RFID in Healthcare 2006-2016 : Market Research Report

RFID in Healthcare 2006-2016

Published by: IDTechEx Ltd

Published: May. 1, 2006 - 282 Pages

1. INTRODUCTION: 1.1. Relevant challenges in healthcare; 1.2. Radio Frequency Identification; 1.3. Real Time Locating Systems; 1.4. Trend of frequencies; 1.5. Privacy issues; 1.6. Statement of independence
2. LOCATION AND STATUS OF STAFF, VISITORS, PATIENTS AND FIXED ASSETS: 2.1. Challenges; 2.2. Primary benefits of RTLS; 2.3. Detailed needs, concerns, impediments for RTLS in healthcare; 2.4. RTLS technology; 2.5. Choice of technologies; 2.6. Suppliers; 2.7. RTLS Case studies: Indoor Positioning Systems for people; 2.8. RTLS case studies - assets and supplies
3. PHARMACEUTICAL ANTICOUNTERFEITING, THEFT CONTROL AND TRACKING: 3.1. Challenges; 3.2. Attitude of legislators and the industry; 3.3. Technology; 3.4. Case studies; 3.5. Suppliers capabilities
4. ERROR REDUCTION, RECORDING PROCEDURES, PATIENT COMPLIANCE: 4.1. Error reduction and recording procedures; 4.2. Patient compliance; 4.3. Case studies
5. MANAGEMENT OF BLOOD, SUPPLIES, EQUIPMENT: 5.1. Blood testing, transport and transfusion; 5.2. Smart cabinets; 5.3. Laundry - rented textiles; 5.4. Document management; 5.5. Hearing aids; 5.6. Case studies; 5.7. Supplier capability
6. OTHER USES FOR RFID IN HEALTHCARE: 6.1. Secure access; 6.2. Recording and alerting to incidents; 6.3. Case studies
7. MARKET FORECASTS: 7.1. Total RFID market 2006-2016; 7.2. Healthcare RFID market 2006-2016; 7.3. RTLS market 2006-2016
APPENDIX 1: IDTECHEX PUBLICATIONS
APPENDIX 2: CONTACT DETAILS
APPENDIX 3: INTRODUCTION TO RFID
APPENDIX 4: RTLS SUPPLIER CAPABILITIES
TABLES: 1.1. Some of the relevant challenges in healthcare and how RFID can help; 1.2. Some tasks performed by RFID; 1.3. The commonly used licence free frequencies for active RFID; 2.1. Examples of needs and concerns about RTLS in healthcare; 2.2. Wherify view of RTLS options; 2.3. Comparison of today’s favourite RTLS systems in healthcare; 2.4. Examples of companies with RTLS systems or appropriate parts and services; 2.5. Examples of suppliers and developers of RTLS systems; 2.6. Required characteristics of an indoor positioning solution.; 2.7. Equipment Rental Costs: Financial Results; 2.8. Associate Satisfaction: Nursing Satisfaction Scores; 3.1. Short and Long Term Anticounterfeiting Strategies; 3.2. Some of the leading suppliers and aspiring suppliers of RFID labels for pharmaceuticals.; 4.1. Telemetry technologies available and their drawbacks for patient monitoring; 6.1. Comparison of the two types of RFID smart card; 6.2. Comparison of RFID shoes, wristbands and implants for secure access; 7.1. Assumptions for forecasts of healthcare RFID market 2006-2016; 7.2. Passive tags number million sold globally for healthcare 2006-2016; 7.3. Passive tags for healthcare unit price cents 2006-2016; 7.4. Passive tags for healthcare value dollar millions 2006-2016; 7.5. Active tags for healthcare number million 2006-2016; 7.6. Active tags for healthcare unit price cents 2006-2016; 7.7. Active tags for healthcare value dollars 2006-2016; 7.8. Total tags, passive and active for healthcare number million 2006-2016; 7.9. Total tags for healthcare passive and active unit price cents 2006-2016; 7.10. Total RFID tags for healthcare passive and active value dollars 2006-2016; 7.11. RFID systems excluding tags for healthcare passive and active value dollars 2006-2016; 7.12. RFID Systems for healthcare, including tags, 2006-2016; 7.13. Addressable market as a function of tag price; 7.14. Forecast of global RTLS market by value in millions of dollars 2006-2016
FIGURES: 1.1. License free frequencies across the world at UHF; 1.2. Technical performance for active RFID in crowded environments as a function of frequency in the view of Savi Technology; 1.3. UWB frequency spread compared with some alternative active RFID bands in the microwave region; 2.1. The demographic timebomb.; 2.2. Radianse view of the relative merits of some RTLS technologies; 2.3. Example of Zonal RTLS; 2.4. Ekahau WiFi tag; 2.5. monitoring system for personnel tags; 2.6. Zonal personnel tracking system; 2.7. Using RFID to guide people; 2.8. Miyake white navigation system; 2.9. Verichip Hugs and Kisses tags for mother baby matching; 2.10. Hospital contact history and monitoring system; 2.11. Overall strategic design; 2.12. Patient track & alarm; 2.13. Information systems in Wirral Hospital; 2.14. Analysis - EDR/EIS; 2.15. Radianse RTLS tags; 2.16. A selection of UWB RFID tags; 2.17. GSH equipment rental costs; 2.18. GSH equipment purchasing costs; 2.19. GSH associate satisfaction; 2.20. HealthCare pilot RTLS tags; 2.21. How The HealthCare Pilot system works; 3.1. The TAGSYS stamp sized HF RFID label fitted to all US shipments of Pfizer Viagra; 3.2. Avery Dennison UHF smart label for item level drugs; 3.3. 915 MHz EPC tag on item level drugs packages from Abbott Laboratories in the Accenture trials. The EPC code was only printed on the outside for the first phase (see bottom of label).; 4.1. Usage and background data is read from the device and logged; 4.2. Luer connectors in ‘wrong’ configuration; 4.3. Luer connectors in ‘correct’ configurations; 4.4. Traceability / medical devices in a manufacturer/distributor; 4.5. Traceability / medical devices within a hospital situation; 4.6. Level of non-compliance for different medical treatments; 4.7. Figure Patient compliance blisterpack from Information Mediary Canada; 4.8. Precision Dynamics RFID wristband; 4.9. What is Smart Band?; 4.10. Hospital architecture model; 4.11. Patient information data pipeline; 4.12. Smart Band solutions at work through the complete patient care process; 4.13. On-the-fly calibration - just show the bottom of the container to the glucometer; 4.14. Glucometer application in detail - the MLX90109 reader; 4.15. Glucometer application in detail - the MLX90127 sticky label transponder; 4.16. Diprivan TCI tag construction; 4.17. Tagged syringe and Diprifusor™; 4.18. Pill bottle with smart label (printed prescription label not shown); 4.19. ScripTalk speaker; 4.20. Mediplus tagged catheter; 4.21. Mediplus Pressflow overview; 5.1. Uchida Yoko’s ‘Pick up by light’ system; 5.2. Tag with LED - File by Light system. The LED is in the top left corner; 5.3. Applying Coil-on-Chip to hearing aids; 5.4. Square CoC tag chip enclosed in protective plastic coating; 5.5. How the intelliaid™ system works; 5.6. Intelliaid™ scanners; 5.7. Paling Risk Scale for major transfusion hazards; 5.8. SHOT project: cumulative data 1996 to 2001; 5.9. Increasing errors within hospitals; 5.10. Safe transfusion: Processes not just product; 5.11. Automated warning generated when a possible mis-match of blood and patient occurs; 5.12. RFID on blood container, next to interrogator; 5.13. Blood labelled with RFID chip; 5.14. The process - blood sampling; 5.15. The process - pathology laboratory; 5.16. The benefits - supporting change; 5.17. Identifying patients and their blood; 5.18. Hitachi CoC blood donor card; 5.19. The card is flexible; 5.20. CoC tags as cards or tokens shown in interrogators; 5.21. Hitachi tagged test tube; 5.22. Hitachi multihead antenna array, a form of ‘smart shelf’; 5.23. TAGSYS item level HF label; 5.24. DHL in the healthcare supply chain; 5.25. DHL RFID Pilot Experience & Development Areas; 6.1. Principle of Miyake foot key system for secure access by staff; 6.2. Principle of Miyake foot key system for control of disoriented elderly; 6.3. Hospital staff with the Connexion2 alarm/ record device; 6.4. The reverse of the Connexion2 device showing the button that activates remote recording; 6.5. HF tags from TAGSYS; 6.6. Alarm button on the active RFID pendant; 7.1. The total market projections of RFID 2006-2016, tags vs other by value.; 7.2. Market for healthcare RFID systems plus tags as part of the overall RFID market in $ billions 2006-2016 - NEED CHART DATA; 7.3. Number of tags by location 2006-2016; 7.4. Value of tags by location 2006-2016; 7.5. Percentage of RFID tags that will be printed; 7.6. Forecast of global RTLS market by value in millions of dollars 2006-2016; 7.7. RTLS as a percentage of the active RFID market in 2010 by value; 7.8. RTLS as a percentage of the active RFID market in 2016 by value

Abstract

The RFID business is growing so fast that few applicational sectors can beat that scorching rate of growth. Healthcare is one of them thanks to the new tagging of drugs, real time location of staff and patients and other developments including automated error prevention. This unique report gives a full technical and market analysis illustrated by 70 case studies. It is a vital resource for the healthcare profession and all who wish to support it.

Rapid increase in adoption

The market for RFID tags and systems in healthcare will rise rapidly from $90 million in 2006 to $2.1 billion in 2016. Primarily, this will be because of item level tagging of drugs and Real Time Locating Systems (RTLS) for staff, patients and assets to improve efficiency, safety and availability and to reduce losses.

This report analyses 10 year forecasts of RFID in the healthcare sector.

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RFID in Healthcare 2006-2016

Table of Contents

Abstract