1 water in the clinical laboratory mikael cleverstam ww clinical business manager role of water in...
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Water in the Clinical Laboratory
Mikael Cleverstam
WW Clinical Business Manager
Role of water in Clinical Diagnostic Purification technologies basics Delivering water to the clinical analyzer
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Putting it all together
Patient Patient ResultsResults
Water Water QualityQuality
Diagnostic Diagnostic InstrumentsInstruments
Medical Medical TechnologistTechnologist
Quality ControlQuality Control
Diagnostic instruments
Assay developmentPatient results
Troubleshooting Your analyzer
Water quality as part of the quality process
CLSI New standards
Water purification
Quality system
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Normal seen Problems
Frequent Calibrations High CV% Fluctuation in quality results over the day/week/month Interfered assays
Calcium Interfered by rocks, leaves, geology ALP Interfered by biofilm, detergent, rocks CK Interfered by water treatment Amylase Interfered by citrus fruit, detergents, leaves LD Interfered by effluent, leaves, H2O2 Phosphorus Interfered by citrus fruit, leaves Iron Interfered by rocks, leaves, detergents Magnesium Interfered by citrus fruit Triglycerides Interfered by plastics, chemicals Urea Interfered by citrus fruit, water treatment Troponin I Interfered by biofilm
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Water for Clinical Analysers
Cuvette washing Tubing and probe rinsing Reagent and buffer reconstitution Dilution Water Baths
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Clinical Analyzers
Features and benefits of automation Precision optical systems for accuracy in testing Automatic sampling and dilutions modes Real time alerts to patient and QC failures Improved software alerts end user to mechanical failures
Cost benefits Workflow efficiency and high speed through put Instrumentation targeted to reduce operating cost with more
efficient technology Reduced operator interface
Diagnostic Diagnostic InstrumentsInstruments
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Assay Development
Measuring chemical changes in the body for diagnosis, therapy and
prognosis has resulted in new assay development
Multiple method testing on a single analyzer
Current research methodologies for infectious disease and tumor
marker’s are moving from research labs in universities to the clinical
laboratory
Complex methodologies are being fully automated for more routine use
Diagnostic Diagnostic InstrumentsInstruments
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Unique Challenges for Medical Technologist
Verification of final clinical results to be accurate and precise are
determined by Medical Technologist
Clinical decisions are not solely made on the test result, but in
conjunction with the patient’s history and symptoms
Software alerts, QC reviews, calibration must all be within stated limits
before results are released
Troubleshooting instrument problems result in production delays, are
costly and non-productive activities that must be performed and
documented
➙ Try to avoid diagnostic instrument service because it is expensive
Medical Medical TechnologistTechnologist
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Reviewing Patient Results
All analytical and pre-analytical factors must be reviewed and
documented
Medical Technologist must review all test results
If results are flagged, troubleshooting the cause is necessary
Medical Medical TechnologistTechnologist
Patient Patient ResultsResults
Quality ControlQuality ControlDiagnostic Diagnostic
InstrumentsInstruments
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Troubleshooting procedures
Sample handling procedures confirmed Quality control must be reviewed
Shifts and trends Peer group Previous data
Assay Reagent issue Calibrator stability
Mechanical Instrument malfunction Error codes
If above solutions do not correct the erroneous result, further troubleshooting must identify cause before results can be released to physicians
➙ Delayed patient treatment.
Medical Medical TechnologistTechnologist
Patient Patient ResultsResults
Quality ControlQuality ControlDiagnostic Diagnostic
InstrumentsInstruments
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Next Steps
YES
YES
YES
NO
NO
Assay
Mechanical
Decontamination
Problem solved
Problem
WHY ??
Outside Source
Water Quality
Medical Medical TechnologistTechnologist
Diagnostic Diagnostic InstrumentsInstruments
Water Water QualityQuality
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Water Quality
Quality results are dependent upon reliable instrumentation and
known water quality
Analytical factors need to be controlled and optimized to reduce the
number of test failures, failed calibrations, and high blanks that can
contribute to erroneous patient results
Maintenance of high purity water system is essential to reliable results
Water Water QualityQuality
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Understanding Water Quality and Methodology
Water should be considered a bulk reagent on any analyzer The high purity water system is a separate unit, not monitored by
diagnostic software on the clinical analyzer The unique properties of water if not processed and monitored can
produce subtle changes in assay methods These changes in water quality can lead to erratic and inconsistent
results
The quality of water required or its impact on the testing method is often not considered until the purchase is complete
Water Water QualityQuality
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Diagnostic Dilemma
Smaller sample size and reaction vessel are subjected
to harsher environment Inevitable build-up of biofilm in instruments, manifolds and tubing
require more frequent decontaminations
but
Less and less time available for maintenance of the instruments Some sensitive assays can become contaminated with bacteria and
ions Bacteria release enzymes and ions whose behavior is similar to the
enzymes targeted in the assay method
➙ Increased need to monitor water quality as closely as any other instrument malfunction
Diagnostic Diagnostic InstrumentsInstruments
Water Water QualityQuality
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Biofilm Formation
Time
Surface
Particles
Organic
Bacteria
Biofilm may shed bacteria, pyrogens etc
Diagnostic Diagnostic InstrumentsInstruments
Water Water QualityQuality
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Demonstration of ALP release from bacteria
Correlation between bacteria concentrations and levels of ALP in water
Bacteria Strain(identification by 16S rDNA sequencing)
Bacteria level
(x 106 cfu/mL)
ALP concentration (Unit/L)
Sphingomonas paucimobilis
Caulobacter crescentus
Ralstonia pickettii
29.2
9.7
29.5
6.22
9.95
8.29
Diagnostic Diagnostic InstrumentsInstruments
Water Water QualityQuality
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Detection methods
ALP
+
Substrate-Phosphate
Pi
UV-Visible pNPP
Fluorescence Attophos Starbright MUP ELF
Chemiluminescence CDP-Star (dioxetane) CSPD (dioxetane) Lumigen PPD AMPPD
Diagnostic Diagnostic InstrumentsInstruments
Water Water QualityQuality
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CLSI Water Quality Standards
New Standards released July 2006 (C3-A4 Vol. 26 No. 22) Nomenclature Type I,II,III has been replaced with purity types that
provide more meaningful parameters CLRW (Clinical Laboratory reagent Water) replaces Type I,II for most applications IFW (Instrument Feed Water) allows instrument manufacturers to clarify specifications
for their particular methods SRW ( Special Reagent Water) may be specified for specific applications when
additional parameter are needed to insure water quality Autoclave and wash water will meet the requirements of previously classified Type III
Complete review of the document should be done when considering new applications to insure the contaminants found in the source water do not become an issue
Water Water QualityQuality
Quality ControlQuality Control
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Water Contaminants
Water: H2O …. and some other things
Purification technologies
H
H
H
H
Presence of contaminants
Particles
Gases
Microorganisms
Ions
Organics
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Protecting the Water Purification Unit: Pretreatment cartridge
Due to the difference in water quality around the world, additional pretreatment cartridges are required.
The cartridges provide protection and insure good performance of the reverse osmosis membrane
The pretreatment packs include 0. 5 micron filter (1) to remove particles and activated carbon (2) to remove chlorine
The activated carbon is impregnated with a small level of silver to prevent bacterial growth.
Example of a pretreatment cartridge
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What is reverse osmosis ?
P P
Feed Water
PermeateReject
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Technology Insight: Electro-Deionization
Resistivity: > 10 M.cmTOC: < 30 ppbNo need for regeneration
A - Anionic MembraneC - Cationic Membrane
A C A C
CathodeCathode
Na+
Na+
H+
H+
OH-
Cl- Na+
ProductProduct
+ Cl-
Cl-
Cl-
Cl-
Reverse Osmosis WaterReverse Osmosis Water10 - 20 10 - 20 S/cmS/cm
Na+
-AnodeAnode
RejectReject
Na+
OH-
EDI module- Ion selective membranes- Ion exchange resins- Continuous current
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Filters – Bacteria Removal
Screen 0.2 µm filters Designed for the removal of particles and microorganisms from
liquids and gases. Use of PVDF membranes, provide high flow rates and
throughputs, low extractables, broad chemical compatibility and the lowest protein binding of any membrane available.
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Ultrafiltration
Cut-off: 5 KDa to 20 KDa Removes bacterial by-products such as most proteins and
macromolecules (e.g. endotoxins) Utilized for immunochemistry assays
Immunoenzyme assays based on reporter enzymes (alkaline phosphatase, ALP) are sensitive to ALP released by bacteria
Also filters bacteria
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Storage
CLRW water with a resistivity >10 megohm-cm cannot be stored because ionic and organic contamination will leach from the atmosphere and container materials in which it is stored.
CLRW water should be used as it is produced Stored water is never as pure as when it is made Storage of water enhances bacterial contamination Containers need to be cleaned thoroughly between refilling. Carboys, tanks, bottles
Notorious source of contamination since we often refill them without thoroughly cleaning them when they are emptied
Some plastic materials out-gas polymers and plasticizers, and these end up in the water
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Water Purification Unit
Feed water
To analyzer
Pretreatment cartridge
Pump
Reverse Osmosis cartridge
Electrodeionization module
Drain
UV Germicidal
Ion exchange resins
Tank
Simplified flow schematic combining purification technologies
The electrodeionization module is not present in some purification units
Resistivity cell
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Connecting the Water Purification Unit to the Clinical Analyzer
Water is delivered in its purified state to a harsh environment within the chemistry analyzer bottle Water bottles inside analyzer are not frequently decontaminated Electronics, mechanical hardware, pumps all create heat within the
analyzer cabinet, thus raising the interior temperature of the water bottle.
Increased temperatures enhance the growth of bacteria and biofilm within the instruments manifolds and tubings.
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Conclusions
Water is a reagent. The quality of water has an impact on the testing method.