06257nam 2200637 a 450 991077896170332120230802004342.01-280-57013-X97866135997351-61705-063-6(CKB)2550000000079027(EBL)831615(OCoLC)782877214(SSID)ssj0000622748(PQKBManifestationID)12225491(PQKBTitleCode)TC0000622748(PQKBWorkID)10642471(PQKB)10662181(MiAaPQ)EBC831615(Au-PeEL)EBL831615(CaPaEBR)ebr10546325(CaONFJC)MIL359973(EXLCZ)99255000000007902720111107d2012 uy 0engur|n|---|||||txtccrDeep brain stimulation[electronic resource] a new life for people with Parkinson's, dystonia and essential tremor /Kelvin L. Chou, Susan Grube, Parag G. PatilNew York Demos Healthc20121 online resource (160 p.)Includes index.1-936303-11-6 Front Cover; Copyright; Table of Contents; Foreword; ONE - A Little History on Deep Brain Stimulation; DEEP BRAIN STIMULATION THERAPY; UNDERSTANDING THE MOTOR SYSTEM OF THE BRAIN; HISTORICAL UNDERSTANDING OF THE DISEASES TREATED WITH DBS; EARLY BRAIN SURGERIES FOR MOVEMENT DISORDERS; ELECTRICAL THERAPIES IN THE BRAIN; DEEP BRAIN STIMULATION IN THE MODERN ERA; TWO - How Does DBS Work and What Can It Do for Me?; THE DBS SYSTEM; THE SKINNY ON HOW DBS WORKS AND WHAT IT CAN DO; THREE - Do I Qualify for Surgery?; ESSENTIAL TREMOR; DYSTONIA; THE DBS EVALUATION PROCESSFOUR - Choosing the Health Care Team that Is Right for YouTHE DBS TEAM: CONSIDERATIONS; MEMBERS OF THE DBS TEAM; TALKING TO OTHERS; FIVE - Your Social Support Network- Family and Friends; BEFORE SURGERY; DURING THE SURGERY; AFTER THE SURGERY; SIX - How to Prepare for the Big Day; PLANNING FOR THE BIG DAY; THE DAY BEFORE SURGERY; SEVEN - What Should I Expect during the Surgery?; STAGE I: IMPLANTATION OF DBS LEADS; STAGE II: PLACEMENT OF THE STIMULATOR; EIGHT - I Had the Surgery. Now What?; THE HONEYMOON PERIOD; WHEN IS THE STIMULATOR TURNED ON?; PREPARING FOR P-DAY (THE DAY OF PROGRAMMING)WHAT HAPPENS ON P-DAY?PROGRAMMING BASICS; FUTURE PROGRAMMING VISITS; ADJUSTMENT OF MEDICATIONS; NINE - Taking Care of Your DBS System and Other Precautions; WHAT IF I FALL OR GET INTO AN ACCIDENT?; WHAT ABOUT MAGNETS?; CAN I GET OTHER MEDICAL PROCEDURES DONE WITH THE DBS SYSTEM?; TEN - Stimulator Battery Maintenance and Checkups; WHAT HAPPENS AT A DBS CHECKUP?; HOW LONG DOES THE STIMULATOR BATTERY LAST?; DBS HANDHELD DEVICE; REPLACING THE STIMULATOR; ELEVEN - My Symptoms Are Not Under Control-Troubleshooting Your System; DBS NEVER HELPED SYMPTOMS IN THE FIRST PLACEDBS WORKED AND SUDDENLY STOPPED WORKINGDBS SLOWLY STOPPED WORKING OVER TIME; TWELVE - Health Risks and Possible Complications in Surgery; THINKING ABOUT THE RISKS OF SURGERY; RISKS OF DBS SURGERY AND WHAT IS DONE TO MINIMIZE THEM; BALANCING THE RISKS AND BENEFITS; THIRTEEN - Long-Term Clinical and Side Effects; LONG-TERM CLINICAL EFFECTS OF DBS; LONG-TERM SIDE EFFECTS OF DBS; FOURTEEN - Frequently Asked Questions; Does insurance cover the cost of the procedure?; Where would you put the DBS stimulator if I already have a pacemaker?; What if the stimulator battery runs out? What will happen?Will others be able to see my DBS stimulator?I live alone. Can I have DBS?; I need tremor control in both of my hands to p-erform my job. Can I have DBS for both hands?; How do I know when to use my DBS?; Can I do my own programming?; I have essential tremor that affects my voice. Will DBS help the tremor in my voice?; Appendix A - Glossary of Terms; Appendix B - Support Organizations; General Movement Disorders; For DEEP BRAIN STIMULATION; For essential tremor; For Dystonia; Appendix C - List of Commonly Prescribed Medications; ESSENTIAL TREMOR; DYSTONIA; Index"In the United States, an estimated 42 million people suffer from some form of movement disorder, including Parkinsons disease (PD), essential tremor (ET), and dystonia. Although medications may be helpful for these conditions, in many patients, symptoms cannot be controlled with medications alone. In such situations, their physicians may recommend a surgical procedure known as Deep Brain Stimulation (DBS). DBS is a revolutionary technology using an implanted device to deliver electrical stimulation to the brain to help symptoms, alleviate suffering, and improve quality of life. Deep brain stimulation has dramatically changed the lives of many patients with uncontrollable tremors. Patients often can resume normal activities, such as feeding and dressing themselves, and can have active and fulfilling lives. The need for anti-tremor medications is often reduced or eliminated. Though it's no longer considered experimental, DBS is, for now, still used as a second- or third-line treatment, reserved for patients with more advanced cases of the disease and those for whom medication alone is inadequate or can't be adjusted precisely enough to keep their tremors and writhing under control. The use of Deep Brain Stimulation continues to evolve and doctors are realizing that the earlier they perform the procedure the more they can improve the quality of life of their patients. Deep Brain Stimulation is the first book to be written by a team of experts that clearly explains the benefits, pros, and cons of this revolutionary new treatment"--Provided by publisher.Brain stimulationMovement disordersTreatmentBrain stimulation.Movement disordersTreatment.616.8HEA039110bisacshChou Kelvin L789780Grube Susan1489113Patil Parag G1489114MiAaPQMiAaPQMiAaPQBOOK9910778961703321Deep brain stimulation3709661UNINA06643nam 2200673 450 991083042630332120240219141822.01-282-27851-797866122785180-470-47381-90-470-47380-010.1002/9780470473818(CKB)1000000000789653(EBL)456100(SSID)ssj0000334349(PQKBManifestationID)11266807(PQKBTitleCode)TC0000334349(PQKBWorkID)10258888(PQKB)11660878(MiAaPQ)EBC456100(CaBNVSL)mat05361033(IDAMS)0b0000648117884d(IEEE)5361033(OCoLC)463436650(CaSebORM)9780471779711(PPN)255933274(EXLCZ)99100000000078965320090408h20152009 uy 0engur|n|---|||||txtccrAdvances in multiuser detection /edited by Michael L. Honig1st editionHoboken, New Jersey :Wiley,c2009.1 online resource (517 p.)Wiley series in telecommunications and signal processing ;99Description based upon print version of record.0-471-77971-7 Includes bibliographical references and index.Preface. -- Contributors. -- 1 Overview of Multiuser Detection (Michael L. Honig). -- 1.1 Introduction. -- 1.2 Matrix Channel Model. -- 1.3 Optimal Multiuser Detection. -- 1.4 Linear Detectors. -- 1.5 Reduced-Rank Estimation. -- 1.6 Decision-Feedback Detection. -- 1.7 Interference Mitigation at the Transmitter. -- 1.8 Overview of Remaining Chapters. -- References. -- 2 Iterative Techniques (Alex Grant and Lars K. Rasmussen). -- 2.1 Introduction. -- 2.2 Iterative Joint Detection for Uncoded Data. -- 2.3 Iterative Joint Decoding for Coded Data. -- 2.4 Concluding Remarks. -- References. -- 3 Blind Multiuser Detection in Fading Channels (Daryl Reynolds, H. Vincent Poor, and Xiaodong Wang). -- 3.1 Introduction. -- 3.2 Signal Models and Blind Multiuser Detectors for Fading Channels. -- 3.3 Performance of Blind Multiuser Detectors. -- 3.4 Bayesian Multiuser Detection for Long-Code CDMA. -- 3.5 Multiuser Detection for Long-Code CDMA in Fast-Fading Channels. -- 3.6 Transmitter-Based Multiuser Precoding for Fading Channels. -- 3.7 Conclusion. -- References. -- 4 Performance with Random Signatures (Matthew J. M. Peacock, Iain B. Collings, and Michael L. Honig). -- 4.1 Random Signatures and Large System Analysis. -- 4.2 System Models. -- 4.3 Large System Limit. -- 4.4 Random Matrix Terminology. -- 4.5 Incremental Matrix Expansion. -- 4.6 Analysis of Downlink Model. -- 4.7 Spectral Efficiency. -- 4.8 Adaptive Linear Receivers. -- 4.9 Other Models and Extensions. -- 4.10 Bibliographical Notes. -- References. -- 5 Generic Multiuser Detection and Statistical Physics <Dongning Guo and Toshiyuki Tanaka). -- 5.1 Introduction. -- 5.2 Generic Multiuser Detection. -- 5.3 Main Results: Single-User Characterization. -- 5.4 The Replica Analysis of Generic Multiuser Detection. -- 5.5 Further Discussion. -- 5.6 Statistical Physics and the Replica Method. -- 5.7 Interference Cancellation. -- 5.8 Concluding Remarks. -- 5.9 Acknowledgments. -- References. -- 6 Joint Detection for Multi-Antenna Channels (Antonia Tulino, Matthew R. McKay, Jeffrey G. Andrews,.Iain B. Collings, and Robert W. Heath, Jr.). -- 6.1 Introduction. -- 6.2 Wireless Channels: The Multi-Antenna Realm. -- 6.3 Definitions and Preliminaries. -- 6.4 Multi-Antenna Capacity: Ergodic Regime. -- 6.5 Multi-Antenna Capacity: Non-Ergodic Regime. -- 6.6 Receiver Architectures and Performance. -- 6.7 Multiuser Multi-Antenna Systems. -- 6.8 Diversity-Multiplexing Tradeoffs and Spatial Adaptation. -- 6.9 Conclusions. -- References. -- 7 Interference Avoidance for CDMA Systems (Dimitrie C. Popescu, Sennur Ulukus, Christopher Rose, and Roy Yates). -- 7.1 Introduction. -- 7.2 Interference Avoidance Basics. -- 7.3 Interference Avoidance over Time-Invariant Channels. -- 7.4 Interference Avoidance in Fading Channels. -- 7.5 Interference Avoidance in Asynchronous Systems. -- 7.6 Feedback Requirements for Interference Avoidance. -- 7.7 Recent Results on Interference Avoidance. -- 7.8 Summary and Conclusions. -- References. -- 8 Capacity-Approaching Multiuser Communications Over Multiple Input/Multiple Output Broadcast Channels (Uri Erez and Stephan ten Brink). -- 8.1 Introduction. -- 8.2 Many-to-One Multiple Access versus One-to-Many Scalar Broadcast Channels. -- 8.3 Alternative Approach: Dirty Paper Coding. -- 8.4 A Simple 2 x 2 Example. -- 8.5 General Gaussian MIMO Broadcast Channels. -- 8.6 Coding with Side Information at the Transmitter. -- 8.7 Summary. -- References. -- Index.A Timely Exploration of Multiuser Detection in Wireless Networks During the past decade, the design and development of current and emerging wireless systems have motivated many important advances in multiuser detection. This book fills an important need by providing a comprehensive overview of crucial recent developments that have occurred in this active research area. Each chapter is contributed by noted experts and is meant to serve as a self-contained treatment of the topic. Coverage includes: . Linear and decision feedback methods. Iterative multiuser detection and decoding. Multiuser detection in the presence of channel impairments. Performance analysis with random signatures and channels. Joint detection methods for MIMO channels. Interference avoidance methods at the transmitter. Transmitter precoding methods for the MIMO downlink This book is an ideal entry point for exploring ongoing research in multiuser detection and for learning about the field's existing unsolved problems and issues. It is a valuable resource for researchers, engineers, and graduate students who are involved in the area of digital communications.Wiley series in telecommunications and signal processing ;99Multiuser detection (Telecommunication)Signal theory (Telecommunication)Multiuser detection (Telecommunication)Signal theory (Telecommunication)621.39Honig Michael26363Honig Michael L26363CaBNVSLCaBNVSLCaBNVSLBOOK9910830426303321Advances in multiuser detection4013873UNINA