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WE‐EF‐BRA‐03: Catheter‐ Free Ablation with External Photon Radiation: Treatment Planning, Delivery Considerations, and Correlation of Effects with Delivered Dose
Author(s) -
Deisher A,
Anderson S,
Cusma J,
Herman M,
Johnson S,
Lehmann H,
Packer D,
Parker K,
Song L,
Takami M,
Kruse J
Publication year - 2015
Publication title -
medical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.473
H-Index - 180
eISSN - 2473-4209
pISSN - 0094-2405
DOI - 10.1118/1.4925982
Subject(s) - nuclear medicine , medicine , fluoroscopy , radiation treatment planning , cone beam computed tomography , ablation , radiation therapy , radiology , cardiology , computed tomography
Purpose: To plan, target, and calculate delivered dose in atrioventricular node (AVN) ablation with volume‐modulated arc therapy (VMAT) in an intact porcine model. Methods: Seven pigs underwent AVN irradiation, with prescription doses ranging between 25 and 55Gy in a single fraction. Cardiac CT scans were acquired at expiration. Two physicians contoured AVN targets on 10 phases, providing estimates of target motion and inter‐physician variability. Treatment planning was conducted on a static phase‐averaged CT. The volume designated to receive prescription dose covered the full extent of AVN cardiac motion, expanded by 4mm for setup uncertainty. Optimization limited doses to risk structures according to single‐fraction tumor treatment protocols. Orthogonal kV images were used to align bony anatomy at time of treatment. Localization was further refined with respiratory‐gated cone‐beam CT, and range of cardiac motion was verified under fluoroscopy. Beam delivery was respiratory‐gated for expiration with a mean efficiency of 60%. Deformable registration of the 10 cardiac CT phases was used to calculate actual delivered dose for comparison to electro‐anatomical and visually evident lesions. Results: The mean [minimum,maximum] amplitude of AVN cardiac motion was LR 2.9 [1.7,3.9]mm, AP 6.6 [4.4,10.4]mm, and SI 5.6 [2.0,9.9]mm. Incorporating cardiac motion into the dose calculation showed the volume receiving full dose was 40–80% of the volume indicated on the static planning image, although the contoured AVN target received full dose in all animals. Initial results suggest the dimensions of the electro‐anatomical lesion are correlated with the 40Gy isodose volume. Conclusion: Image‐guidance techniques allow for accurate and precise delivery of VMAT for catheter‐free arrhythmia ablation. An arsenal of advanced radiation planning, dose optimization, and image‐guided delivery techniques was employed to assess and mitigate effects of cardiac and respiratory motion. Feasibility of delivery to the pulmonary veins and left ventricular myocardium will be investigated in future studies. D. Packer Disclosures: Abiomed, Biosense Webster, Inc., Boston Scientific Corp., CardioFocus, Inc., Johnson and Johnson, Excerpta Medica, Ortho‐McNeil‐Jannsen, Sanofi Aventis, CardioInsight Technologies, InfoBionic, SIEMENS, Medtronic, Inc., CardioDx, Inc., CardioInsight Technologies, FoxP2 Medica, Mediasphere Medical, Wiley‐Blackwell, St. Jude Medical, Endosense, Thermedical, EP Advocate LLC, Hansen Medical, American Heart Association, EpiEP, NIH