Evaluation of specific absorption rate as a dosimeter of MRI-related implant heating.
Kenneth B. Baker,Jean A. Tkach,John A. Nyenhuis,Michael Phillips,Frank G. Shellock,Jorge Gonzalez-Martinez,Ali R. Rezai +6 more
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TLDR
To compare the magnetic resonance imaging (MRI)‐related heating per unit of whole body averaged specific absorption rate (SAR) of a conductive implant exposed to two different 1.5‐Tesla/64 MHz MR systems, two different MR systems were used.Abstract:
Purpose
To compare the magnetic resonance imaging (MRI)-related heating per unit of whole body averaged specific absorption rate (SAR) of a conductive implant exposed to two different 1.5-Tesla/64 MHz MR systems.
Materials and Methods
Temperature changes at the electrode contacts of a deep brain stimulation lead were measured using fluoroptic thermometry. The leads were placed in a typical surgical implant configuration within a gel-filled phantom of the human head and torso. MRI was performed using two different transmit/receive body coils on two different generation 1.5-Tesla MR systems from the same manufacturer. Temperature changes were normalized to whole body averaged SAR values and compared between the two scanners.
Results
Depending on the landmark location, the normalized temperature change for the implant was significantly higher on one MR system compared to the other (P < 0.001).
Conclusion
The findings revealed marked differences across two MR systems in the level of radiofrequency (RF)-induced temperature changes per unit of whole body SAR for a conductive implant. Thus, these data suggest that using SAR to guide MR safety recommendations for neurostimulation systems or other similar implants across different MR systems is unreliable and, therefore, potentially dangerous. Better, more universal, measures are required in order to ensure patient safety. J. Magn. Reson. Imaging 2004;20:315–320. © 2004 Wiley-Liss, Inc.read more
Citations
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Journal ArticleDOI
Patient-specific analysis of the volume of tissue activated during deep brain stimulation
TL;DR: Synergistic integration of clinical analysis, neuroimaging, neuroanatomy, and neurostimulation modeling provides an opportunity to address wide ranging questions on the factors linked with the therapeutic benefits and side effects of DBS.
Patent
Lead electrode for use in an mri-safe implantable medical device
TL;DR: In this article, an implantable stimulation system comprises a stimulator (138) for generating electrical stimulation and a conductive stimulation lead (134) having a proximal end electrically coupled to the stimulator.
Journal ArticleDOI
Clinical Utility and Safety of a Protocol for Noncardiac and Cardiac Magnetic Resonance Imaging of Patients With Permanent Pacemakers and Implantable-Cardioverter Defibrillators at 1.5 Tesla
Saman Nazarian,Ariel Roguin,Menekhem M. Zviman,Albert C. Lardo,Timm L. Dickfeld,Hugh Calkins,Robert G. Weiss,Ronald D. Berger,David A. Bluemke,Henry R. Halperin +9 more
TL;DR: Noncardiac and cardiac MRI can potentially be safely performed in patients with selected implantable pacemaker and defibrillator systems using a protocol that incorporates device selection and programming and limits the estimated specific absorption rate of MRI sequences.
Journal ArticleDOI
Deep brain stimulation for Parkinson's disease: surgical technique and perioperative management.
Andre G. Machado,Ali R. Rezai,Brian H. Kopell,Robert E. Gross,Ashwini Sharan,Alim-Louis Benabid +5 more
TL;DR: Deep brain stimulation (DBS) is a widely accepted therapy for medically refractory Parkinson's disease (PD) and both globus pallidus internus and subthalamic nucleus stimulation are safe and effective in improving the symptoms of PD and reducing dyskinesias.
References
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Journal ArticleDOI
Radiofrequency energy-induced heating during MR procedures: a review.
TL;DR: The characteristics of RF energy‐induced heating associated with MR procedures, with an emphasis on thermal and other physiologic responses observed in human subjects, are discussed.
Journal ArticleDOI
Neurostimulation systems for deep brain stimulation: in vitro evaluation of magnetic resonance imaging-related heating at 1.5 tesla.
Ali R. Rezai,Daniel A. Finelli,John A. Nyenhuis,Greg Hrdlicka,Jean A. Tkach,Ashwini Sharan,Paul Rugieri,Paul H. Stypulkowski,Frank G. Shellock +8 more
TL;DR: To assess magnetic resonance imaging (MRI)‐related heating for a neurostimulation system (Activa® Tremor Control System, Medtronic, Minneapolis, MN) used for chronic deep brain stimulation (DBS).
Journal ArticleDOI
Effects of magnetic resonance imaging on cardiac pacemakers and electrodes.
Stephan Achenbach,Werner Moshage,Björn Diem,Tobias Bieberlea,Volker Schibgilla,Kurt Bachmann +5 more
TL;DR: Although no pacemaker malfunctions were observed in asynchronous pacing mode (VOO/DOO), inhibition and rapid pacing were observed during spin-echo imaging if the pacemakers were set to VVI or DDD mode and pacemaker function was not impaired during scanning with gradient-echo sequences.
Journal Article
MR imaging-related heating of deep brain stimulation electrodes: in vitro study.
Daniel A. Finelli,Ali R. Rezai,Paul Ruggieri,Jean A. Tkach,John A. Nyenhuis,Greg Hrdlicka,Ashwini Sharan,Jorge Gonzalez-Martinez,Paul H. Stypulkowski,Frank G. Shellock +9 more
TL;DR: A potential exists for excessive MR imaging-related heating in patients with deep brain stimulation electrodes; however, the temperature increases are linearly related to SAR values.