Occupational Radiation Dose Trends in U.S. Radiologic Technologists Assisting with Fluoroscopically Guided Interventional Procedures, 1980-2020.

PURPOSE: To summarize dose trends from 1980 to 2020 for 19,651 U.S. Radiologic Technologists who reported assisting with fluoroscopically guided interventional procedures (FGIPs), overall and by work history characteristics. MATERIALS AND METHODS: A total of 762,310 annual personal dose equivalents at a 10-mm reference depth (doses) during 1980-2020 for 43,823 participants of the U.S. Radiologic Technologists (USRT) cohort who responded to work history questionnaires administered during 2012-2014 were summarized. This population included 19,651 technologists who reported assisting with FGIP (≥1 time per month for ≥12 consecutive months) at any time during the study period. Doses corresponding to assistance with FGIP were estimated in terms of proximity to patients, monthly procedure frequency, and procedure type. Box plots and summary statistics (eg, medians and percentiles) were used to describe annual doses and dose trends. RESULTS: Median annual dose corresponding to assistance with FGIP was 0.65 mSv (interquartile range [IQR], 0.60-1.40 mSv; 95th percentile, 6.80). Higher occupational doses with wider variability were associated with close proximity to patients during assistance with FGIP (median, 1.20 mSv [IQR, 0.60-4.18 mSv]; 95th percentile, 12.66), performing ≥20 FGIPs per month (median, 0.75 mSv [IQR, 0.60-2.40 mSv]; 95th percentile, 9.44), and assisting with high-dose FGIP (median, 0.70 mSv [IQR, 0.60-1.90 mSv]; 95th percentile, 8.30). CONCLUSIONS: Occupational doses corresponding to assistance with FGIP were generally low but varied with exposure frequency, procedure type, and proximity to patients. These results highlight the need for vigilant dose monitoring, radiation safety training, and proper protective equipment.

Medicare Reimbursement Trends for Interventional Radiology Procedures: 2012 to 2020.

PURPOSE: To investigate the reimbursement trends for interventional radiology (IR) procedures from 2012 to 2020. MATERIALS AND METHODS: Reimbursement data from the Physician Fee Schedule look-up tool from the Centers for Medicare and Medicaid Services was compiled for 20 common IR procedures. The authors then investigated compensation trends after adjusting for inflation and from the unadjusted data between 2012 and 2020. RESULTS: From 2012 to 2020, the mean unadjusted reimbursement for procedures decreased by -6.9% (95% confidence interval [CI], -13.5% to -0.34%). This trend was even more profound after inflation was taken into account, with a mean decline in adjusted reimbursement of -18.7% (95% CI, -24.4% to -12.9%) during the study period, with a mean yearly decline of -2.8%. The difference between the mean unadjusted and adjusted payment amounts was significant (P = .012). Similarly, linear regression analysis of the adjusted average reimbursement across all procedures revealed an overall decline from 2012 to 2020 (R2 = 0.97), indicating a steady decline in reimbursement over time. CONCLUSIONS: In just under a decade, IR has experienced significant reimbursement cuts by Medicare, as demonstrated by both the unadjusted and inflation-adjusted payment trends. Knowledge of these trends is critically important for practicing interventional radiologists, leaders within the field, and legislators, who may play a role in formulating future reimbursement schedules for IR. These data may be used to help support more amenable reimbursement plans to sustain and facilitate the growth of the specialty.

Online Ratings for Vascular Interventional Proceduralists Vary by Physician Specialty.

BACKGROUND: Multiple specialties offer vascular interventional care, creating potential competition for referrals and procedures. At the same time, patient/consumer ratings have become more impactful for physicians who perform vascular procedures. We hypothesized that there are differences in online ratings based on specialty. METHODS: We used official program lists from the Association for Graduate Medical Education to identify institutions with training programs in integrated vascular surgery (VS), integrated interventional radiology (IR), and interventional cardiology (IC). Faculty providers were identified in each specialty at these institutions. A standardized search was performed to collect online ratings from Vitals.com, Healthgrades.com, and Google.com as well as from online demographics. Between specialty differences were analyzed using chi-squared and analysis of variance tests as appropriate. Multivariable linear regression was used to identify factors associated with review volume and star rating. RESULTS: A total of 1,330 providers (n = 454 VS, n = 451 IR, n = 425 IC) were identified across 47 institutions in 27 states. VS (55.5%-69.4%) and IC (63.8%-71.1%) providers were significantly more likely to have reviews than IR (28.6%-48.8%) providers across all online platforms (P < 0.001 for all websites). Across all platforms, IC providers were rated significantly higher than VS and IR providers. Multivariable regression showed that provider specialty and additional time in practice were associated with higher review volume. In addition to specialty, review volume was associated with star rating as those physicians with more reviews tended to have a higher rating. CONCLUSIONS: On average, vascular surgeons have more reviews and are more highly rated than interventional radiologists but tend to have fewer reviews and lower ratings than interventional cardiologists. VS providers may benefit from encouraging patients to file online reviews, especially in competitive markets.

Changes in IR from 2007 to 2017 in China.

In this article, the updated status of interventional radiology (IR) in China is reported and compared vs that a decade ago based on a poll carried out in 2017 in Jiangsu Province, where the economy and overall health level are among the best of the 31 provinces in China. All 98 polled centers responded, and 56 IR departments (57%) had become independent departments separate from the radiology department; 74 (76%) had inpatient wards. In 2017, there were 538 interventional radiologists performing IR procedures in Jiangsu Province, with a total of 69,277 procedures performed, with interventional oncologic procedures accounting for the largest proportion (58%).

Financial Effect of Unbundling Moderate Sedation from Procedural Codes in Radiology.

PURPOSE: To assess and quantify the financial effect of unbundling newly unbundled moderate sedation codes across major payors at an academic radiology practice. MATERIALS AND METHODS: Billing and reimbursement data for 23 months of unbundled moderate sedation codes were analyzed for reimbursement rates and trends. This included 10,481 and 28,189 units billed and $443,257 and $226,444 total receipts for codes 99152 (initial 15 minutes of moderate sedation) and 99153 (each subsequent 15 minute increment of moderate sedation), respectively. Five index procedures-(i) central venous port placement, (ii) endovascular tumor embolization, (iii) tunneled central venous catheter placement, (iv) percutaneous gastrostomy placement, and (v) percutaneous nephrostomy placement-were identified, and moderate sedation reimbursements for Medicare and the dominant private payor were calculated and compared to pre-bundled reimbursements. Revenue variation models across different patient insurance mixes were then created using averages from 4 common practice settings among radiologists (independent practices, all hospitals, safety-net hospitals, and non-safety-net hospitals). RESULTS: Departmental reimbursement for unbundled moderate sedation in FY2018 and FY2019 totaled $669,701.34, with high per-unit variability across payors, especially for code 99153. Across the 5 index procedures, moderate sedation reimbursement decreased 1.3% after unbundling and accounted for 3.9% of procedural revenue from Medicare and increased 11.9% and accounted for 5.5% of procedural revenue from the dominant private payor. Between different patient insurance mix models, estimated reimbursement from moderate sedation varied by as much as 29.9%. CONCLUSIONS: Departmental reimbursement from billing the new unbundled moderate sedation codes was sizable and heterogeneous, highlighting the need for consistent and accurate reporting of moderate sedation. Total collections vary by case mix, patient insurance mix, and negotiated reimbursement rates.

Institutional Variability in Patient Radiation Doses ≥5 Gy During Percutaneous Coronary Intervention.

OBJECTIVES: The aim of this study was to evaluate institutional variability in high radiation doses during percutaneous coronary intervention (PCI). BACKGROUND: It is unknown whether radiation safety practices are optimally applied across institutions performing PCI. METHODS: Using data from a large statewide registry, PCI discharges between July 1, 2016, and March 31, 2018, with a procedural air kerma (AK) recorded were analyzed. PCI procedures were grouped by the performing hospital, and institutional frequency of procedural AK ≥5 Gy was calculated. Fitted hierarchical Bayesian modeling was performed to identify variables independently associated with an AK ≥5 Gy. The performing hospital was included as a random effect in the hierarchical model. RESULTS: Among 36,201 PCI procedures at 28 hospitals, procedural AK was ≥5 Gy in 1,477 cases (4.1%), ≥10 Gy in 185 (0.5%), and ≥15 Gy in 105 (0.3%). The institutional frequency of procedural AK ≥5 Gy ranged from 0.0% to 10.9%. Bayesian modeling identified body mass index, dyslipidemia, diabetes, prior coronary bypass surgery, use of mechanical circulatory support, and the performing hospital as independent predictors of an AK ≥5 Gy. The median odds ratio for the performing hospital, representing an estimate of the contribution of interhospital variability in determining the odds of having a procedural AK ≥5 Gy, was 3.08 (95% confidence interval: 3.01 to 3.16). CONCLUSIONS: Wide variability exists in the institutional frequency of procedural AK ≥5 Gy during PCI. After accounting for patient characteristics and procedural variables, the performing hospital appears to be a major factor in determining patient radiation dose in contemporary PCI.

European trends in radiology: investigating factors affecting the number of examinations and the effective dose.

The advances in technology have led to a growing trend in population exposure to radiation emerging from the invention of high-dose procedures. It is, for example, estimated that annually 1.2% of cancers are induced by radiological scans in Norway. This study aims to investigate and discuss the frequency and dose trends of radiological examinations in Europe. European Commission (EC) launched projects to gain information for medical exposures in 2004 and 2011. In this study, the European Commission Radiation Protection (RP) reports No. 154 and 180 have been reviewed. The RP 154 countries' data were extracted from both reports, and the average variation trend of the number of examinations and effective doses were studied. According to the results, plain radiography and fluoroscopy witnessed a reduction in the frequency and effective dose per examination. Nevertheless, European collective dose encountered an average increase of 23%, which resulted from a growing tendency for implementation of high-dose procedures such as CT scans and interventional examinations. It is worth noting that most of the CT procedures have undergone an increase in effective dose per examination. Although demand and dose per examination in some radiological procedures (such as intravenous urography (IVU) have been reduced, population collective dose is still rising due to the increasing demand for CT scan procedures. Even though the individual risks are not considerable, it can, in a large scale, threaten the health of the people at the present time. Due to this fact, better justification should be addressed so as to reduce population exposure.

Endoscopy as an Adjunct to Image-Guided Interventions: A New Frontier in Interventional Radiology.

Endoscopy is an underutilized technique in the practice of interventional radiology. The objectives of this article are to discuss potential uses of interventional radiology-operated endoscopy and to outline basic endoscopy setup and equipment uses. Endoscopy represents a new frontier to the fluoroscopically-guided procedures in biliary, gastrointestinal, and genitourinary disease that interventional radiologists commonly perform. It shows promise to improve interventional radiology procedure success rates and reduce procedure-associated risk for patients. Endoscopy has been traditionally performed by gastroenterologists and urologists and is relatively new in the practice of interventional radiology. The hand-eye coordination and manual dexterity required to perform standard image-guided procedures places interventional radiologists in a unique position to introduce endoscopy into standard practice. A focused and collaborative effort is needed by interventional radiologists to learn the techniques required to successfully integrate endoscopy into practice.

Locoregional treatments for hepatocellular carcinoma: Current evidence and future directions.

Liver cancers are the second most frequent cause of global cancer-related mortality of which 90% are attributable to hepatocellular carcinoma (HCC). Despite the advent of screening programmes for patients with known risk factors, a substantial number of patients are ineligible for curative surgery at presentation with limited outcomes achievable with systemic chemotherapy/external radiotherapy. This has led to the advent of numerous minimally invasive options including but not limited to trans-arterial chemoembolization, radiofrequency/microwave ablation and more recently selective internal radiation therapy many of which are often the first-line treatment for select stages of HCC or serve as a conduit to liver transplant. The authors aim to provide a comprehensive overview of these various image guided minimally invasive therapies with a brief focus on the technical aspects accompanied by a critical analysis of the literature to assess the most up-to-date evidence from comparative systematic reviews and meta-analyses finishing with an assessment of novel combination regimens and future directions of travel.

[Future of interventional radiology]. / Avenir de la radiologie interventionnelle.

Imaging-guided interventions or interventional radiology (IR) are intended to improve the efficiency and accuracy of the medical procedure regardless of the organ, as well as the safety and comfort of the patient. Currently IR concerns all medico-surgical specialties with a number of acts constantly increasing, and is today a major field of innovation that responds to a strong societal demand to move towards more and more effective treatments, but also less and less invasive. The ambulatory shift in IR is a major prospect of saving and improving the quality of care. In the field of innovations, technical developments are major for both guidance methods and interventional radiology equipment. These developments affect all organ pathologies, but it is certainly in the field of oncology that progress is fastest, with personalized medicine with new drugs targeted to optimize tolerance to treatment and maximize effects. The aim of this article is to make this specialty better known, its organization both in terms of training and the permanence of care.

Transcatheter Dialysis Conduit Procedures: Changing National and State-Level Medicare Use Patterns over 15 Years.

PURPOSE: To evaluate the changing use of transcatheter hemodialysis conduit procedures. METHODS: Multiple Centers for Medicare & Medicaid Services datasets were used to assess hemodialysis conduit angiography. Use was normalized per 100,000 beneficiaries and stratified by specialty and site of service. RESULTS: From 2001 to 2015, hemodialysis angiography use increased from 385 to 1,045 per 100,000 beneficiaries (compound annual growth rate [CAGR], +7.4%)]. Thrombectomy use increased from 114 to 168 (CAGR, +2.8%). Angiography and thrombectomy changed, by specialty, +1.5% and -1.3% for radiologists, +18.4% and +14.4% for surgeons, and +24.0% and +17.7% for nephrologists, respectively. By site, angiography and thrombectomy changed +29.1% and +20.7% for office settings and +0.8% and -2.4% for hospital settings, respectively. Radiologists' angiography and thrombectomy market shares decreased from 81.5% to 37.0% and from 84.2% to 47.3%, respectively. Angiography use showed the greatest growth for nephrologists in the office (from 5 to 265) and the greatest decline for radiologists in the hospital (299 to 205). Across states in 2015, there was marked variation in the use of angiography (0 [Wyoming] to 1173 [Georgia]) and thrombectomy (0 [6 states] to 275 [Rhode Island]). Radiologists' angiography and thrombectomy market shares decreased in 48 and 31 states, respectively, in some instances dramatically (eg, angiography in Nevada from 100.0% to 6.7%). CONCLUSIONS: Dialysis conduit angiography use has grown substantially, more so than thrombectomy. This growth has been accompanied by a drastic market shift from radiologists in hospitals to nephrologists and surgeons in offices. Despite wide geographic variability nationally, radiologist market share has declined in most states.