Claudia Martin scite author profile

Intraoperative MRI allows lesions to be precisely localized and targeted, and the progress of a procedure can be immediately evaluated. The constantly updated images help to eliminate errors that can arise during frame-based and frameless stereotactic surgery when anatomic structures alter their position because of shifting or displacement of brain parenchyma but are correlated with images obtained preoperatively. Intraoperative MRI is particularly helpful in determining tumor margins, optimizing surgical approaches, achieving complete resection of intracerebral lesions, and monitoring potential intraoperative complications.

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Meniscal tears: pathologic correlation with MR imaging.

Stoller¹,

Martin²,

Crues³

et al. 1987

Radiology

402

178

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Menisci from 12 autopsies and above-knee amputations were imaged with magnetic resonance (MR) at 1.5 T and then sectioned for gross and histologic examination. A histologic staging system was developed and showed a one-to-one correlation with corresponding grades of MR signal intensities. Histologic stages 1 and 2 represented a continuum of degeneration culminating in stage 3 fibrocartilaginous tears, seen most frequently in posterior-horn segments of the medial meniscus. Correlation of histologic stages with MR signal intensity allows for an improved diagnostic reading of MR images.

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Craniotomy for Tumor Treatment in an Intraoperative Magnetic Resonance Imaging Unit

Black¹,

Alexander²,

Martin³

et al. 1999

281

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Intraoperative MRI is a revolutionary tool for the surgical treatment of brain tumors, providing observation of the procedure as it is being performed. With intraoperative MRI, tumor resection is safer, the extent of resection can be directly evaluated, and intraoperative complications can be noted if they occur. Outcomes after resection depend on minimizing injury to normal brain tissue and achieving maximal tumor resection. The use of intraoperative MRI directly affects these factors.

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Intraoperative MR Imaging Guidance for Intracranial Neurosurgery: Experience with the First 200 Cases

Schwartz¹,

Hsu

Wong³

et al. 1999

Radiology

161

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Intraoperative MR imaging was successfully implemented for a variety of intracranial procedures and provided continuous visual feedback, which can be helpful in all stages of neurosurgical intervention without affecting the duration of the procedure or the incidence of complications. This system has potential advantages over conventional frame-based and frameless stereotactic procedures with respect to the safety and effectiveness of neurosurgical interventions.

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Intra-operative MR guidance during trans-sphenoidal pituitary resection: Preliminary results

Pergolizzi

Nabavi

Schwartz

et al. 2001

J. Magn. Reson. Imaging

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The use of intra‐operative MR image guidance has the potential to improve the precision, extent, and safety of trans‐sphenoidal pituitary resections. The trans‐sphenoidal approach to pituitary surgery has been performed for some time (1–3). Until now these surgeries have relied on direct visualization without the aid of image guidance. An open‐bore configuration 0.5T SIGNA SP MR system (GE Medical Systems, Milwaukee, Wisconsin) has been used to provide image guidance for seventeen trans‐sphenoidal pituitary adenoma resections (4). The intra‐operative MRI system allowed the radiologist to successfully direct the surgeon toward the sella turcica while avoiding the cavernous sinus, optic chiasm and other critical structures. Imaging performed during the surgery monitored the extent of resection and allowed for removal of tumor beyond the surgeon's view in seven cases. Dynamic MR imaging was used to distinguish residual tumor from normal gland and postoperative changes, permitting more precise tumor localization. A heme‐sensitive long TE gradient echo sequence was used to find the presence of hemorrhagic debris. All patients tolerated the procedure well without significant complications. J. Magn. Reson. Imaging 2001;13:136–141. © 2001 Wiley‐Liss, Inc.

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Claudia Martin

Development and Implementation of Intraoperative Magnetic Resonance Imaging and Its Neurosurgical Applications

Meniscal tears: pathologic correlation with MR imaging.

Craniotomy for Tumor Treatment in an Intraoperative Magnetic Resonance Imaging Unit

Intraoperative MR Imaging Guidance for Intracranial Neurosurgery: Experience with the First 200 Cases

Intra-operative MR guidance during trans-sphenoidal pituitary resection: Preliminary results

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