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Radio Frequency Identificationin blood transfusion management
Alexander Beisser, MSc Health InformaticsCity University London,
Centre for Health Informatics
25th October 2007
Project Briefing
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The project briefing
About this study
About Barcodes
About RFID
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About this study
Alexander Beisser Works for ICT Shared Services at Newham University
Hospital Trust Dissertation for Master of Science in Health
Informatics City University London Course accredited by NHS Connecting for Health
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About this study The main question
Can the emerging Radio Frequency Identification
technology help to make blood transfusion safer,
more reliable and allow better tracking of (used)
blood products within a secondary care setting like
Newham University Hospital Trust in accordance
with the requirements of the National Patient Safety
Agency and SHOT1 initiatives?
1Serious Hazards of Transfusion, Manchester, UK
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About this study The aim of project
Audit and analysis of technology available to enhance safety in the transfusion process in a secondary care setting.
Barcode versus Radio Frequency technology
Investigation into the possibility to use RFID technology to improve safety in transfusion medicine in accordance to NPSA Right patient – right blood initiative.
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About this studyMotivation for study
Safety of blood transfusions : 609 cases reported to SHOT1 in 2005 (out of more than
3.6 million transfusions) 37% of transfusion related errors occur in hospital
transfusion laboratory environment Most common error is IBCT (485 cases = 79%) 1358 near miss incidences SHOT recommendations
Right patient – right blood initiative of NPSA And others
1Serious Hazards of Transfusion, Manchester, UK
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About this study
Audit to be performed to see if: Can RFID technology be added to barcode system? Can semi-active / active be used to automatically
interrogate and audits blood products for blood products condition
Has RFID technology the potential to reduce IBCT error rate?
How can RFID improve safety by automatic authentication of Patient Clinician / nurse Blood product
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About this study The focus points in project
In blood banks Monitoring of blood products condition
At patient bedside Correct blood for correct patient Patient identification Patient condition monitoring
(temperature, etc.) Audit of blood products used in
transfusion
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About Barcode Technology
Machine readable representation of information Use of dark ink on light background to create high / low reflectance to
represent converted 1s and 0s Information is read by optical barcode readers (barcode scanner) using
a laser beam Developed in 1948, first commercial use in 1966, success in 1980’s Barcodes are nowadays commonly used to capture ID Data to identify
products, goods or other items Examples: Supermarket checkouts, sample identification in pathology (or
other healthcare) environment
Typical Linear Barcodeas it can be found
on everyday products
2 dimensional barcodeas it can be found
i.e. in a pathology setting
Barcode reader(cordless version)
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About Barcode TechnologyAdvantages of Barcodes
Virtually free (≈ £0.003 per code for linear barcodes)
Widely used within retail and supply chain industry Used within healthcare settings Easy implementation Well-formed and established international and
European standards Users are well aware of technology Easy to use and therefore lower training costs Can be used across industry and country borders
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About Barcode TechnologyDisadvantages of Barcodes (I)
Line of sight required to read barcode Only one barcode can be read at a time Reading speed lower than RFID Reading of label can be difficult when label is
curved or crumbling Dust and dirt influence readability of code
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About Barcode TechnologyDisadvantages of Barcodes (II)
Label can crumble when exposed to water (i.e. when patient is taking a shower)
Limited amount of data can be stored on label No additional data can be written or stored on
label except a unique number New label is required when data format / structure
changes or multiple barcodes are needed A connection to a database is required
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About RFID Technology
Automatic identification method First used in 1939 by Royal Air Force to distinguish between
enemy and allied aircrafts Storage of information on electronic tags Data is retrieved by RFID readers (interrogators) from a distance
that can be greater then with barcodes Widely used in retail and supply chain sectors Healthcare industry shows more interest in emerging RFID
solutions for healthcare settings Technology consist of
Antenna incorporatedinto RFID tag
Electronic RFID tag RFID reader(here attached to a PDA)
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About RFID TechnologyDifferent types of tags
3 different types of RFID tags availablePassiveSemi-activeActive
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About RFID Technology The advantages of RFID
Contact-free authentication Out of sight authentication Read and write to tags Store data on tags Immunity to dust and dirt on patient
wristband Data processing done by reader Tag can monitor conditions and Alert when use by date or other conditions are reached No permanent database connection required (dependent
on the data stored on wristband) Integration into other business processes
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About RFID Technology The challenges for using RFID
Costs of tags Cost of infrastructure Interference with other medical equipment Standardisation still in progress Data privacy Acceptability by patients and staff Not yet widely used within the NHS Process re-engineering could be required No out-of-box solution available
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About RFID Technology RFID technology in healthcare (I)
RFID projects and systems within healthcare environments: America:
Massachusetts General Hospital: Blood product tagging Jacoby Medical Center NY: Blood product tagging Shelby County Regional MC: Patient tracking in surgery
European Union: Saarbruecken Clinic: Patient identification and blood product
tagging United Kingdom:
Portsmouth NHS Trust: Blood sample & testing monitoring Birmingham Heartlands Hospital: Patient and equipment
tracking in surgery Wirral Hospital NHS Trust: Patient tracking
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About RFID Technology RFID technology in healthcare (II)
Birmingham Heartlands Hospital: Patient & equipment tracking in surgery
South Tyneside NHS Trusts: Mother baby matching / monitor
Mayday Hospital Croydon NHS Trust: Blood tracking
Mersey General Hospital: Staff location tracking for panic alert system
Portsmouth NHS Trust: Tracking of blood tests
Wirral Hospital NHS Trust: Patient tracking in A&E Department
Dudley Hospital: Baby tracking in delivery suite
Brighton & Hove University Hospital: Equipment library
Mid Yorkshire Hospitals NHS Trust: Patient notes tracking
Human Fertilisation & Embryology Authority: IVF egg tracking
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The questionnaire
A short note about the questionnaire: Anonymous questionnaire Contains open answer and rating questions To answer rating questions
circle the scale at the appropriate point.
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Thank you
Thank you very much for your attention. Please feel free to contact me if you have
any further questions.
Alex Beisser MSc, BSc, CISA, ITIL
[email protected]/alex428uk
uk.linkedin.com/in/beissera/
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