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05663aam a2200445 i 4500 001 BFDB6AB20C2C11EAA2E5F95597128E48 003 SILO 005 20191121010049 008 181217s2019 nyua b 001 0 eng 010 $a 2018059149 020 $a 1621823024 020 $a 9781621823025 035 $a (OCoLC)1076549718 040 $a DNLM/DLC $b eng $e rda $c DLC $d OCLCO $d YDX $d OCLCQ $d UtOrBLW $d SILO 042 $a pcc 050 04 $a R857.B54 $b B56 2019 060 10 $a QT 36.4 082 00 $a 610.28/4 $2 23 130 0 $a Bioelectronic medicine (Pavlov) 245 10 $a Bioelectronic medicine / $c edited by Valentin A. Pavlov, Kevin J. Tracey. 264 1 $a Cold Spring Harbor, New York : $b Cold Spring Harbor Laboratory Press, $c [2019] 300 $a vii, 348 pages ; $c 27 cm. 490 1 $a Cold Spring Harbor perspectives in medicine 504 $a Includes bibliographical references and index. 505 8 $a Machine generated contents note: -- (Preliminary)PrefaceBioelectronic Medicine: Principles and Mechanisms Kevin J. TraceyRestoring Movement in Paralyzed Limbs: Future Directions and Challenges Chad E. BoutonRecording and Decoding of Peripheral Neural Signals Related to Changes in Physiological Parameters and Biomarkers of Disease Theodoros P. ZanosClosed-Loop Neuromodulation in Physiological and Translational Research Stavros ZanosThe Use of Bioelectronics in the Gastrointestinal Tract Larry Miller, Aydin Farajidavar, and Anil VegesnaOpportunities for Bioelectronics Medicine in the Setting of Acute Life-Threatening Deterioration and Emergencies Lance BeckerElectromagnetic Regulation of Cell Activity Sarah A. Stanley and Jeffrey M. FriedmanEmpirically Based Guidelines for Selecting Vagus Nerve Stimulation Parameters in Epilepsy and Heart Failure Eric D. Musselman, Nicole A. Pelot, and Warren M. GrillHarnessing the Cholinergic Inflammatory Reflex with Neurostimulation Mike Faltys and Yaakov LevineThe Vagus Nerve as a Sensor-Actuator Network: A Computer Science Perspective Christopher I. Connolly, Matthew Crossley, Patrick D. Lincoln, Carolyn Talcott, and Maneesh YadavVagus Nerve Stimulation at the Interface of Brain-Gut Interactions Bruno Bonaz, Val婉rie Sinniger, and Sonia PellissierTechnobiology's Enabler: The Magnetoelectric Nanoparticle Sakhrat KhizroevEnteric Neuromodulation for the Gut and Beyond Yogi A. Patel and Prankaj J. PasrichaAlternative Methods for Noninvasive Neuromodulation of the Peripheral Nervous System Using Ultrasound Christopher Puleo and Victoria CoteroBioelectronic Medicine -- Ethical Concerns Samuel Packer, Nicholas Mercado, and Anita HaridatSmall Heat Shock Proteins, Amyloid Fibrils, and Nicotine Stimulate a Common Immune Suppressive Pathway with Implications for Future Therapies Jonathan B. Rothbard, Michael P. Kurnellas, Shalina S. Ousman, Sara Brownell, Jesse J. Rothbard, and Lawrence SteinmanBioelectronic Approaches to Control Neuroimmune Interactions in Acute Kidney Injury Tsuyoshi Inoue, Shinji Tanaka, Diane L. Rosin, and Mark D. OkusaOptogenetic Medicine: Synthetic Therapeutic Solutions Precision-Guided by Light Haifeng Ye and Martin FusseneggerMicroscale and Nanoscale Electrophotonic Diagnostic Devices Kaiyu Fu, Wei Xu, Jenny Hu, Arielle Lopez, and Paul W. BohnDiabetes Technology: Monitoring, Analytics, and Optimal Control Boris KovatchevOptogenetic Control of the Peripheral Nervous System Rui B. ChangElectrical Impedance Methods in Neuromuscular Assessment: An Overview Seward Rutkove and Benjamin SanchezIndex. 520 $a "Electronic devices can now be used to analyse and modulate the electrical activity within the nervous system. This book explores how development of these devices is leading to new diagnostics and treatment options for patients. Topics covered in this essential volume include:- Restoring Movement in Paralyzed Limbs: Future Directions and Challenges- The Use of Bioelectronics in the Gastrointestinal Tract- Harnessing the Cholinergic Inflammatory Reflex with Neurostimulation- The Vagus Nerve as a Sensor-Actuator Network: A Computer Science Perspective- Alternative Methods for Noninvasive Neuromodulation of the Peripheral Nervous System Using Ultrasound- Diabetes Technology: Monitoring, Analytics, and Optimal Control"--Provided by publisher. 650 0 $a Biosensors. $0 http://id.loc.gov/authorities/subjects/sh85014260 650 12 $a Biosensing Techniques $x methods. $0 https://id.nlm.nih.gov/mesh/D015374Q000379 650 22 $a Neurotransmitter Agents. $0 https://id.nlm.nih.gov/mesh/D018377 650 22 $a Nervous System Physiological Phenomena. $0 https://id.nlm.nih.gov/mesh/D009424 650 22 $a Biotechnology $x methods. $0 https://id.nlm.nih.gov/mesh/D001709Q000379 650 22 $a Bioengineering $x methods. $0 https://id.nlm.nih.gov/mesh/D057005Q000379 700 1 $a Pavlov, Valentin A., $e editor. $0 http://id.loc.gov/authorities/names/n2018189914 700 1 $a Tracey, Kevin J., $e editor. $0 http://id.loc.gov/authorities/names/n2004018554 730 0 $a Cold Spring Harbor perspectives in medicine. $0 http://id.loc.gov/authorities/names/no2013131990 776 08 $i Online version: $d Cold Spring Harbor, New York : Cold Spring Harbor Laboratory Press, [2019] $z 9781621823032 $w (DLC) 2018061689 830 0 $a Cold Spring Harbor perspectives in medicine. $0 http://id.loc.gov/authorities/names/no2013131990 941 $a 1 952 $l OVUX522 $d 20191211025912.0 956 $a http://locator.silo.lib.ia.us/search.cgi?index_0=id&term_0=BFDB6AB20C2C11EAA2E5F95597128E48Initiate Another SILO Locator Search