Improved safety and quality in intravascular brachytherapy: A multi-institutional study using failure modes and effects analysis.

[1]  K. Wallner,et al.  Conundrums of coronary brachytherapy. , 2022, Brachytherapy.

[2]  G. Cohen,et al.  Quantifying clinical severity of physics errors in high-dose rate prostate brachytherapy using simulations. , 2021, Brachytherapy.

[3]  J. Hoisak,et al.  Benchmarking failure mode and effects analysis of electronic brachytherapy with data from incident learning systems. , 2020, Brachytherapy.

[4]  A. Pershad,et al.  Impact of intravascular brachytherapy on patient reported outcomes in patients with coronary artery disease. , 2020, Cardiovascular revascularization medicine : including molecular interventions.

[5]  B. Salter,et al.  FMEA-guided transition from microSelectron to Flexitron for HDR brachytherapy. , 2020, Brachytherapy.

[6]  Samin K. Sharma,et al.  Intravascular Brachytherapy for the Management of Repeated Multimetal-Layered Drug-Eluting Coronary Stent Restenosis , 2018, Circulation. Cardiovascular interventions.

[7]  J. Poder,et al.  A risk-based approach to development of ultrasound-based high-dose-rate prostate brachytherapy quality management. , 2018, Brachytherapy.

[8]  Shada Wadi-Ramahi,et al.  Failure modes and effects analysis in image-guided high-dose-rate brachytherapy: Quality control optimization to reduce errors in treatment volume. , 2016, Brachytherapy.

[9]  Sasa Mutic,et al.  The report of Task Group 100 of the AAPM: Application of risk analysis methods to radiation therapy quality management. , 2016, Medical physics.

[10]  Samin K. Sharma,et al.  Intracoronary brachytherapy for in-stent restenosis of drug-eluting stents , 2015, Advances in radiation oncology.

[11]  S. Dieterich,et al.  A failure modes and effects analysis study for gynecologic high-dose-rate brachytherapy. , 2015, Brachytherapy.

[12]  Amy S Harrison,et al.  Clinical implementation and failure mode and effects analysis of HDR skin brachytherapy using Valencia and Leipzig surface applicators. , 2015, Brachytherapy.

[13]  Matthew D Kolar,et al.  Failure modes and effects analysis applied to high-dose-rate brachytherapy treatment planning. , 2013, Brachytherapy.

[14]  Pascale Carayon,et al.  Using failure mode and effects analysis to plan implementation of smart i.v. pump technology. , 2006, American journal of health-system pharmacy : AJHP : official journal of the American Society of Health-System Pharmacists.

[15]  L. Schulmeister,et al.  Failure mode and effect analysis: a technique to prevent chemotherapy errors. , 2006, Clinical journal of oncology nursing.

[16]  P. Serruys,et al.  Successful reduction of in-stent restenosis in long lesions using beta-radiation--subanalysis from the RENO registry. , 2004, International journal of radiation oncology, biology, physics.

[17]  S. Sdringola,et al.  Combined cutting balloon angioplasty and intracoronary beta radiation for treatment of in‐stent restenosis: Clinical outcomes and effect of pullback radiation for long lesions , 2002, Catheterization and cardiovascular interventions : official journal of the Society for Cardiac Angiography & Interventions.

[18]  William Wijns,et al.  Endoluminal beta-radiation therapy for the prevention of coronary restenosis after balloon angioplasty. , 2001 .

[19]  R A Schatz,et al.  Three-year clinical and angiographic follow-up after intracoronary radiation : results of a randomized clinical trial. , 2000, Circulation.

[20]  R Nath,et al.  Intravascular brachytherapy physics: report of the AAPM Radiation Therapy Committee Task Group no. 60. American Association of Physicists in Medicine. , 1999, Medical physics.

[21]  B. Fuchs,et al.  Failure mode and effects analysis application to critical care medicine. , 2005, Critical care clinics.

[22]  R. Cormack,et al.  Dosimetric consequences of manual pullback procedure for coronary artery radiotherapy with 90Sr/90Y beta-source. , 2004, Brachytherapy.