History of Image-Guided Therapy at Brigham and Women’s Hospital




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Ruiz-Alzola J, Westin CF, Warfield SK, Alberola C, Maier S, Kikinis R. Nonrigid registration of 3D tensor medical data. Med Image Anal. 2002;6:143–61. PMID.12045001.PubMed


36.

Archip N, Clatz O, Whalen S, et al. Compensation of geometric distortion effects on intraoperative magnetic resonance imaging for enhanced visualization in image-guided neurosurgery. Neurosurgery. 2008;62:209–15; discussion 15–6. PMID.18424988.PubMed


37.

Dimaio S, Kapur T, Cleary K, et al. Challenges in image-guided therapy system design. Neuroimage. 2007;37 Suppl 1:S144–51. PMID.17644360.PubMedCentralPubMed


38.

Jolesz FA, Nabavi A, Kikinis R. Integration of interventional MRI with computer-assisted surgery. J Magn Reson Imaging. 2001;13:69–77. PMID.11169806.PubMed


39.

Nabavi A, Gering DT, Kacher DF, et al. Surgical navigation in the open MRI. Acta Neurochir Suppl. 2003;85:121–5. PMID.12570147.PubMed


40.

Chinzei K, Warfield S, Hata N, Tempany C, Jolesz F, Kikinis R. Planning, simulation and assistance with intraoperative MRI. Minim Invasive Ther Allied Technol. 2003;12:59–64. PMID.16754079.PubMed


41.

Nabavi A, Black PM, Gering DT, et al. Serial intraoperative magnetic resonance imaging of brain shift. Neurosurgery. 2001;48:787–97; discussion 97–8. PMID.11322439.PubMed


42.

Hata N, Nabavi A, Wells 3rd WM, et al. Three-dimensional optical flow method for measurement of volumetric brain deformation from intraoperative MR images. J Comput Assist Tomogr. 2000;24:531–8. PMID.10966182.PubMed


43.

Warfield SK, Haker SJ, Talos IF, et al. Capturing intraoperative deformations: research experience at Brigham and Women’s Hospital. Med Image Anal. 2005;9:145–62. PMID.15721230.PubMed


44.

Clatz O, Delingette H, Talos IF, et al. Robust nonrigid registration to capture brain shift from intraoperative MRI. IEEE Trans Med Imaging. 2005;24:1417–27. PMID.16279079.PubMedCentralPubMed


45.

Wittek A, Kikinis R, Warfield SK, Miller K. Brain shift computation using a fully nonlinear biomechanical model. Med Image Comput Comput Assist Interv. 2005;8:583–90. PMID.16686007.PubMed


46.

White PJ, Whalen S, Tang SC, Clement GT, Jolesz F, Golby AJ. An intraoperative brain shift monitor using shear mode transcranial ultrasound: preliminary results. J Ultrasound Med. 2009;28:191–203. PMID.19168769.PubMedCentralPubMed


47.

Dimaio SP, Archip N, Hata N, et al. Image-guided neurosurgery at Brigham and Women’s Hospital. IEEE Eng Med Biol Mag. 2006;25:67–73. PMID.17020201.PubMed


48.

Hata N, Jinzaki M, Kacher D, et al. MR imaging-guided prostate biopsy with surgical navigation software: device validation and feasibility. Radiology. 2001;220:263–8. PMID.11426008.PubMed


49.

Hirose M, Bharatha A, Hata N, et al. Quantitative MR imaging assessment of prostate gland deformation before and during MR imaging-guided brachytherapy. Acad Radiol. 2002;9:906–12. PMID.12186439.PubMed


50.

Mamata H, Mamata Y, Westin CF, et al. High-resolution line scan diffusion tensor MR imaging of white matter fiber tract anatomy. AJNR Am J Neuroradiol. 2002;23:67–75. PMID.11827877.PubMedCentralPubMed


51.

Golby AJ, Kindlmann G, Norton I, Yarmarkovich A, Pieper S, Kikinis R. Interactive diffusion tensor tractography visualization for neurosurgical planning. Neurosurgery. 2011;68:496–505. PMID.21135713.PubMedCentralPubMed


52.

Talos IF, Zou KH, Kikinis R, Jolesz FA. Volumetric assessment of tumor infiltration of adjacent white matter based on anatomic MRI and diffusion tensor tractography. Acad Radiol. 2007;14:431–6. PMID.17368212.PubMedCentralPubMed


53.

Maddah M, Zollei L, Grimson WE, Westin CF, Wells WM. A mathematical framework for incorporating anatomical knowledge in DT-MRI analysis. Proc IEEE Int Symp Biomed Imaging. 2008;4543943:105–8. PMID.19212449.PubMedCentralPubMed


54.

O’Donnell LJ, Westin CF, Golby AJ. Tract-based morphometry for white matter group analysis. Neuroimage. 2009;45:832–44. PMID.19154790.PubMedCentralPubMed


55.

Archip N, Clatz O, Whalen S, et al. Non-rigid alignment of pre-operative MRI, fMRI, and DT-MRI with intra-operative MRI for enhanced visualization and navigation in image-guided neurosurgery. Neuroimage. 2007;35:609–24. PMID.17289403.PubMedCentralPubMed


56.

O’Donnell LJ, Rigolo L, Norton I, Wells 3rd WM, Westin CF, Golby AJ. FMRI-DTI modeling via landmark distance atlases for prediction and detection of fiber tracts. Neuroimage. 2012;60:456–70. PMID.22155376.PubMedCentralPubMed


57.

Wu W, Rigolo L, O’Donnell LJ, Norton I, Shriver S, Golby AJ. Visual pathway study using in vivo diffusion tensor imaging tractography to complement classic anatomy. Neurosurgery. 2012;70:145–56; discussion 56. PMID.21808220.PubMed


58.

Elhawary H, Liu H, Patel P, et al. Intraoperative real-time querying of white matter tracts during frameless stereotactic neuronavigation. Neurosurgery. 2011;68:506–16; discussion 16. PMID.21135719.PubMedCentralPubMed


59.

Risholm P, Golby AJ, Wells 3rd W. Multimodal image registration for preoperative planning and image-guided neurosurgical procedures. Neurosurg Clin N Am. 2011;22:197–206, viii. PMID.21435571.PubMedCentralPubMed


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Propper RE, O’Donnell LJ, Whalen S, et al. A combined fMRI and DTI examination of functional language lateralization and arcuate fasciculus structure: effects of degree versus direction of hand preference. Brain Cogn. 2010;73:85–92. PMID.20378231.PubMedCentralPubMed


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Qazi AA, Radmanesh A, O’Donnell L, et al. Resolving crossings in the corticospinal tract by two-tensor streamline tractography: method and clinical assessment using fMRI. Neuroimage. 2009;47 Suppl 2:T98–106. PMID.18657622.PubMedCentralPubMed


62.

Yoo SS, Talos IF, Golby AJ, Black PM, Panych LP. Evaluating requirements for spatial resolution of fMRI for neurosurgical planning. Hum Brain Mapp. 2004;21:34–43. PMID.14689508.PubMed


63.

Tsai A, Wells W, Tempany C, Grimson E, Willsky A. Mutual information in coupled multi-shape model for medical image segmentation. Med Image Anal. 2004;8:429–45. PMID.15567707.PubMed


64.

Zou KH, Warfield SK, Bharatha A, et al. Statistical validation of image segmentation quality based on a spatial overlap index. Acad Radiol. 2004;11:178–89. PMID.14974593.PubMedCentralPubMed


65.

Kapur T, Pieper S, Whitaker R, et al. The National Alliance for Medical Image Computing, a roadmap initiative to build a free and open source software infrastructure for translational research in medical image analysis. J Am Med Inform Assoc. 2012;19:176–80. PMID.22081219.PubMedCentralPubMed


66.

Jolesz FA, Patz S. Clinical experience with rapid 2DFT SSFP imaging at low field strength. Magn Reson Imaging. 1988;6:397–403. PMID.3185133.PubMed


67.

Anzai Y, Lufkin RB, Saxton RE, et al. Nd: YAG interstitial laser phototherapy guided by magnetic resonance imaging in an ex vivo model: dosimetry of laser-MR-tissue interaction. Laryngoscope. 1991;101:755–60. PMID.2062157.PubMed


68.

Jolesz FA, Bleier AR, Lauter RS. Laser surgery benefits from guidance by MR. Diagn Imaging. 1990;12:103–8. PMID.10171140.


69.

Bleier AR, Jolesz FA, Cohen MS, et al. Real-time magnetic resonance imaging of laser heat deposition in tissue. Magn Reson Med. 1991;21:132–7. PMID.1943670.PubMed


70.

Jolesz FA, Moore GJ, Mulkern RV, et al. Response to and control of destructive energy by magnetic resonance. Invest Radiol. 1989;24:1024–7. PMID.2606631.PubMed


71.

Matsumoto R, Oshio K, Jolesz FA. Monitoring of laser and freezing-induced ablation in the liver with T1-weighted MR imaging. J Magn Reson Imaging. 1992;2:555–62. PMID.1392248.PubMed


72.

Panych LP, Hrovat MI, Bleier AR, Jolesz FA. Effects related to temperature changes during MR imaging. J Magn Reson Imaging. 1992;2:69–74. PMID.1623283.PubMed


73.

Matsumoto R, Selig AM, Colucci VM, Jolesz FA. Interstitial Nd:YAG laser ablation in normal rabbit liver: trial to maximize the size of laser-induced lesions. Lasers Surg Med. 1992;12:650–8. PMID.1453868.PubMed


74.

el-Ouahabi A, Guttmann CR, Hushek SG, et al. MRI guided interstitial laser therapy in a rat malignant glioma model. Lasers Surg Med. 1993;13:503–10. PMID.8264320.PubMed


75.

Kettenbach J, Silverman SG, Hata N, et al. Monitoring and visualization techniques for MR-guided laser ablations in an open MR system. J Magn Reson Imaging. 1998;8:933–43. PMID.9702896.PubMed


76.

Young GS, Silverman SG, Kettenbach J, et al. Three-dimensional computed tomography for planning urologic surgery. Urol Clin North Am. 1998;25:103–11. PMID.9529541.PubMed


77.

Matsumoto R, Selig AM, Colucci VM, Jolesz FA. MR monitoring during cryotherapy in the liver: predictability of histologic outcome. J Magn Reson Imaging. 1993;3:770–6. PMID.8400564.PubMed


78.

Silverman SG, Tuncali K, Adams DF, et al. MR imaging-guided percutaneous cryotherapy of liver tumors: initial experience. Radiology. 2000;217:657–64. PMID.11110925.PubMed


79.

Ascher PW, Justich E, Schrottner O. Interstitial thermotherapy of central brain tumors with the Nd:YAG laser under real-time monitoring by MRI. J Clin Laser Med Surg. 1991;9:79–83. PMID.10150912.PubMed


80.

Kahn T, Bettag M, Ulrich F, et al. MRI-guided laser-induced interstitial thermotherapy of cerebral neoplasms. J Comput Assist Tomogr. 1994;18:519–32. PMID.8040431.PubMed


81.

Tuncali K, Morrison PR, Winalski CS, et al. MRI-guided percutaneous cryotherapy for soft-tissue and bone metastases: initial experience. AJR Am J Roentgenol. 2007;189:232–9. PMID.17579176.PubMed


82.

Tuncali K, Morrison PR, Tatli S, Silverman SG. MRI-guided percutaneous cryoablation of renal tumors: use of external manual displacement of adjacent bowel loops. Eur J Radiol. 2006;59:198–202. PMID.16716551.PubMed


83.

Silverman SG, Tuncali K, van Sonnenberg E, et al. Renal tumors: MR imaging-guided percutaneous cryotherapy – initial experience in 23 patients. Radiology. 2005;236:716–24. PMID.16040927.PubMed


84.

Silverman SG, Sun MR, Tuncali K, et al. Three-dimensional assessment of MRI-guided percutaneous cryotherapy of liver metastases. AJR Am J Roentgenol. 2004;183:707–12. PMID.15333359.PubMed


85.

Zou KH, Tuncali K, Warfield SK, et al. Three-dimensional assessment of MR imaging-guided percutaneous cryotherapy using multi-performer repeated segmentations: the value of supervised learning. Acad Radiol. 2005;12:444–50. PMID.15831417.PubMed


86.

Oguro S, Tuncali K, Elhawary H, Morrison PR, Hata N, Silverman SG. Image registration of pre-procedural MRI and intra-procedural CT images to aid CT-guided percutaneous cryoablation of renal tumors. Int J Comput Assist Radiol Surg. 2011;6:111–7. PMID.20499194.PubMedCentralPubMed


87.

Sainani NI, Shyn PB, Tatli S, Morrison PR, Tuncali K, Silverman SG. PET/CT-guided radiofrequency and cryoablation: is tumor fluorine-18 fluorodeoxyglucose activity dissipated by thermal ablation? J Vasc Interv Radiol. 2011;22:354–60. PMID.21353987.PubMed


88.

Jolesz FA, Blumenfeld SM. Interventional use of magnetic resonance imaging. Magn Reson Q. 1994;10:85–96. PMID.7986703.PubMed


89.

Schenck JF, Jolesz FA, Roemer PB, et al. Superconducting open-configuration MR imaging system for image-guided therapy. Radiology. 1995;195:805–14. PMID.7754014.PubMed


90.

Jolesz FA, Shtern F. The operating room of the future. Report of the national cancer institute workshop, “imaging-guided stereotactic tumor diagnosis and treatment”. Invest Radiol. 1992;27:326–8. PMID.1601626.PubMed


91.

Jolesz FA. Interventional magnetic resonance imaging, computed tomography, and ultrasound. Acad Radiol. 1995;2 Suppl 2:S124–5. PMID.9419721.PubMed


92.

Jolesz FA. 1996 RSNA Eugene P. Pendergrass New Horizons Lecture. Image-guided procedures and the operating room of the future. Radiology. 1997;204:601–12. PMID.9280232.PubMed


93.

Black PM, Moriarty T, Alexander 3rd E, et al. Development and implementation of intraoperative magnetic resonance imaging and its neurosurgical applications. Neurosurgery. 1997;41:831–42; discussion 42–5. PMID.9316044.PubMed


94.

Schwartz RB, Hsu L, Wong TZ, et al. Intraoperative MR imaging guidance for intracranial neurosurgery: experience with the first 200 cases. Radiology. 1999;211:477–88. PMID.10228532.PubMed


95.

Black PM, Alexander 3rd E, Martin C, et al. Craniotomy for tumor treatment in an intraoperative magnetic resonance imaging unit. Neurosurgery. 1999;45:423–31; discussion 31–3. PMID.10493363.PubMed


96.

Pergolizzi Jr RS, Nabavi A, Schwartz RB, et al. Intra-operative MR guidance during trans-sphenoidal pituitary resection: preliminary results. J Magn Reson Imaging. 2001;13:136–41. PMID.11169816.PubMed


97.

Woodard EJ, Leon SP, Moriarty TM, Quinones A, Zamani AA, Jolesz FA. Initial experience with intraoperative magnetic resonance imaging in spine surgery. Spine. 2001;26:410–7. PMID.11224889.PubMed


98.

Fried MP, Jolesz FA. Image-guided intervention for diagnosis and treatment of disorders of the head and neck. Laryngoscope. 1993;103:924–7. PMID.8361296.PubMed


99.

Fried MP, Hsu L, Jolesz FA. Interactive magnetic resonance imaging-guided biopsy in the head and neck: initial patient experience. Laryngoscope. 1998;108:488–93. PMID.9546257.PubMed


100.

Hsu L, Fried MP, Jolesz FA. MR-guided endoscopic sinus surgery. AJNR Am J Neuroradiol. 1998;19:1235–40. PMID.9726461.PubMed


101.

Fried MP, Topulos G, Hsu L, et al. Endoscopic sinus surgery with magnetic resonance imaging guidance: initial patient experience. Otolaryngol Head Neck Surg. 1998;119:374–80. MID.9781994.PubMed


102.

D’Amico AV, Cormack R, Tempany CM, et al. Real-time magnetic resonance image-guided interstitial brachytherapy in the treatment of select patients with clinically localized prostate cancer. Int J Radiat Oncol Biol Phys. 1998;42:507–15. PMID.9806508.PubMed


103.

Cormack RA, Kooy H, Tempany CM, D’Amico AV. A clinical method for real-time dosimetric guidance of transperineal 125I prostate implants using interventional magnetic resonance imaging. Int J Radiat Oncol Biol Phys. 2000;46:207–14. PMID.10656394.PubMed

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Aug 21, 2016 | Posted by in GENERAL RADIOLOGY | Comments Off on History of Image-Guided Therapy at Brigham and Women’s Hospital

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