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Preface; CLABIO 2015 Committees; CLABIO 2015 CONFERENCE TOPICS; Speakers; Sponsors; Table of Contents; High Precision System for Bioimpedance Measurement; I. INTRODUCTION; II. HARDWARE; III. FAST ALGORITHM FOR BIO-IMPEDANCE MEASUREMENT; IV. EXPERIMENT RESULTS; V. CONCLUSION; Effects of Head Model Inaccuracies on Regional Scalp and Skull ConductivityEstimation Using Real EIT Measurements; I. INTRODUCTION; II. METHODS; III. RESULTS; IV. DISCUSSION; V. CONCLUSIONS; Electrolytic Extracellular Phantom to Study the Low-Frequency Conductivityof Cervical Neoplasia; I. INTRODUCTION
II. MATERIALS AND METHODSIII. RESULTS AND DISCUSSION; IV. CONCLUSIONS; Bone Electrical Impedance and Tomographic Reconstructionof Fracture Detection: A Review; I. INTRODUCTION; II. LONG BONE FRACTURE; III. THE ABERBEEN IMPEDANCE IMAGING SYSTEM; IV. REVIEW OF EIT APPLIED TO BONE; V. ANALYSIS OF THE RESULTS 2 DECADES LATER; VI. POSSIBLE APPLICATION AND IMPROVEMENTS; VII. DISCUSSION AND CONCLUSIONS; Audio Codec and Digital Signal Processor for an ElectricalImpedance Tomography System; I. INTRODUCTION; II. SYSTEM DESCRIPTION; III. RESULTS; IV. CONCLUSION
Segmental Electrical Bioimpedance Measurementswith a Single Lead (Electrode) DisplacementI. INTRODUCTION; II. MATERIALS AND METHODS; III. RESULTS; IV. DICUSSION; V. CONCLUSION; An Alternative Electrical Impedance Myography Technique for Assessmentof Local Muscular Fatigue; I. INTRODUCTION; II. METHODS; III. RESULTS; IV. DISCUSSION; V. CONCLUSION; In Vitro Luminal Measurements of Colon Electrical Impedance in Rabbits; I. INTRODUCTION; II
MATERIAL AND METHODS; III
RESULTS; IV. DISCUSSION; V
CONCLUSIONS; Assessment of Systolic Heart Function byWavelet Analysisof the Impedance Cardiogram
I. INTRODUCTIONII. MEASUREMENTS AND ITS PROCESSINGALGORITHM; III. RESULTS; IV. CONCLUSIONS; Impedance-Based Monitoring for Tissue Engineering Applications; I. INTRODUCTION; II. MONITORING TISSUE ENGINEERING PROCESSES; III. CONCLUSIONS; Total Body Water (TBW) for Body Composition Assessmentin Young Adult Females from Colombia; I. INTRODUCTION; II. MATERIALS AND METHODS; III. RESULTS; IV. DISCUSSION; V. CONCLUSIONS; Electrical Properties of Normal Cervical Human Cells in Suspension:The Relation between Normal Tissue and Electrical Impedance Spectrum; I. INTRODUCTION; II. MATERIALS AND METHODS
III. RESULTS AND DISCUSSIONIV. CONCLUSIONS; Analog Front-End for the Integrated Circuit AD5933Used in Electrical Bioimpedance Measurements; I. INTRODUCTION; II. METHODOLOGY; III. RESULTS; IV. DISCUSSIONS; Impedance Analysis for Medical and Electrochemical ApplicationsUsing a Low Cost Instrumentation; I. INTRODUCTION; II. MODELLING; III. INSTRUMENTATION STRUCTURE; IV. EXPERIMENTAL RESULTS; Low-Cost Body Impedance Analyzer for Healthcare Applications; I. INTRODUCTION; II. METHODOLOGY; III. RESULTS; IV. DISCUSSIONS; V. CONCLUSION
II. MATERIALS AND METHODSIII. RESULTS AND DISCUSSION; IV. CONCLUSIONS; Bone Electrical Impedance and Tomographic Reconstructionof Fracture Detection: A Review; I. INTRODUCTION; II. LONG BONE FRACTURE; III. THE ABERBEEN IMPEDANCE IMAGING SYSTEM; IV. REVIEW OF EIT APPLIED TO BONE; V. ANALYSIS OF THE RESULTS 2 DECADES LATER; VI. POSSIBLE APPLICATION AND IMPROVEMENTS; VII. DISCUSSION AND CONCLUSIONS; Audio Codec and Digital Signal Processor for an ElectricalImpedance Tomography System; I. INTRODUCTION; II. SYSTEM DESCRIPTION; III. RESULTS; IV. CONCLUSION
Segmental Electrical Bioimpedance Measurementswith a Single Lead (Electrode) DisplacementI. INTRODUCTION; II. MATERIALS AND METHODS; III. RESULTS; IV. DICUSSION; V. CONCLUSION; An Alternative Electrical Impedance Myography Technique for Assessmentof Local Muscular Fatigue; I. INTRODUCTION; II. METHODS; III. RESULTS; IV. DISCUSSION; V. CONCLUSION; In Vitro Luminal Measurements of Colon Electrical Impedance in Rabbits; I. INTRODUCTION; II
MATERIAL AND METHODS; III
RESULTS; IV. DISCUSSION; V
CONCLUSIONS; Assessment of Systolic Heart Function byWavelet Analysisof the Impedance Cardiogram
I. INTRODUCTIONII. MEASUREMENTS AND ITS PROCESSINGALGORITHM; III. RESULTS; IV. CONCLUSIONS; Impedance-Based Monitoring for Tissue Engineering Applications; I. INTRODUCTION; II. MONITORING TISSUE ENGINEERING PROCESSES; III. CONCLUSIONS; Total Body Water (TBW) for Body Composition Assessmentin Young Adult Females from Colombia; I. INTRODUCTION; II. MATERIALS AND METHODS; III. RESULTS; IV. DISCUSSION; V. CONCLUSIONS; Electrical Properties of Normal Cervical Human Cells in Suspension:The Relation between Normal Tissue and Electrical Impedance Spectrum; I. INTRODUCTION; II. MATERIALS AND METHODS
III. RESULTS AND DISCUSSIONIV. CONCLUSIONS; Analog Front-End for the Integrated Circuit AD5933Used in Electrical Bioimpedance Measurements; I. INTRODUCTION; II. METHODOLOGY; III. RESULTS; IV. DISCUSSIONS; Impedance Analysis for Medical and Electrochemical ApplicationsUsing a Low Cost Instrumentation; I. INTRODUCTION; II. MODELLING; III. INSTRUMENTATION STRUCTURE; IV. EXPERIMENTAL RESULTS; Low-Cost Body Impedance Analyzer for Healthcare Applications; I. INTRODUCTION; II. METHODOLOGY; III. RESULTS; IV. DISCUSSIONS; V. CONCLUSION