and subsequently by radiology faculty

OBJECTIVE: Our objective was to evaluate interobserver variability in interpretations performed by on-call radiology fellows and subsequently by attending radiologists of CT angiograms obtained for clinically suspected pulmonary embolism and to evaluate factors contributing to discrepancies. MATERIALS AND METHODS: Written interpretations made by on-call fellows were compared with reports approved by attending radiologists for all CT angiograms obtained for suspected pulmonary embolism after work hours and on weekends in a recent 19-month period. Interpretations were stratified as positive, negative, or equivocal for pulmonary embolism. In cases of discordant interpretations, those CT angiograms were rereviewed by two thoracic radiologists; then patient medical records were reviewed for evidence of clinical effect. Technical and patient-related reasons for discordant interpretations of CT angiograms were recorded. RESULTS: Six hundred fifty-eight oncology patients were examined on CT angiography; five were examined twice. The fellows reported 137 CT angiograms (21%) as positive, 498 (75%) as negative, and 28 (4%) as equivocal for pulmonary embolism. Interpretations of the fellows and attending radiologists agreed in 93% (615/663) of CT angiograms (kappa = 0.80). The concordance rates for CT angiograms interpreted by fellows as positive (89%, 122/137), negative (96%, 479/498), and equivocal (50%, 14/28) were significantly different from each other (p < 0.001 for each). A significantly greater proportion of CT angiograms with discordant interpretations was reported to be technically limited (p < 0.01). No clear adverse clinical events were attributed to discordant interpretations of CT angiograms, although the death of one patient in that subgroup was of indeterminate cause. CONCLUSION: In the evaluation of CT angiograms obtained for suspected pulmonary embolism, on-call fellows showed good agreement with attending radiologists. CT angiograms with discordant interpretations often were limited by technical or patient-related factors.     

Radiology resident interpretation of on-call CT pulmonary angiograms

RATIONALE AND OBJECTIVES: To evaluate the interpretation of computed tomographic pulmonary angiograms performed outside of regular reporting hours, comparing the initial interpretation by the radiology resident to the attending radiologist. MATERIALS AND METHODS: Records for 840 consecutive computed tomographic pulmonary angiograms (CTPA) performed outside of regular reporting hours at two tertiary referral centers from January 1, 2004-December 31, 2005 were reviewed. The preliminary interpretation by the on-call radiology resident was compared to the subsequent final report issued by a subspecialty trained chest radiologist. Studies were stratified as positive, negative, or equivocal for pulmonary embolus. Cases with discordant interpretations or negative CTPA were reviewed to determine impact on clinical outcome. Patients were followed up to 12 months after CTPA to document any subsequent thromboembolic event. RESULTS: Sixteen percent (131/840) of CTPAs were reported positive by the staff radiologist. There was agreement in 90% (752/840) of studies (P = .76, 95% confidence interval, 0.71-0.81) with 86% (114/133) agreement for studies interpreted as positive by residents, 95% (582/612) for studies interpreted as negative by residents, and 63% (60/95) for studies interpreted as equivocal by residents. Studies of optimal quality had higher interobserver agreement than studies of suboptimal quality (P < .0001). In-patient studies were more likely to be positive than emergency room patients (20% vs. 13%) (P = .004). No adverse clinical outcomes were attributed to discordant interpretations. CONCLUSIONS: Radiology residents provide a high level interpretation of on-call CTPA studies, achieving good concordance with the attending radiologists' assessment.     

CT and MRI examinations left behind in the radiology department

PURPOSE: To retrospectively document the reported computerized tomography (CT) and magnetic resonance imaging (MRI) examinations that were left behind in our radiology department, to calculate their cost, and to determine possible sources of waste in order to draw attention to this subject. MATERIALS AND METHODS: The reported and billed CT and MRI examinations for 2003 that were not taken from the radiology department were documented, and the percentage they represented of all CT and MRI performed that year were determined. The total cost of the examinations, including contrast media, was calculated. RESULTS: In all, 200 CTs out of 4390 and 95 MRIs out of 7003 were left behind in the radiology department during 2003. Total cost of the examinations, including the contrast media, was 31,320 YTL. CONCLUSION: The percentages of CT and MRI examinations left behind in the radiology department were evaluated in this preliminary report. Since we did not find any similar study in the literature, we could not comment on the limits of acceptability of the results; however, we think other radiology departments should determine the percentages CTs and MRIs that are left behind and take the necessary precautions to minimize waste and reduce expenses.