Diagnostic and Interventional Imaging Services are Significant Sources of Medicare Revenue for Highly Reimbursed Nonradiologist Providers Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Andrew J. Degnan, Paul H. Yi, Nathan Kim, John Swietlik, Eric Huh, Jie C. Nguyen Abstract Introduction Nonradiologist providers increasingly perform diagnostic imaging examinations and imaging-guided interventions traditionally performed by radiologists, which have raised concerns regarding appropriate utilization and self-referral. The purpose of this study was to assess the contribution of imaging studies to Medicare reimbursements for highly compensated nonradiologist providers in specialties often performing imaging studies. Methods The Medicare Provider Utilization and Payment Database was queried for provider information regarding overall reimbursement for providers in anesthesiology, cardiology, emergency medicine, neurology, obstetrics and gynecology, orthopedic surgery, neurology, and vascular surgery. Information regarding imaging studies reported and payment amounts were extracted for the 25 highest-reimbursed providers. Data were analyzed for relative contribution of imaging payments to overall medical Medicare payments. Results Significant differences between numbers of imaging studies, types of imaging, and payment amounts were noted based on provider specialty (p < 0.001). Highest-reimbursed cardiologists received the greatest percentage of Medicare payments from imaging (18.3%) followed by vascular surgery (11.6%), obstetrics and gynecology (10.9%), orthopedic surgery (9.6%), emergency medicine (8.7%), neurology (7.8%), and anesthesiology (3.2%) providers. Mean imaging payments amongst highly reimbursed nonradiologists were greatest for cardiology ($578,265), vascular surgery ($363,912), and orthopedic surgery ($113,634). Amongst highly reimbursed specialists, most common nonradiologist imaging payments were from ultrasound (45%) and cardiac nuclear medicine studies (40%). Conclusions Nonradiologist performed imaging payments comprised substantial proportions of overall Medicare reimbursement for highly reimbursed physicians in several specialties, especially cardiology, vascular surgery, and orthopedic surgery. Further investigation is needed to better understand the wider economic implications of nonradiologist imaging study performance and self-referral beyond the Medicare population.

Endovascular Transjugular Occlusion of Congenital Intrahepatic Portosystemic Venous Shunt Using Simultaneous Fluoroscopy and Transabdominal Ultrasound Guidance: Report of 2 Cases Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Ujjwal Gorsi, Naveen Kalra, Pankaj Gupta, Karthik Rayasam, Babu Ram Thapa, Hemant Bhagat, Niranjan Khandelwal Congenital intrahepatic portosystemic venous shunts (CIPVS) are rare anomalies that can be detected before birth or in early infancy or later in life. Symptomatic shunts are treated as they carry high risk of complications like hepatic encephalopathy. Various treatment options include surgery, endovascular embolization, and percutaneous closure devices. We treated 2 infants with CIPVS successfully by endovascular embolization of the shunt using vascular plug through transjugular route. Transabdominal ultrasound guidance in addition to fluoroscopy was used at the time of vascular plug placement. We emphasize that the use of transabdominal ultrasound during endovascular occlusion enhances the safety and technical success rate.

Thoracic Duct Embolization—Value Analysis Using a Time-Driven Activity-Based Costing Approach: A Single Institution Experience Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Spencer B. Lewis, Ravi N. Srinivasa, Prasad R. Shankar, Jacob J. Bundy, Joseph J. Gemmete, Jeffrey Forris Beecham Chick Abstract Purpose To quantify cost drivers for thoracic duct embolization based on time-driven activity-based costing methods. Materials and Methods This was an Institutional Review Board-approved (HUM00141114) and Health Insurance Portability and Accountability Act-compliant study performed at a quaternary care institution over a 14-month period. After process maps for thoracic duct embolization were prepared, staff practical capacity rates and consumable equipment costs were analyzed via a time-driven activity-based costing methodology. Sensitivity analyses were performed to identify primary cost drivers. Results Mean procedure duration was 4.29 hours (range: 2.15-7.16 hours). Base case cost, per case, for thoracic duct embolization was $7466.67. Multivariate sensitivity analyses performed with all minimum and maximum values for cost input variables yielded a cost range of $1001.95 (minimum) to $89,503.50 (maximum). Using local salary information and negotiated prices for materials as cost parameters, the true cost per case of thoracic duct embolization at the study institution was $8038.94. Univariate analysis demonstrated that the primary driver of staffing costs was the length of time the attending anesthesiologist was present. The predominant modifiable cost drivers included cyanoacrylate glue volume used (minimum $4467; maximum $12,467), cost of glue utilized (minimum $5217; maximum $10,467), and cost of coils utilized (minimum $7377; maximum $10,917). Univariate analysis predicted that the use of Histoacryl glue in place of TRUFILL cyanoacrylate glue resulted in a cost savings of $2947.50 per case. Conclusions The base cost per case for thoracic duct embolization was $7466.67. Costs, namely anesthesia staffing costs, cyanoacrylate glue, and coils were large, potentially modifiable drivers of overall cost for thoracic duct embolization.

Effect of CT Localizer Radiographs on Radiation Dose Associated With Automatic Tube Current Modulation: A Multivendor Study Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Fabio Paolicchi, Luca Bastiani, Jacopo Negri, Davide Caramella Objectives To assess the influence of the CT localizer radiograph on the automatic tube current modulation system of 7 CT scanners produced by 4 different CT manufacturers. Methods The influence of the localizer orientation, table height, tube current and tube potential values on the radiation dose of the related CT scan were evaluated. Images were acquired by using an anthropomorphic phantom positioned in the CT gantry isocenter as well as from -6 cm to +6 cm vertically to the isocenter. Results Vertical movement of the CT table height affected the radiation dose in all scanners using anterior-posterior or a posterior-anterior localizer orientation albeit differently, depending on the manufacturer; only in 1/7 scanner no influence was observed. The latero-lateral localizer orientation proved to be more effective in limiting the influence of the vertical miscentering in all scanners. Changing localizer's tube voltage influenced the scan radiation dose in scanners produced by two manufacturers, while no significant effect was observed in scanners produced by the other two manufacturers. No significant dose variation was observed in 6/7 scanners when changing the localizer's tube current. Conclusion Localizer radiograph shows a significant influence on the radiation exposure but with different outcomes depending on the manufacturer of the CT scanner. Radiologists and radiographers should have a thorough understanding of these differences to assure patients the best examination in terms of radiation dose and image quality.

Impact of Overlying Personal Items on CT Dose with Use of Automated Tube Current Modulation—Pilot Investigation Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Thomas R. Mulvey, Xiangyang Tang, Elizabeth A. Krupinski, Pardeep K. Mittal, Courtney C. Moreno Abstract Purpose To determine the incidence and impact of overlying radiopaque personal items (e.g., cellular phones, zippers) on CT dose and image quality with use of automated tube current modulation. Methods Topogram images from 100 consecutive adult outpatient CT abdomen pelvis studies were retrospectively reviewed, and the number and type of overlying radiopaque personal items were recorded. Additionally, an anthropomorphic phantom was imaged with overlying personal items 1) present in topogram and axial images; 2) present in topogram but removed prior to axial acquisition; and 3) present in topogram positioned outside the field of view of the axial acquisition. dose length product (DLP) and CT dose index volume (CTDIvol) were compared to acquisitions performed without overlying personal items. Image noise was evaluated by assessing the standard deviation of Hounsfield units at the level of the overlying personal item. Results Overlying personal items were visible in topogram images for 55% of CT exams and included underwires (38% of exams), zippers (7%), and cellular phones (1%). DLP increased when a cellular phone was present in the topogram whether or not it was removed before axial image acquisition (3.7% p = 0.002, combined AutomA and SmartmA), and image noise increased (144%, p = 0.002; AutomA). No increase in dose or image noise was observed with overlying zippers or underwires or when any object was visible in the topogram outside the field of view of the axial images. Conclusions Overlying personal items were observed in the majority of abdominopelvic CT scans. Large overlying radiopaque personal items resulted in increased dose and increased image noise. Removal of all overlying personal items will result in optimized dose and image quality.

Image Quality of ECG-Triggered High-Pitch, Dual-Source Computed Tomography Angiography for Cardiovascular Assessment in Children Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Christian A. Barrera, Hansel J. Otero, Ammie M. White, David Saul, David M. Biko Abstract Purpose Evaluate the feasibility and determinants of image quality of ECG-triggered High-Pitch Dual-Source Computed Tomography Angiography (CTA) for cardiovascular assessment in Children. Material and methods All children that underwent ECG-triggered High-Pitch Dual-Source CTA between August 2014 and September 2017 were identified. Scanner parameters and patients' information were retrieved. Objective image quality was evaluated measuring the Hounsfield units (HU) and standard deviation of regions of interests in the left ventricle, ascending and descending aorta. Signal-to-noise ratio (SNR) and contrast-to-noise ratio (CNR) were calculated. Qualitative image quality was recorded independently by two pediatric radiologist blinded using a three-point scale: 1 – good image quality, 2 – mild artifacts, 3 – poor image quality. Continuous variables were presented as mean ± standard deviation. The interobserver agreement and non-parametric test were used. Results 93 patients (mean age 5.6 ± 7.1 years) were selected. Average cardiovascular attenuation, SNR and CNR were 406.2 ± 146.3 HU, 24.2 ± 16.0 HU and 52.1 ± 38.6 HU, respectively. Average image quality was 1.51 ± 0.48 and the inter-observer agreement was excellent (k = 0.8). Worse subjective quality scores were associated with lower age, height, weight, BSA, lower contrast dose and slower injection rates (p < 0.05). Higher heart rate was associated with high attenuation (p < 0.05), however, SNR and CNR did not show an association with heart rate (p = 0.80). Conclusions ECG-triggered High-Pitch Dual-Source cardiac CTA is feasible and provides good or excellent image quality for the evaluation of cardiovascular diseases in children.

Traumatic Airway Injuries: Role of Imaging Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Barun Bagga, Atin Kumar, Anurag Chahal, Shivanand Gamanagatti, Subodh Kumar Airway Injuries are rare but often immediately life threatening. Incidence ranges from 0.5–2 % in blunt and 1–6 % in penetrating trauma. Upper airway injuries (UAI) are often clinically apparent and get shunted during the primary survey in the emergency department. Few UAI and majority of lower airway injuries (LAI) are occult on primary survey and need a high suspicion index. Clinically, the diagnosis of tracheobronchial injury is delayed in many patients because the airway column is maintained by the peribronchial tissue. Imaging in the form of MDCT, in conjunction with endoscopy, plays a role in delineating the exact site and extent of injury and ruling out associated vascular and esophageal injuries for definitive management of UAI. Chest radiographs and ultrasonography help raise suspicion of LAI by detection of pneumomediastinum, persistent pneumothorax and/or subcutaneous emphysema and should be followed up with multidetector computed tomography (MDCT) which is the mainstay of diagnosis. However, it requires careful evaluation of the airway tract and a thorough knowledge about the mechanism of trauma for detection of subtle injuries. Reconstructions in multiple planes and use of various post-processing techniques including minimum intensity projection (MinIP) images enhance the detection rate. The specific signs of LAI on CT include discontinuity in the tracheobronchial tree, focal intimal flap projecting in the lumen, focal soft tissue attached to the tracheal/bronchial wall, complete cut off of the bronchus/trachea and the fallen lung sign. We, hereby, illustrate the imaging spectrum of traumatic airway injuries in detail and discuss their management implications.

Pulmonary Hemorrhage Following Percutaneous Computed Tomography-Guided Lung Biopsy: Retrospective Review of Risk Factors, Including Aspirin Usage Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Brigid A. Bingham, Steven Y. Huang, Pamela L. Chien, Joe E. Ensor, Sanjay Gupta Abstract Background To evaluate the significance of aspirin, as well as, other potential confounding risk factors, on the incidence and volume of pulmonary hemorrhage in patients undergoing percutaneous computed tomography-guided lung biopsy. Methods This retrospective study was approved by the institutional review board. Between September 2013 and December 2014, 252 patients taking aspirin underwent transthoracic computed tomography-guided lung biopsy. Patient, technical, and lesion-related risk factors were evaluated. Univariate analysis was performed with a Student's t test, chi-square test, or Fisher's exact test, as appropriate followed by multivariate logistic regression. Results Of 252 patients, 49 (19.4%) continued or stopped aspirin ≤4 days prior to biopsy and 203 (80.6%) patients stopped aspirin ≥5 days prior to biopsy. Pulmonary hemorrhage occurred in 174 cases (69.0%). The median volume of hemorrhage was 3.74 cm3 (range, 0-163.5 cm3). Multivariate analysis revealed that lesion size (P < 0.0001) and lesion depth (P < 0.0001) were independent risk factors for the incidence of pulmonary hemorrhage, while lesion size (P = 0.0035), transgression of intraparenchymal vessels (P < 0.0001), and lesion depth (P = 0.0047) were independent risk factors for severity of hemorrhage. Aspirin stopped ≤4 days from a percutaneous lung biopsy was not associated with pulmonary hemorrhage. Conclusion Aspirin taken concurrently or stopped within 4 days of transthoracic lung biopsy is not an independent risk factor for pulmonary hemorrhage. The incidence of hemorrhage following lung biopsy is associated with lesion size and depth, while the severity of hemorrhage is associated with lesion size, depth, as well as traversal of intraparenchymal vessels.

Performance of an Interactive Upper Extremity Peripheral Nerve Training Module Among Medical Students, Radiology Residents, and Fellows: A Multi-institutional Study Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Adam Daniel Singer, Yara Younan, Vandad Saadat, Monica Umpierrez, Vita Kesner, Nicholas Boulis, Felix Gonzalez, Ty K. Subhawong Abstract Background and Purpose Chronic pain is a common problem and imaging is becoming increasingly utilized in the characterization of peripheral neuropathy, although this topic is not emphasized during medical training. We hypothesized that an electronic module and nerve atlas would be effective in improving comprehension among trainees. Materials and Methods In this IRB-approved study, a training module was created that included a side-by-side comparison of normal upper extremity nerves on magnetic resonance imaging and ultrasound (US), with embedded questions and cases, followed by a brief hands-on US scanning session. Thirty volunteers with variable training were enrolled in 1 institution, while 14 volunteers were enrolled in another. Pre- and post-test scores were collected and compared. Results There was a response rate of 100% at both institutions. At the first institution, subjects were divided into 2 groups: group 1 (16 medical students) and group 2 (14 residents/fellows). There was a baseline deficit of knowledge among both groups, with a mean pretest score of 37.5% and 47.5% for group 1 and group 2, respectively (P = 0.017). After module completion, both groups improved with a mean post-test score of 67.2% for group 1 and 76.1% for group 2. At the second institution, there was similar improvement even if the scanning session was not done. Conclusions Use of an electronic module helps trainees to become more familiar with peripheral nerve imaging, regardless of level of training. Use of the module, even in the absence of hands-on US scanning, results in an improved understanding of this topic.

Magnetic Resonance Imaging Technologist Breast Subspecialty Program; a Quality Improvement Project Gone Right Publication date: January–February 2020 Source: Current Problems in Diagnostic Radiology, Volume 49, Issue 1 Author(s): Audrey L. Hartman, Stacey Sullivan, Sama Alshora, Jeanette Chun, Michelle McSweeney, Cathleen Kim Abstract We describe a Lean based Quality Improvement Project (QIP) to improve the defect rate of breast magnetic resonance imaging (MRI) studies by developing a MRI Technologist Breast Sub-specialization Program. Key stakeholders (physician and technologist) drove the QIP. Both the overall defect rate and the callback rate (severe defects requiring patients return for repeat imaging) were measured over a 2-month period as 17% and 6%, respectively. Lean visualization tools of Pareto Chart & Fishbone Diagram identified lack of multiple trends, but discerned that most defect causes were within the responsibility of the technologists. Lean Value Stream Map identified technologists' useless work (muda), which was subsequently eliminated. Radiologists collectively defined what made a quality study in a Quality Checklist. Key stakeholders limited the number of technologists based on the study volume (50 studies/technologist/2 years) and reviewed 5 studies recently performed by each technologist. If all 5 studies were defect free per the Quality Checklist, then the technologist was certified to perform breast MRI's by himself/herself. Otherwise, the technologist was on probation. Key stakeholders selected SuperTechs with advanced skill and interest from the certified pool to cover all shifts. Technologists on probation had to complete 5 additional studies defect-free under the supervision of a SuperTech to achieve certification. In addition, SuperTechs were available to backup certified technologists, as needed. Software was implemented at the PACS workstation to flag defective and callback studies. 6 months after the initiation of the QIP, the defect rate decreased from 17% to 2% (p>0.02), and the callback rate decreased from 6% to 0, thus confirming this MRI Breast Program was a QIP gone right.