Comparison of international guidelines for CT prior to lumbar puncture in patients with suspected meningitis.

PURPOSE: To compare the performance of multiple international guidelines in selecting patients for head CT prior to lumbar puncture (LP) in suspected meningitis, focusing on identification of potential contraindications to immediate LP. METHODS: Retrospective study of 196 patients with suspected meningitis presenting to an emergency department between March 2013 and March 2023 and undergoing head CT prior to LP. UK Joint Specialist Society Guidelines (UK), European Society of Clinical Microbiology and Infectious Diseases (ESCMID) and Infectious Diseases Society of America (IDSA) guidelines were evaluated by cross-referencing imaging criteria with clinical characteristics present at time of presentation. Sensitivity of each guideline for recommending neuroimaging in cases with brain shift on CT was evaluated, along with the number of normal studies and incidental or spurious findings. RESULTS: 2/196 (1%) patients had abnormal CTs with evidence of brain shift, while 14/196 (7%) had other abnormalities on CT without brain shift. UK, ESCMID and IDSA guidelines recommended imaging in 10%, 14% and 33% of cases respectively. All three guidelines recommended imaging pre-LP in 2/2 (100%) cases with brain shift. IDSA guidelines recommended more CT studies with normal findings (59 vs 16 and 24 for UK and ESCMID guidelines respectively) and CT abnormalities without brain shift (4 vs 1 and 2 respectively) than the other guidelines. CONCLUSION: UK, ESCMID and IDSA guidelines are all effective at identifying the small cohort of patients who benefit from a head CT prior to LP. Following the more selective UK/ESCMID guidelines limits the number of normal studies and incidental or spurious CT findings.

Nontargeted Native Renal Biopsy Adequacy: Preintervention Data From a Province-Wide, Multicentre, and Interdepartmental Audit.

Background: Nontargeted renal biopsy is essential to diagnosis, classification, and prognostication of medical renal disease. Inadequate biopsies delay diagnosis, expose the patient to repeated biopsy, and increase costs. Objective: The purpose of this project is to characterize nontargeted renal biopsy specimen adequacy and identify areas for improvement. Design: This project was designed as a clinical audit of specimen adequacy rates of nontargeted renal biopsies from 13 hospitals, as well as a questionnaire of radiology and pathology department staff regarding current practices surrounding renal biopsies. Setting: Retrospective analysis of 2188 adult native renal biopsies was performed from January 1, 2018, to September 9, 2021, across 13 hospitals. Patients: Adult patients with medical renal disease undergoing a nontargeted renal biopsy were included. Methods: Retrospective analysis of 2188 adult native renal biopsies was performed from January 1, 2018, to September 9, 2021, across 13 hospitals. Adequacy was divided into 4 categories based on number of glomeruli received: ideally adequate (≥25 glomeruli), minimally adequate (15-24), suboptimal (<15 and diagnosis rendered), and inadequate (<15 and no diagnosis rendered). Two targets were chosen; target 1, to achieve a combined suboptimal and inadequate rate ≤ 10%, and target 2, to attain an ideally adequate rate ≥80%. Radiology department heads in the province were surveyed on biopsy equipment, technique, technologist support, and feasibility of possible interventions to enhance biopsy adequacy. Pathology department staff were surveyed on their education and experience. Results: Adequacy was as follows: ideally adequate 64.7%, minimally adequate 26.0%, suboptimal 7.9%, and inadequate 1.4%. The province (and 8/13 hospitals) met target 1 for native biopsies (9.3%). Two hospitals achieved target 2 for native biopsies. A key finding was that the 2 hospitals with the lowest target 1 scores did not have a technologist present at biopsy. Limitations: Survey data was used to assess biopsy technique at each hospital, and specific technique for each biopsy was not recorded. As such, a multivariate statistical analysis of specimen adequacy rates was not feasible. Data on complications was not collected. Conclusions: Preintervention the province was at target for limiting inadequate and suboptimal native biopsies. There was a substantial shortfall in the ideally adequate rate from the proposed target. Using insight from survey data, interventions with the greatest expected impact were identified and those that are feasible given limited resources will be implemented to improve sample adequacy. Trial Registration: Not registered.

Contexte: La biopsie rénale non ciblée est essentielle au diagnostic, à la classification et au pronostic d'une néphropathie. Les biopsies inadéquates retardent le diagnostic, exposent le patient à des biopsies répétées et coûtent plus cher au système de santé. Objectif: L'objectif de cette étude était de caractériser l'adéquation des échantillons des biopsies rénales non ciblées et de dégager les domaines d'amélioration. Conception: Cet essai a été conçu comme un audit clinique du taux d'adéquation des échantillons de biopsies rénales non ciblées provenant de 13 hôpitaux. Il comporte également un questionnaire destiné au personnel des services de radiologie et de pathologie portant sur les pratiques actuelles entourant les biopsies rénales. Cadre: Analyze rétrospective de 2 188 biopsies rénales natives réalisées chez des patients adultes dans 13 hôpitaux entre le 1er janvier 2018 et le 9 septembre 2021. Sujets: Ont été inclus les adultes atteints d'une pathologie rénale médicale ayant subi une biopsie rénale non ciblée. Méthodologie: Nous avons procédé à une analyze rétrospective de 2 188 biopsies rénales natives réalisées chez des patients adultes dans 13 hôpitaux entre le 1er janvier 2018 et le 9 septembre 2021. L'adéquation a été classée en 4 catégories en fonction du nombre de glomérules reçus: parfaitement adéquate (25 glomérules et plus), minimalement adéquate (15 à 24 glomérules), sous-optimale (moins de 15 glomérules + diagnostic rendu), inadéquate (moins de 15 glomérules sans diagnostic rendu). Deux objectifs ont été établis: obtenir un taux d'adéquation combiné « sous-optimale + inadéquate ¼ de 10 % ou moins (objectif 1) et obtenir au moins 80 % d'adéquation « parfaite ¼ (objectif 2). Les chefs des services de radiologie de la province ont été interrogés sur l'équipement de biopsie, la technique, le soutien des technologues et la faisabilité des interventions possibles visant à améliorer l'adéquation des biopsies. Le personnel des services de pathologie a été interrogé sur sa formation et son expérience. Résultats: Les taux d'adéquation étaient les suivants: parfaitement adéquate = 64,7 %; minimalement adéquate = 26,0 %; sous-optimale = 7,9 %; inadéquate = 1,4 %. Pour les biopsies natives, avec un taux de 9,3 %, la province (et 8 des 13 hôpitaux) a atteint l'objectif 1. Deux hôpitaux ont atteint l'objectif 2. Une des principales observations a été qu'il n'y avait aucun technologue présent lors de la biopsie dans les deux hôpitaux qui avaient obtenu les moins bons résultats pour l'objectif 1. Limites: Les données de l'enquête ont été utilisées pour évaluer la technique de biopsie dans chaque hôpital; la technique précise utilisée pour chaque biopsie n'a pas été consignée. Par conséquent, il n'était pas possible de réaliser une analyze statistique multivariée des taux d'adéquation des échantillons. Les données sur les complications n'ont pas été recueillies. Conclusion: Avant l'intervention la province atteignait déjà l'objectif de limiter des biopsies natives inadéquates et sous-optimales. Le taux d'adéquation jugé « parfaitement adéquat ¼ était nettement inférieur à l'objectif proposé. Les données de l'enquête ont permis d'identifier les interventions dont l'impact escompté est le plus important; celles qui sont réalisables compte tenu des ressources limitées seront mises en œuvre afin d'améliorer l'adéquation des échantillons.

Preventing and Mitigating Radiology System Failures: A Guide to Disaster Planning.

Disaster planning is a core facet of modern health care practice. Owing to complex infrastructure requirements, radiology departments are vulnerable to system failures that may occur in isolation or during a disaster event when the urgency for and volume of imaging examinations increases. Planning for systems failures helps ensure continuity of service provision and patient care during an adverse event. Hazards to which a radiology department is vulnerable can be identified by applying a systematic approach with recognized tools such as the Hazard, Risk, and Vulnerability Analysis. Potential critical weaknesses within the department are highlighted by the Failure Mode and Effects Analysis tool. Recognizing the potential latent conditions and active failures that may impact systems allows implementation of strategies to prevent failure or to build resilience and mitigate the effects if they happen. Inherent system resilience to an adverse event can be estimated, and the ability of a department to operate during a disaster and the subsequent recovery can be predicted. The main systems at risk in a radiology department are staff, structure, stuff (supplies and/or equipment), and software, although individual issues and solutions within these are department specific. When medical imaging or examination interpretation needs cannot be met in the radiology department, the use of portable imaging modalities and teleradiology can augment the disaster response. All phases of disaster response planning should consider both sustaining operations and the transition back to normal function. Online supplemental material and the slide presentation from the RSNA Annual Meeting are available for this article. Work of the U.S. Government published under an exclusive license with the RSNA.

Pareidolia in Radiology Education: A Randomized Controlled Trial of Metaphoric Signs in Medical Student Teaching.

OBJECTIVE: A radiology sign that references a resemblance to something which is not actually present within an image has been termed a 'metaphoric' sign. Metaphoric signs are widely described in the literature and commonly used in teaching as a form of pattern recognition, or 'pareidolia'. However, the educational benefit of metaphoric signs has not been previously assessed. We aimed to assess the utility of metaphoric signs in medical student teaching. MATERIALS AND METHODS: Fifteen radiology cases were prepared into two lecture formats for medical student education. A 'test' lecture utilizing metaphoric radiology signs to describe the appearance of the cases and a 'control' lecture where pathology was compared to normal anatomical appearances without reference to metaphoric signs. Forty-nine volunteer medical students were randomized with cluster sampling to receive either the test or control lecture. Four days later, students were quizzed to determine retention of knowledge and to assess interest in the lecture on a visual analogue scale from 0 to 100. RESULTS: The median interest level of the test group (69.5) was higher than the control group (50) (p = 0.001). The mean quiz score was higher in the test group (34.5) than in the control group (29) (Difference 5.5, 95% confidence interval 0.08-10.92, p = 0.047). CONCLUSION: The use of metaphoric signs in radiology education of medical students increased interest, descriptive ability and short-term knowledge retention, compared to the same material taught with normal anatomy correlation. Metaphoric signs should be considered as a useful radiology teaching tool.

An Evaluation of the Content of Canadian and American Nuclear Medicine Fellowship Websites.

BACKGROUND: Radiology trainees frequently use the Internet to research potential fellowship programs across all subspecialties. For a field like nuclear medicine, which has multiple training pathways, program websites can be an essential resource for potential applicants. This study aimed to analyze the online content of Canadian and American Nuclear Medicine fellowship websites. MATERIALS AND METHODS: The content of all active Canadian and American Nuclear Medicine fellowship websites was evaluated using 26 criteria in the following subdivisions: application, recruitment, education, research, clinical work, and incentives. Fellowships without websites were excluded from the study. Scores were summed per program and compared by geographic region and ranking. RESULTS: A total of 42 active Canadian and American Nuclear Medicine fellowship programs were identified, of which 39 fellowships had dedicated fellowship websites available for the analysis. On average, fellowship websites contained 34.4% (9 ± 3.3) of the 26 criteria. Programs did not score differently on the criteria by geographical distribution (P = .08) nor by ranking (P = .18). CONCLUSION: Most Canadian and American Nuclear Medicine fellowship websites are lacking content relevant to prospective fellows. Addressing inadequacies in online content may support programs to inform and recruit residents into fellowship programs.

Emergent Comprehensive Imaging of the Major Trauma Patient: A New Paradigm for Improved Clinical Decision-Making.

Modern advances in the medical imaging layered onto sophisticated trauma resuscitation strategies in highly organized regionalized trauma systems have created a paradigm shift in the management of severely injured patients. Although immediate exploratory surgery to identify and control life-threatening injuries still has its place, accelerated image acquisition and interpretation procedures now make it rare for trauma surgeons in major centers to venture into damage control surgery unaided by computed tomography (CT) or other imaging, particularly in cases of blunt trauma. Indeed, because of the high incidence of clinically occult injuries associated with major mechanism trauma, and even lower energy trauma in frail or elderly patients, CT imaging has become as invaluable as physical examination, if not more so, in critical decision-making in support of optimal outcomes. In particular, whole-body computed tomography (WBCT) completed promptly after initial assessment of a major trauma provides a quick, comprehensive survey of injuries that enables better surgical planning, obviates the need for multiple subsequent studies, and permits specialized reconstructions when needed. For those at risk for problematic occult injury after modest trauma, WBCT facilitates safer discharge planning and simplified follow-up. Through standardized guidelines, streamlined protocols, synoptic reporting, accessible web-based platforms, and active collaboration with clinicians, radiologists dedicated to trauma and emergency imaging enable clearer understanding of complex injuries in high-risk patients which leads to superior clinical decision-making. Whereas dated dogma has long warned that the CT scanner is the last place to take a challenging trauma patient, modern practice suggests that, more often than not, early comprehensive imaging can be done safely and efficiently and is in the patient's best interest. This article outlines how the role of diagnostic imaging for major trauma has evolved considerably in recent years.

Lower Urinary Tract Injuries: A Guide for the Emergency Radiologist.

Traumatic lower urinary tract injuries are uncommon and mainly occur in patients with severe trauma and multiple abdominopelvic injuries. In the presence of other substantial injuries, bladder and urethral injuries may be overlooked and cause significant morbidity and mortality. Therefore, it is important that radiologists are familiar with mechanisms and injuries that are high risk for bladder and urethral trauma. We review the imaging findings associated with these injuries and the appropriate modalities and techniques to further evaluate the patient and accurately diagnose these injuries. Computed tomography cystography and conventional retrograde urethrography are effective tools in identifying injuries to the lower urinary tract and play a crucial role in patient care and prognosis.

Cinematic Rendering of Traumatic Intrathoracic Gastric Herniation.

Online supplemental material is available for this article.

Mass Casualty Imaging-Policy, Planning, and Radiology Response to Mass Casualty Incidents.

A mass casualty incident (MCI) is an event that generates more patients at one time than locally available resources can manage using routine procedures. By their nature, many of these incidents have no prior notice but result in large numbers of casualties with injuries that range in severity. They can happen anywhere and at any time and regional hospitals and health-care providers have to mount a response quickly and effectively to save as many lives as possible. Radiologists must go from passenger to pilot when it comes to MCI planning. When involved at the hospital-wide planning stage, they can offer valuable expertise on how radiology can improve triage accuracy and at what cost in terms of time and resources and thereby contribute a pragmatic understanding of radiology's role and value during MCIs. By taking ownership of MCI planning in their own departments, radiologists can ensure that the radiology department can respond quickly and effectively to unforeseen emergencies. Well-designed radiology protocols will save lives in an MCI setting.

A Review of the Applications of Dual-Energy CT in Acute Neuroimaging.

Dual-energy computed tomography (CT) is a promising tool with increasing availability and multiple emerging and established clinical applications in neuroradiology. With its ability to allow characterization of materials based on their differential attenuation when imaged at two different energy levels, dual-energy CT can help identify the composition of brain, neck, and spinal components. Virtual monoenergetic imaging allows a range of simulated single energy-level reconstructions to be created with postprocessing. Low-energy reconstructions can aid identification of edema, ischemia, and subtle lesions due to increased soft tissue contrast as well as increasing contrast-to-noise ratios on angiographic imaging. Higher energy reconstructions can reduce image artifact from dental amalgam, aneurysm clips and coils, spinal hardware, dense contrast, and dense bones. Differentiating iodine from hemorrhage may help guide management of patients after thrombectomy and aid diagnosis of enhancing tumors within parenchymal hemorrhages. Iodine quantification may predict hematoma expansion in aneurysmal bleeds and outcomes in traumatic brain injury. Calcium and bone subtraction can be used to distinguish hemorrhage from brain parenchymal mineralization as well as improving visualization of extra-axial lesions and vessels adjacent to dense plaque or skull. This article reviews the basics of dual-energy CT and highlights many of its clinical applications in the evaluation of acute neurological presentations.

A Comparative Evaluation of Cardiothoracic Radiology Fellowship Website Content.

PURPOSE: Prospective radiology fellows often rely on the internet to obtain information with regard to the application process for and the unique qualities of different fellowship programs. The aim of this study was to analyze the content of websites of the United States' and Canadian cardiothoracic radiology fellowships. METHODS: All active Cardiothoracic Radiology fellowship websites as of July 2019 were evaluated and compared using 25 criteria in the following domains: Application, Recruitment, Clinical Training, Education/Research, and Incentives. Program website information availability was compared by geographic region. RESULTS: There were 60 active cardiothoracic radiology fellowships, and 59 of these fellowships had a dedicated fellowship website. Websites, on average, had 9.3 of the 25 criteria (37.2%). The mean number of schools that satisfied the criterion in the "Incentives" domain ([7.75/59] 10.5%±2.8%) was significantly lower than that for the "Application Process" domain ([40.50/59]; 68.7%±40.6%) (P=0.01). There was no significant difference in the information content of programs in different geographic regions (P=0.246). CONCLUSION: Most cardiothoracic radiology fellowship websites were lacking content relevant to prospective fellows. Provision of more relevant and easily accessible online content may support programs to better inform and recruit residents and to promote the specialty of cardiothoracic radiology.

Assessment of RAdiopaque Patient IDentification Stickers (RAPIDS) for patient-scan correlation in a mass casualty incident.

PURPOSE: To qualitatively assess the legibility of radiopaque patient identification stickers and their effect on image quality. These stickers are intended for use as a part of a patient registration and identification pack utilized in a mass casualty incident (MCI), to prevent errors in correlating patients with their diagnostic imaging and reports. METHODS: Four different prototype designs of stickers with radiopaque identification numbers which are legible on radiographs and CT were created. These were affixed to head and thorax phantoms and scanned using standard imaging protocols. Images were reviewed qualitatively for legibility and the presence of image degradation due to the radiopaque sticker materials using Likert scales by four radiologists and four emergency physicians. RESULTS: All four prototypes were confidently legible on forehead, shoulder and sternum on CT on topogram and reconstructed images. Sticker positioning over the temple resulted in unreliable legibility on topogram. All prototypes were confidently legible on shoulder and sternum on CT and radiographs. Significant image degradation was reported on radiographs with sticker position over the sternum. The preferred anatomic position was the forehead. CONCLUSION: In a mass casualty incident, radiopaque patient identification stickers affixed to injured patients may help to ensure confidence in the correlation between patients and their imaging. Tested prototypes were found to be easily legible without substantial degradation of image quality. Preferred anatomical position and construction material was established. Consideration should be given to addition of such radiographic identity aides to MCI patient registration packs.