Deep brain stimulation : techniques and practices [E-Book]
Publisher: New York : Thieme, [2019]Description: 1 online resource (xiv, 175 pages)Content type:- text
- computer
- online resource
- 1626237980
- 9781626237988
- Deep brain stimulation (Anderson)
- WL 368
Item type | Home library | Class number | URL | Status | Date due | Barcode | |
---|---|---|---|---|---|---|---|
Electronic book | Stenhouse Library | Link to resource | Available |
Description based on print version record
Includes bibliographical referneces and index
The one-stop resource on deep brain stimulation for functional neurosurgeons! Deep brain stimulation (DBS) is used to modulate dysfunctional circuits in the brain with stimulation pulses applied to specific target areas of the brain. Globally, DBS procedures have been most commonly performed for Parkinson's disease and essential tremor, but there are now new and growing research efforts studying DBS for psychiatric disorders and epilepsy. Deep Brain Stimulation: Techniques and Practices written by the Society for Innovative Neuroscience in Neurosurgery along with Dr. William S. Anderson and di
Deep Brain Stimulation: Techniques and Practices; Title Page; Copyright; Contents; Preface; Contributors; 1 Introduction to Deep Brain Stimulation: History, Techniques, and Ethical Considerations; 1.1 Introduction; 1.2 History of Deep Brain Stimulation; 1.3 Ablative Procedures; 1.4 Operative Techniques; 1.4.1 Frame-based versus Frameless Approaches; 1.4.2 Microelectrode Recording and Intraoperative Monitoring; 1.4.3 Description of Surgical Procedure; 1.5 Multidisciplinary Committees; 1.6 Ethics; 1.7 Conclusion; References
2 Customized Platform-Based Stereotactic DBS Lead Placement Technique (FHC STarFix, Medtronic Nexframe, and Robotic System Placement)2.1 Background; 2.2 Frame versus Imaging-based Coordinate Systems; 2.2.1 Surgical Targeting Fixture (STarFix) Platform; 2.2.2 Nexframe; 2.2.3 Robotic Assisted Placement; 2.3 System Comparison; References; 3 Microelectrode Recording Methods; 3.1 Introduction; 3.2 The Rationale for Mapping; 3.3 Microelectrode Technology and Technique; 3.3.1 Ventral Thalamus; 3.3.2 Globus Pallidus; 3.3.3 Subthalamic Nucleus; 3.4 Controversies and Complications; 3.5 Summary
5.6 Laser Interstitial Thermal Therapy with MR Thermography5.7 MR-guided Focused Ultrasound; 5.8 Conclusion; References; 6 Computational Modeling and Tractography for DBS Targeting; 6.1 Introduction; 6.2 Computational Modeling Techniques; 6.2.1 Volume of Tissue Activated; 6.2.2 Whole-Brain Network Models; 6.2.3 Beyond Conventional Stimulation; 6.3 Advanced Imaging Techniques; 6.3.1 Diffusion-Weighted Imaging and Tractography; 6.3.2 Advancements in Anatomic Imaging; 6.4 Future Applications of Computational Modeling and Advanced Imaging; References
7 Closed-Loop Stimulation Methods: Current Practice and Future Promise7.1 Introduction; 7.2 Approaches to Closed-Loop Neuromodulation; 7.2.1 Considerations for Designing an Optimal System; 7.2.2 Sources of Feedback Signals; 7.2.3 Control Systems and Stimulation Paradigms; 7.3 Existing Technology Platforms and Clinical Data; 7.3.1 Adaptive Deep Brain Stimulation; 7.3.2 Closed-Loop Stimulation for Epilepsy; 7.3.3 Closed-Loop Vagal Nerve Stimulation; 7.3.4 Closed-Loop Spinal Cord Stimulation; 7.4 Outstanding Questions and New Horizons
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