Verfügbarkeit: Disease surveillance

Disease surveillance: a public health informatics approach ; [epidemiology, analytics, information technology]

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Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, NJ Wiley 2007
Schlagworte:	Public health surveillance Medical informatics Population Surveillance > methods Public Health Informatics E-Health
Online-Zugang:	Contributor biographical information Publisher description Table of contents only Inhaltsverzeichnis
Beschreibung:	XXIII, 458 S. Ill., graph. Darst., Kt.
ISBN:	9780470068120 0470068124

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245	1	0	\|a Disease surveillance \|b a public health informatics approach ; [epidemiology, analytics, information technology] \|c ed. by Joseph S. Lombardo ...
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adam_text	Contents Contributors xvii Preface xix Acknowledgments xxiii 1 Disease Surveillance, a Public Health Priority 1 Joseph S. Lombardo, David Ross 1.1 Introduction 1 1.2 The Emerging Role oflnformatics in Public Health Practice 2 1.3 Harly Use of Technology for Public Health Practice 5 1.3.1 Harly Use of Analytics, Visualization, and Communications 5 1.3.2 Early Informatics Applications in Medicine & Public Health 6 1.3.3 Public Health Records Archiving 9 1.4 Guiding Principles for Development of Public Health Applications 10 1.5 Information Requirements for Automated Disease Surveillance 12 1.6 Historical Impact of Infectious Disease Outbreaks 14 1.6.1 Smallpox 14 1.6.2 Plague 15 1.6.3 Spanish Influenza, 1918 16 1.6.4 Influenza Pandemics after 1918 18 1.7 Disease as a Weapon 20 1.7.1 Bioterrorism 25 1.8 Modern Disease Surveillance Applications 26 1.8.1 Components of an Early Recognition Disease Surveillance System 26 1.8.2 Modern Surveillance Applications for Use by State and Local Health Departments 30 1.8.3 National Disease Surveillance Initiatives 32 1.9 Summary 35 References 35 Part I: System Design and Implementation 41 viii CONTENTS 2 Understanding the Data: Health Indicators in Disease Surveillance 43 Steven Babin, Steven Magruder. Shilpa Hakre. Jacqueline Coherly. Joseph S. Lombardo 2.1 Data Source Concepts 44 2.2 Data from Pharmacy Chains 49 2.3 Data from EMS and 911 58 2.4 Data from Telephone Triage Hotlines 60 2.5 Data from School Absenteeism and School Nurses 63 2.6 Data from Hospital Visits 65 2.7 Data from Physicians Office Visits 66 2.8 Laboratories Role in pre-diagnostic Surveillance 68 2.9 Other Health Indicator Data 70 2.9.1 Environmental Data 70 2.9.2 Animal Health Data 7.2 2.10 Data Source Evaluation 74 2.10.1 Approach and Methodology 75 2.10.2 Example: Wildfires (October 2003) 76 2.10.3 Example: Influenza Outbreak (December 2003) 79 2.10.4 Example: Gastrointestinal Illness (January-February 2004) 83 2.10.5 Conclusions 85 2.11 Study Questions 85 References 87 3 Obtaining the Data 91 Richard Wojcik, Logan Hauenstein, Carol Sniegoski, Rekha Holtry 3.1 Introduction to Data Collection and Archiving 91 3.1.1 The Internet: Universal Connectivity 92 3.1.2 Databases: Flexible Data Storage 95 3.1.3 Summary 97 3.2 Obtaining Access to Surveillance Data 98 3.2.1 Sharing Health Indicator Data 98 3.2.2 Data-Sharing Issues ]03 3.2.3 HIPAA and Disease Surveillance 104 3.2.4 Summary of Data Sharing 112 3.3 The Role of Standards in Data Exchange 1 1 3 3.3.1 Types of Standards 114 3.3.2 Standards Development 1)5 3.3.3 Standards for Health Indicator Data in Biosurveillence 117 3.4 CONTENTS IX 3.3.4 National Health Information Systems — Implementing Standards 119 Establishing the Data Feeds 119 3.4.1 Information Systems of the Data Provider or Source 120 3.4.2 Setting Up the Data Feed 121 3.4.3 Data Characteristics 123 3.4.4 Data Fields or Elements 125 3.4.5 Data Transfer Format 129 3.4.6 Data Transfer Protocol 132 3.4.7 Security Considerations 134 3.4.8 Data Import Methods 135 3.4.9 Data Cleaning 135 3.4.10 Data Quality 136 3.4.11 Summary 137 Study Questions 137 References 138 3.5 4 Alerting Algorithms for Biosurveillance 143 Howard Burkom 4.1 Statistical Alerting Algorithms 143 4.2 Features of Alerting Algorithms 147 4.2.1 Expected Data Behavior and the Denominator Problem 147 4.2.2 Recognizing the Unexpected 149 4.2.3 Use of Data Covariates 150 4.2.4 Components of an Alerting Algorithm 151 4.2.5 Steps in Algorithmic Processing 153 4.3 Outbreak Detection as a Signal-to-Noise Problem 154 4.3.1 Understanding the Noise Background 154 4.3.2 Characterizing the Outbreak Signal 155 4.3.3 Importance of Data Aggregation Decisions 158 4.4 Algorithms Based on Time-Series Data 158 4.4.1 Control Charts for Public Health Monitoring 158 4.4.2 Data Forecasting for Public Health Monitoring. 167 4.5 Spatiotemporal Alerting Methods 176 4.5.1 The Search for Hotspots and the Spatial Baseline 176 4.5.2 Spatial Scan Statistics and Enhancements 177 4.5.3 Global Clustering Methods and Adaptations 182 4.6 Methods Considering Multiple Data Sources 183 4.6.1 Decision Making with Multiple Data Sources 183 CONTENTS 4.7 Study Questions References ° Putting It Together: The Biosurveillance Information System 193 Logan Hauenstein, Richard Wojcik, Wayne Loschen, RajAshar, Carol Sniegoski, Nathaniel Tabernero 5.1 Introduction 93 5.2 System Architectures for Disease Surveillance 195 5.2.1 Stand-Alone System Application Design 195 5.2.2 Thick Client vs. Thin Client 196 5.2.3 Three-Tier and Multitier Architectures 197 5.3 Databases 199 5.3.1 Database Design 199 5.3.2 Database Server Software 200 5.3.3 Database Server Hardware 200 5.3.4 Database Server Costs 202 5.3.5 DBMS Vendor Overview 202 5.4 Web Applications 203 5.4.1 Web Servers 205 5.4.2 Web Applications and Browsers 206 5.4.3 Web Applications and Geographic Information Systems 208 5.4.4 Web-Based Application Integration and Automation 209 5.5 Implementing Syndromie Grouping 210 5.5.1 Fixed Vocabulary Data 210 5.5.2 Free-Text Data 212 5.6 Implementing Detectors 216 5.6.1 When Will Detectors Be Used? 216 5.6.2 Designing the Detector Interface 217 5.7 Visualization in a Disease Surveillance Application 218 5.7.1 Detection-Focused Visualizations 218 5.7.2 Information System Interfaces 226 5.7.3 Visualizing Data and Information 227 5.8 Communication Among Surveillance Users 240 5.8.1 User Comments 241 5.8.2 Embedding User Comments into System Components 241 5.9 Security 242 5.9.1 Design and Implementation of a Secure System 245 5.9.2 User Authentication 248 5.9.3 Access Privilege Management Overview 250 CONTENTS xi 5.9.4 User Responsibilities 251 5.10 System Administration 252 5.10.1 Physical Administration 253 5.10.2 Maintaining Software 254 5.10.3 User Management 254 5.11 Summary 255 5.12 Study Questions 255 References 256 Part II: Case Studies 263 6 Modern Disease Surveillance Systems in Public Health Practice 265 Sheri Happel Lewis, Kathy Hurt-Mullen, Colleen Martin, Haobo Ma, Jerome 1. Tokars, Joseph S. Lombardo, Steven Babin 6.1 Public Health Surveillance Requirements 265 6.1.1 Disease Reporting Requirements 266 6.1.2 Existing Automated Disease Surveillance Systems 269 6.2 Identification of Abnormal Health Conditions 273 6.2.1 Monitoring Surveillance System Outputs 273 6.2.2 Characterization of Anomalies 274 6.2.3 Case Studies 278 6.2.4 Summary of Anomaly Characterization 284 6.2.5 Assessing the Public Health Importance of Findings 285 6.3 Utility at the Local Level 285 6.3.1 Specific System Features and Utility to Public Health Officials 286 6.3.2 Local Perspective on Implementation 286 6.3.3 Regional Perspective 288 6.4 Electronic Biosurveillance at the National Level 291 6.4.1 В ioSense System Description 291 6.4.2 Monitoring of BioSense Application for National Surveillance 295 6.4.3 Movement Toward Surveillance System Standardization 297 6.5 Summary 298 6.6 Study Questions 298 References 299 7 Canadian Applications of Modera Surveillance Informatics 303 Jeff Aramini, Shamir Nizxir Mukhi 7.1 Introduction: Disease Surveillance in Canada 303 7.1.1 Understanding the True Public Health Needs 303 XU CONTENTS 7.1.2 Developing and Harnessing the Right Technology 304 7.2 Disease-Specific Surveillance Enabled Through Technology 307 7.2.1 Introduction 307 7.2.2 Working with Stakeholders to Improve Disease-Specific Surveillance Through the Implementation of Technology 307 7.2.3 Lessons Learned Through Disease-Specific Surveillance Application Development 314 7.3 Real-Time Syndromie Surveillance 315 7.3.1 Canadian Early Warning System 316 7.3.2 Unique Solution for a Unique Problem: FARMS 320 7.4 Conclusions: Public Health Surveillance 328 7.4.1 Importance of Communication and Collaboration 328 7.4.2 Integrating Surveillance into a Comprehensive Public Health Information Management Framework 329 7.4.3 Future Opportunities in Public Health Surveillance 330 7.5 Study Questions 331 References 333 8 Case Study: Use of Tele-health Data for Syndromie Surveillance in England and Wales 335 Duncan Cooper 8.1 Introduction 335 8.1.1 What Is Tele-health? 336 8.1.2 The UK Experience: NHS Direct 336 8.1.3 Using Telephone Triage Data for Syndromie Surveillance 338 8.2 System Design and Epidemiological Considerations 340 8.2.1 Data Availability 340 8.2.2 System Design 340 8.2.3 Investigating Exceedances 342 8.3 Results from the NHS Direct Syndromie Surveillance System 345 8.3.1 Stages 1 to 3 345 8.3.2 What Have the Data Detected? 346 8.3.3 Weekly Reporting 351 8.4 Adding Value to the Surveillance Data 352 8.4.1 Linking Syndromie Data with Traditional Laboratory Sources 352 8.4.2 A Statistical Model: Types of Infections That Cause People to Phone Telephone Triage Systems 354 8.5 Conclusions 356 8.5.1 Main Benefits of the System 356 CONTENTS ХІІІ 8.5.2 System Evaluation 358 8.5.3 Cautionary Note for Future Work 358 8.5.4 Integration with Other UK Primary Care Surveillance 359 8.5.5 Recommendations 359 8.5.6 Final Remarks 361 8.6 Study Questions 361 References 362 9 Surveillance for Emerging Infection Epidemics in Developing Countries: EWORS and Alerta DISAMAR 367 Jean-Paul Chretien, David Blazes, Cecilia Mundaca, Jonathan Glass. Sheri Happel Lewis. Joseph S. Lombardo, R. Loren Eriekson 9.1 Improving Surveillance in Resource-Poor Settings 368 9.2 U.S. Military Overseas Public Health Capacity Building 369 9.3 Case Study 1 : KWORS (Southeastern Asia and Peru) 371 9.3.1 System Development. Configuration, and Operation 371 9.3.2 Outbreak Detection and Response 373 9.3.3 System Flexibility 378 9.3.4 Summary 379 9.4 Case Study 2: Alerta DISAMAR (Peru) 380 9.4.1 System Development, Configuration, and Operation 380 9.4.2 Outbreak Detection and Response 384 9.4.3 System Flexibility 387 9.4.4 Summary 390 9.5 Conclusions 390 9.6 Study Questions 391 References 392 Part HI: Evaluation, Education, and the Future 397 10 Evaluating Automated Surveillance Systems 399 David L. Buckeridge, Michael V. Thompson, Steven Babin, Manin L. Sikes 10.1 The Context of Evaluation 399 10.1.1 Why?—The Need to Evaluate 399 10.1.2 What? — The Focus of Evaluation 400 10.1.3 How? — The Methods of Evaluation 401 10.2 Defining the Evaluation 401 10.2.1 Question and Scope 401 J 0.2.2 System Configuration 402 xiv CONTENTS 10.2.3 Outbreak Scenario 402 10.2.4 Evaluation Plan 402 10.3 Identifying or Creating Evaluation Data 403 10.3.1 Data for Evaluation 403 10.3.2 Authentic Outbreaks 405 10.3.3 Simulated Outbreaks 405 10.3.4 Simulated Background 409 10.4 Applying Detection Algorithms and Response Protocols 410 10.4.1 Combining Background and Outbreak Data 410 10.4.2 Applying Outbreak Detection Algorithms 410 10.4.3 Applying Response Protocols 410 10.5 Measuring Performance 411 10.5.1 Outbreak Detection 412 10.5.2 Response Protocols 420 10.6 Summary 420 10.7 Study Questions 421 References 421 11 Educating the Workforce: Public Health Informatics Training 425 Harold Lehmann 11.1 Competencies for Disease Surveillance 425 11.2 Professions of Disease Surveillance 432 11.3 Training Opportunities in Public Health Education 432 11.4 Informatics Training 433 11.4.1 Training Opportunities in Public Health Informatics 435 11.5 Conclusions 436 11.6 Study Questions 436 References 437 12 The Road Ahead: The Expanding Role of Informatics in Disease Surveillance 443 Joseph S. Lombardo 12.1 Introduction 443 12.2 Integration of Disease Surveillance Systems 444 12.2.1 Data Privacy and Public Health Networks 445 12.2.2 Standards for Information Sharing 446 12.2.3 Regional and National Networks 447 12.3 Surveillance System Enhancements 448 12.3.1 Better Health Indicators 448 CONTENTS XV 12.3.2 Biostatistics 450 12.3.3 Information Technology 451 12.3.4 Health Department Business Processes 452 12.4 Study Questions 452 References 453 Index 455
adam_txt	Contents Contributors xvii Preface xix Acknowledgments xxiii 1 Disease Surveillance, a Public Health Priority 1 Joseph S. Lombardo, David Ross 1.1 Introduction 1 1.2 The Emerging Role oflnformatics in Public Health Practice 2 1.3 Harly Use of Technology for Public Health Practice 5 1.3.1 Harly Use of Analytics, Visualization, and Communications 5 1.3.2 Early Informatics Applications in Medicine & Public Health 6 1.3.3 Public Health Records Archiving 9 1.4 Guiding Principles for Development of Public Health Applications 10 1.5 Information Requirements for Automated Disease Surveillance 12 1.6 Historical Impact of Infectious Disease Outbreaks 14 1.6.1 Smallpox 14 1.6.2 Plague 15 1.6.3 Spanish Influenza, 1918 16 1.6.4 Influenza Pandemics after 1918 18 1.7 Disease as a Weapon 20 1.7.1 Bioterrorism 25 1.8 Modern Disease Surveillance Applications 26 1.8.1 Components of an Early Recognition Disease Surveillance System 26 1.8.2 Modern Surveillance Applications for Use by State and Local Health Departments 30 1.8.3 National Disease Surveillance Initiatives 32 1.9 Summary' 35 References 35 Part I: System Design and Implementation 41 viii CONTENTS 2 Understanding the Data: Health Indicators in Disease Surveillance 43 Steven Babin, Steven Magruder. Shilpa Hakre. Jacqueline Coherly. Joseph S. Lombardo 2.1 Data Source Concepts 44 2.2 Data from Pharmacy Chains 49 2.3 Data from EMS and 911 58 2.4 Data from Telephone Triage Hotlines 60 2.5 Data from School Absenteeism and School Nurses 63 2.6 Data from Hospital Visits 65 2.7 Data from Physicians' Office Visits 66 2.8 Laboratories Role in pre-diagnostic Surveillance 68 2.9 Other Health Indicator Data 70 2.9.1 Environmental Data 70 2.9.2 Animal Health Data 7.2 2.10 Data Source Evaluation 74 2.10.1 Approach and Methodology 75 2.10.2 Example: Wildfires (October 2003) 76 2.10.3 Example: Influenza Outbreak (December 2003) 79 2.10.4 Example: Gastrointestinal Illness (January-February 2004) 83 2.10.5 Conclusions 85 2.11 Study Questions 85 References 87 3 Obtaining the Data 91 Richard Wojcik, Logan Hauenstein, Carol Sniegoski, Rekha Holtry 3.1 Introduction to Data Collection and Archiving 91 3.1.1 The Internet: Universal Connectivity 92 3.1.2 Databases: Flexible Data Storage 95 3.1.3 Summary 97 3.2 Obtaining Access to Surveillance Data 98 3.2.1 Sharing Health Indicator Data 98 3.2.2 Data-Sharing Issues ]03 3.2.3 HIPAA and Disease Surveillance 104 3.2.4 Summary of Data Sharing 112 3.3 The Role of' Standards in Data Exchange 1 1 3 3.3.1 Types of Standards 114 3.3.2 Standards Development 1)5 3.3.3 Standards for Health Indicator Data in Biosurveillence 117 3.4 CONTENTS IX 3.3.4 National Health Information Systems — Implementing Standards 119 Establishing the Data Feeds 119 3.4.1 Information Systems of the Data Provider or Source 120 3.4.2 Setting Up the Data Feed 121 3.4.3 Data Characteristics 123 3.4.4 Data Fields or Elements 125 3.4.5 Data Transfer Format 129 3.4.6 Data Transfer Protocol 132 3.4.7 Security Considerations 134 3.4.8 Data Import Methods 135 3.4.9 Data Cleaning 135 3.4.10 Data Quality 136 3.4.11 Summary 137 Study Questions 137 References 138 3.5 4 Alerting Algorithms for Biosurveillance 143 Howard Burkom 4.1 Statistical Alerting Algorithms 143 4.2 Features of Alerting Algorithms 147 4.2.1 Expected Data Behavior and the Denominator Problem 147 4.2.2 Recognizing the Unexpected 149 4.2.3 Use of Data Covariates 150 4.2.4 Components of an Alerting Algorithm 151 4.2.5 Steps in Algorithmic Processing 153 4.3 Outbreak Detection as a Signal-to-Noise Problem 154 4.3.1 Understanding the Noise Background 154 4.3.2 Characterizing the Outbreak Signal 155 4.3.3 Importance of Data Aggregation Decisions 158 4.4 Algorithms Based on Time-Series Data 158 4.4.1 Control Charts for Public Health Monitoring 158 4.4.2 Data Forecasting for Public Health Monitoring. 167 4.5 Spatiotemporal Alerting Methods 176 4.5.1 The Search for Hotspots and the Spatial Baseline 176 4.5.2 Spatial Scan Statistics and Enhancements 177 4.5.3 Global Clustering Methods and Adaptations 182 4.6 Methods Considering Multiple Data Sources 183 4.6.1 Decision Making with Multiple Data Sources 183 CONTENTS 4.7 Study Questions References ' °" Putting It Together: The Biosurveillance Information System 193 Logan Hauenstein, Richard Wojcik, Wayne Loschen, RajAshar, Carol Sniegoski, Nathaniel Tabernero 5.1 Introduction '93 5.2 System Architectures for Disease Surveillance 195 5.2.1 Stand-Alone System Application Design 195 5.2.2 Thick Client vs. Thin Client 196 5.2.3 Three-Tier and Multitier Architectures 197 5.3 Databases 199 5.3.1 Database Design 199 5.3.2 Database Server Software 200 5.3.3 Database Server Hardware 200 5.3.4 Database Server Costs 202 5.3.5 DBMS Vendor Overview 202 5.4 Web Applications 203 5.4.1 Web Servers 205 5.4.2 Web Applications and Browsers 206 5.4.3 Web Applications and Geographic Information Systems 208 5.4.4 Web-Based Application Integration and Automation 209 5.5 Implementing Syndromie Grouping 210 5.5.1 Fixed Vocabulary Data 210 5.5.2 Free-Text Data 212 5.6 Implementing Detectors 216 5.6.1 When Will Detectors Be Used? 216 5.6.2 Designing the Detector Interface 217 5.7 Visualization in a Disease Surveillance Application 218 5.7.1 Detection-Focused Visualizations 218 5.7.2 Information System Interfaces 226 5.7.3 Visualizing Data and Information 227 5.8 Communication Among Surveillance Users 240 5.8.1 User Comments 241 5.8.2 Embedding User Comments into System Components 241 5.9 Security 242 5.9.1 Design and Implementation of a Secure System 245 5.9.2 User Authentication 248 5.9.3 Access Privilege Management Overview 250 CONTENTS xi 5.9.4 User Responsibilities 251 5.10 System Administration 252 5.10.1 Physical Administration 253 5.10.2 Maintaining Software 254 5.10.3 User Management 254 5.11 Summary 255 5.12 Study Questions 255 References 256 Part II: Case Studies 263 6 Modern Disease Surveillance Systems in Public Health Practice 265 Sheri Happel Lewis, Kathy Hurt-Mullen, Colleen Martin, Haobo Ma, Jerome 1. Tokars, Joseph S. Lombardo, Steven Babin 6.1 Public Health Surveillance Requirements 265 6.1.1 Disease Reporting Requirements 266 6.1.2 Existing Automated Disease Surveillance Systems 269 6.2 Identification of Abnormal Health Conditions 273 6.2.1 Monitoring Surveillance System Outputs 273 6.2.2 Characterization of Anomalies 274 6.2.3 Case Studies 278 6.2.4 Summary of Anomaly Characterization 284 6.2.5 Assessing the Public Health Importance of Findings 285 6.3 Utility at the Local Level 285 6.3.1 Specific System Features and Utility to Public Health Officials 286 6.3.2 Local Perspective on Implementation 286 6.3.3 Regional Perspective 288 6.4 Electronic Biosurveillance at the National Level 291 6.4.1 В ioSense System Description 291 6.4.2 Monitoring of BioSense Application for National Surveillance 295 6.4.3 Movement Toward Surveillance System Standardization 297 6.5 Summary 298 6.6 Study Questions 298 References 299 7 Canadian Applications of Modera Surveillance Informatics 303 Jeff Aramini, Shamir Nizxir Mukhi 7.1 Introduction: Disease Surveillance in Canada 303 7.1.1 Understanding the True Public Health Needs 303 XU CONTENTS 7.1.2 Developing and Harnessing the Right Technology 304 7.2 Disease-Specific Surveillance Enabled Through Technology 307 7.2.1 Introduction 307 7.2.2 Working with Stakeholders to Improve Disease-Specific Surveillance Through the Implementation of Technology 307 7.2.3 Lessons Learned Through Disease-Specific Surveillance Application Development 314 7.3 Real-Time Syndromie Surveillance 315 7.3.1 Canadian Early Warning System 316 7.3.2 Unique Solution for a Unique Problem: FARMS 320 7.4 Conclusions: Public Health Surveillance 328 7.4.1 Importance of Communication and Collaboration 328 7.4.2 Integrating Surveillance into a Comprehensive Public Health Information Management Framework 329 7.4.3 Future Opportunities in Public Health Surveillance 330 7.5 Study Questions 331 References 333 8 Case Study: Use of Tele-health Data for Syndromie Surveillance in England and Wales 335 Duncan Cooper 8.1 Introduction 335 8.1.1 What Is Tele-health? 336 8.1.2 The UK Experience: NHS Direct 336 8.1.3 Using Telephone Triage Data for Syndromie Surveillance 338 8.2 System Design and Epidemiological Considerations 340 8.2.1 Data Availability 340 8.2.2 System Design 340 8.2.3 Investigating Exceedances 342 8.3 Results from the NHS Direct Syndromie Surveillance System 345 8.3.1 Stages 1 to 3 345 8.3.2 What Have the Data Detected? 346 8.3.3 Weekly Reporting 351 8.4 Adding Value to the Surveillance Data 352 8.4.1 Linking Syndromie Data with Traditional Laboratory Sources 352 8.4.2 A Statistical Model: Types of Infections That Cause People to Phone Telephone Triage Systems 354 8.5 Conclusions 356 8.5.1 Main Benefits of the System 356 CONTENTS ХІІІ 8.5.2 System Evaluation 358 8.5.3 Cautionary Note for Future Work 358 8.5.4 Integration with Other UK Primary Care Surveillance 359 8.5.5 Recommendations 359 8.5.6 Final Remarks 361 8.6 Study Questions 361 References 362 9 Surveillance for Emerging Infection Epidemics in Developing Countries: EWORS and Alerta DISAMAR 367 Jean-Paul Chretien, David Blazes, Cecilia Mundaca, Jonathan Glass. Sheri Happel Lewis. Joseph S. Lombardo, R. Loren Eriekson 9.1 Improving Surveillance in Resource-Poor Settings 368 9.2 U.S. Military Overseas Public Health Capacity Building 369 9.3 Case Study 1 : KWORS (Southeastern Asia and Peru) 371 9.3.1 System Development. Configuration, and Operation 371 9.3.2 Outbreak Detection and Response 373 9.3.3 System Flexibility 378 9.3.4 Summary 379 9.4 Case Study 2: Alerta DISAMAR (Peru) 380 9.4.1 System Development, Configuration, and Operation 380 9.4.2 Outbreak Detection and Response 384 9.4.3 System Flexibility 387 9.4.4 Summary 390 9.5 Conclusions 390 9.6 Study Questions 391 References 392 Part HI: Evaluation, Education, and the Future 397 10 Evaluating Automated Surveillance Systems 399 David L. Buckeridge, Michael \V. Thompson, Steven Babin, Manin L. Sikes 10.1 The Context of Evaluation 399 10.1.1 Why?—The Need to Evaluate 399 10.1.2 What? — The Focus of Evaluation 400 10.1.3 How? — The Methods of Evaluation 401 10.2 Defining the Evaluation 401 10.2.1 Question and Scope 401 J 0.2.2 System Configuration 402 xiv CONTENTS 10.2.3 Outbreak Scenario 402 10.2.4 Evaluation Plan 402 10.3 Identifying or Creating Evaluation Data 403 10.3.1 Data for Evaluation 403 10.3.2 Authentic Outbreaks 405 10.3.3 Simulated Outbreaks 405 10.3.4 Simulated Background 409 10.4 Applying Detection Algorithms and Response Protocols 410 10.4.1 Combining Background and Outbreak Data 410 10.4.2 Applying Outbreak Detection Algorithms 410 10.4.3 Applying Response Protocols 410 10.5 Measuring Performance 411 10.5.1 Outbreak Detection 412 10.5.2 Response Protocols 420 10.6 Summary 420 10.7 Study Questions 421 References 421 11 Educating the Workforce: Public Health Informatics Training 425 Harold Lehmann 11.1 Competencies for Disease Surveillance 425 11.2 Professions of Disease Surveillance 432 11.3 Training Opportunities in Public Health Education 432 11.4 Informatics Training 433 11.4.1 Training Opportunities in Public Health Informatics 435 11.5 Conclusions 436 11.6 Study Questions 436 References 437 12 The Road Ahead: The Expanding Role of Informatics in Disease Surveillance 443 Joseph S. Lombardo 12.1 Introduction 443 12.2 Integration of Disease Surveillance Systems 444 12.2.1 Data Privacy and Public Health Networks 445 12.2.2 Standards for Information Sharing 446 12.2.3 Regional and National Networks 447 12.3 Surveillance System Enhancements 448 12.3.1 Better Health Indicators 448 CONTENTS XV 12.3.2 Biostatistics 450 12.3.3 Information Technology 451 12.3.4 Health Department Business Processes 452 12.4 Study Questions 452 References 453 Index 455
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institution	BVB
isbn	9780470068120 0470068124
language	English
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spelling	Disease surveillance a public health informatics approach ; [epidemiology, analytics, information technology] ed. by Joseph S. Lombardo ... Hoboken, NJ Wiley 2007 XXIII, 458 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Public health surveillance Medical informatics Population Surveillance methods Public Health Informatics E-Health (DE-588)7542254-2 gnd rswk-swf E-Health (DE-588)7542254-2 s b DE-604 Lombardo, Joseph S. Sonstige oth http://www.loc.gov/catdir/enhancements/fy0741/2006053118-b.html Contributor biographical information http://www.loc.gov/catdir/enhancements/fy0741/2006053118-d.html Publisher description http://www.loc.gov/catdir/enhancements/fy0741/2006053118-t.html Table of contents only Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016586103&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Disease surveillance a public health informatics approach ; [epidemiology, analytics, information technology] Public health surveillance Medical informatics Population Surveillance methods Public Health Informatics E-Health (DE-588)7542254-2 gnd
subject_GND	(DE-588)7542254-2
title	Disease surveillance a public health informatics approach ; [epidemiology, analytics, information technology]
title_auth	Disease surveillance a public health informatics approach ; [epidemiology, analytics, information technology]
title_exact_search	Disease surveillance a public health informatics approach ; [epidemiology, analytics, information technology]
title_exact_search_txtP	Disease surveillance a public health informatics approach ; [epidemiology, analytics, information technology]
title_full	Disease surveillance a public health informatics approach ; [epidemiology, analytics, information technology] ed. by Joseph S. Lombardo ...
title_fullStr	Disease surveillance a public health informatics approach ; [epidemiology, analytics, information technology] ed. by Joseph S. Lombardo ...
title_full_unstemmed	Disease surveillance a public health informatics approach ; [epidemiology, analytics, information technology] ed. by Joseph S. Lombardo ...
title_short	Disease surveillance
title_sort	disease surveillance a public health informatics approach epidemiology analytics information technology
title_sub	a public health informatics approach ; [epidemiology, analytics, information technology]
topic	Public health surveillance Medical informatics Population Surveillance methods Public Health Informatics E-Health (DE-588)7542254-2 gnd
topic_facet	Public health surveillance Medical informatics Population Surveillance methods Public Health Informatics E-Health
url	http://www.loc.gov/catdir/enhancements/fy0741/2006053118-b.html http://www.loc.gov/catdir/enhancements/fy0741/2006053118-d.html http://www.loc.gov/catdir/enhancements/fy0741/2006053118-t.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016586103&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT lombardojosephs diseasesurveillanceapublichealthinformaticsapproachepidemiologyanalyticsinformationtechnology

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