@Article{RSM:Kol2009,
  author =       "A. Kolandaivelu and A.C. Lardo and H.R. Halperin",
  title =        "Cardiovascular magnetic resonance guided
                 electrophysiology studies.",
  journal =      "J Cardiovasc Magn Reson",
  year =         "2009",
  volume =       "11",
  number =       "1",
  pages =        "21",
  robnote =      "Pre-procedure 3D CMR has improved understanding of the
                 anatomic basis of complex arrhythmias and is being used
                 for planning and guidance of ablation procedures. A
                 particular strength of CMR compared to other imaging
                 modalities is the ability to visualize ablation lesions.
                 Post-procedure CMR is now being applied to assess ablation
                 lesion location and permanence with the goal of
                 indentifying factors leading to procedure success and
                 failure. In the future, intra-procedure real-time CMR,
                 together with the ability to image complex 3-D
                 arrhythmogenic anatomy and target additional ablation to
                 regions of incomplete lesion formation, may allow for more
                 successful treatment of even complex arrhythmias without
                 exposure to ionizing radiation. Development of clinical
                 grade CMR compatible electrophysiology devices is required
                 to transition intra-procedure CMR from pre-clinical
                 studies to more routine use in patients.",
  bibdate =      "Sat Sep 5 05:20:20 2009",
  pmcid =        "PMC2719626",
}

{"_id":"8CKijaeMg7jegkH3c","bibbaseid":"kolandaivelu-lardo-halperin-cardiovascularmagneticresonanceguidedelectrophysiologystudies-2009","downloads":0,"creationDate":"2016-07-01T21:38:35.915Z","title":"Cardiovascular magnetic resonance guided electrophysiology studies.","author_short":["Kolandaivelu, A.","Lardo, A.","Halperin, H."],"year":2009,"bibtype":"article","biburl":"http://www.sci.utah.edu/~macleod/Bibtex/biglit.bib","bibdata":{"bibtype":"article","type":"article","author":[{"firstnames":["A."],"propositions":[],"lastnames":["Kolandaivelu"],"suffixes":[]},{"firstnames":["A.C."],"propositions":[],"lastnames":["Lardo"],"suffixes":[]},{"firstnames":["H.R."],"propositions":[],"lastnames":["Halperin"],"suffixes":[]}],"title":"Cardiovascular magnetic resonance guided electrophysiology studies.","journal":"J Cardiovasc Magn Reson","year":"2009","volume":"11","number":"1","pages":"21","robnote":"Pre-procedure 3D CMR has improved understanding of the anatomic basis of complex arrhythmias and is being used for planning and guidance of ablation procedures. A particular strength of CMR compared to other imaging modalities is the ability to visualize ablation lesions. Post-procedure CMR is now being applied to assess ablation lesion location and permanence with the goal of indentifying factors leading to procedure success and failure. In the future, intra-procedure real-time CMR, together with the ability to image complex 3-D arrhythmogenic anatomy and target additional ablation to regions of incomplete lesion formation, may allow for more successful treatment of even complex arrhythmias without exposure to ionizing radiation. Development of clinical grade CMR compatible electrophysiology devices is required to transition intra-procedure CMR from pre-clinical studies to more routine use in patients.","bibdate":"Sat Sep 5 05:20:20 2009","pmcid":"PMC2719626","bibtex":"@Article{RSM:Kol2009,\n author = \"A. Kolandaivelu and A.C. Lardo and H.R. Halperin\",\n title = \"Cardiovascular magnetic resonance guided\n electrophysiology studies.\",\n journal = \"J Cardiovasc Magn Reson\",\n year = \"2009\",\n volume = \"11\",\n number = \"1\",\n pages = \"21\",\n robnote = \"Pre-procedure 3D CMR has improved understanding of the\n anatomic basis of complex arrhythmias and is being used\n for planning and guidance of ablation procedures. A\n particular strength of CMR compared to other imaging\n modalities is the ability to visualize ablation lesions.\n Post-procedure CMR is now being applied to assess ablation\n lesion location and permanence with the goal of\n indentifying factors leading to procedure success and\n failure. In the future, intra-procedure real-time CMR,\n together with the ability to image complex 3-D\n arrhythmogenic anatomy and target additional ablation to\n regions of incomplete lesion formation, may allow for more\n successful treatment of even complex arrhythmias without\n exposure to ionizing radiation. Development of clinical\n grade CMR compatible electrophysiology devices is required\n to transition intra-procedure CMR from pre-clinical\n studies to more routine use in patients.\",\n bibdate = \"Sat Sep 5 05:20:20 2009\",\n pmcid = \"PMC2719626\",\n}\n\n","author_short":["Kolandaivelu, A.","Lardo, A.","Halperin, H."],"key":"RSM:Kol2009","id":"RSM:Kol2009","bibbaseid":"kolandaivelu-lardo-halperin-cardiovascularmagneticresonanceguidedelectrophysiologystudies-2009","role":"author","urls":{},"metadata":{"authorlinks":{}},"downloads":0,"html":""},"search_terms":["cardiovascular","magnetic","resonance","guided","electrophysiology","studies","kolandaivelu","lardo","halperin"],"keywords":[],"authorIDs":[],"dataSources":["5HG3Kp8zRwDd7FotB"]}