Transplant Associated Diseases | Qnostics Molecular Controls
Transplant Associated Diseases | Qnostics Molecular Controls
Transplant Associated Diseases | Qnostics Molecular Controls
Advances in transplant medicine have greatly improved the prospects of transplant recipients. However, pathogen infection and in particular, viral reactivation remain significant contributors to transplant patient morbidity and mortality.
Qnostics’ Q Control and Analytical Q Panel ranges cover a number of viruses and fungal pathogens of particular concern, including: HSV, CMV, EBV, ADV, JCV and BKV, with Molecular Q Panels covering HSV, HHV6, CMV, EBV, ADV, JCV and BKV.
Q Controls
Qnostics’ ‘Q’ Controls are positive run controls intended to help laboratories monitor their molecular diagnostic assay on a run-to-run basis within customer derived limits. These third-party independent external controls will ensure that assay drift is detected, monitored and managed allowing the laboratory to continue to provide accurate and reliable results. They also help support a laboratory’s regulatory requirements under the standard ISO 15189.
Adenovirus (ADV) Control
Pathogen – Adenovirus (ADV)
Genotype – Type 1
Matrix – Transport Medium
Stability – Single use control designed to be used immediately minimising the risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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ADV Molecular Q Control
Product code: ADVMQC | Pack size: 5×1 ml
BK Virus (BKV) Control
Pathogen – BK Virus (BKV)
Genotype – Type 1b-2
Matrix – Plasma
Stability – Single use control designed to be used immediately minimising the risk of contamination
Shelf life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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BKV Molecular Q Control
Product code: BKVMQC | Pack size: 5×1 ml
Cytomegalovirus (CMV) Control
Pathogen – Cytomegalovirus (CMV)
Genotype – AD169
Matrix – Plasma
Stability – Single use control designed to be used immediately minimising the risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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CMV Medium Q Control
Product code: CMVMQC | Pack size: 5×1 ml
Epstein-Barr Virus (EBV) Control
Pathogen – Epstein-Barr Virus (EBV)
Genotype – B-95
Matrix – Plasma
Stability – Single use control designed to be used immediately minimising the risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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EBV Molecular Q Control
Product code: EBVMQC | Pack size: 5×1 ml
JC Virus (JCV) Control
Pathogen – JC Virus (JCV)
Genotype – Type 1A
Matrix – Plasma
Stability – Single use control designed to be used immediately minimising the risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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JCV Medium Q Control
Product code: JCVMQC | Pack size: 5×1 ml
Molecular Q Panels
Molecular Q Panels consist of four individual levels, including a negative, and are intended to evaluate the assays’ clinical range. Molecular Q Panels can also be used to support laboratory training and in the assessment and development of molecular diagnostic assays from extraction phase through amplification and finally detection.
Adenovirus (ADV) Molecular Q Panel
Pathogen – Adenovirus (ADV)
Genotype – Type 1
Matrix – Viral Transport Medium
Stability – Single use Q-Panel designed to be used immediately minimising risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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ADV Molecular Q Panel
Product code: ADVMQP | Pack size: 4×1 ml
BK Virus (BKV) Molecular Q Panel
Pathogen – BK Virus (BKV)
Genotype – Type 1b-2
Matrix – Plasma
Stability – Single use Q-Panel designed to be used immediately minimising the risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
BKV Molecular Q Panel
Product code: BKVMQP | Pack size: 4×1 ml
Cytomegalovirus (CMV) Molecular Q Panel
Pathogen – Cytomegalovirus (CMV)
Genotype – AD169
Matrix – Plasma
Stability – Single use Q-Panel designed to be used immediately minimising risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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CMV Molecular Q Panel
Product code: CMVMQP | Pack size: 4×1 ml
Epstein-Barr Virus (EBV) Molecular Q Panel
Pathogen – Epstein-Barr Virus (EBV)
Genotype – B-95
Matrix – Plasma
Stability – Single use Q-Panel designed to be used immediately minimising risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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EBV Molecular Q Panel
Product code: EBVMQP | Pack size: 4×1 ml
Human Herpes Virus 6 (HHV6) Molecular Q Panel
Pathogen – Human Herpes Virus 6 (HHV6)
Genotype – Type A-GS
Matrix – Plasma
Stability – Single use Q-Panel designed to be used immediately minimising risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status -RUO
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HHV6 Molecular Q Panel
Product code: HHV6MQP | Pack size: 4×1 ml
JC Virus (JCV) Molecular Q Panel
Pathogen – JC Virus (JCV)
Genotype – Type 1A
Matrix – Plasma
Stability – Single use Q-Panel designed to be used immediately minimising risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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JCV Molecular Q Panel
Product code: JCVMQP | Pack size: 4×1 ml
Analytical Q Panels
Analytical ‘Q’ Panels are designed to cover the dynamic range of an assay allowing the laboratory to assess the linearity, LOD and LOQ of their assay. Each panel contains a dilution series covering the analytical range of most assays, in a linear progression, all of which should be treated as a patient sample within an assay run.
Adenovirus (ADV) Analytical Q Panel
Pathogen – Adenovirus (ADV)
Genotype – Type 1
Matrix – Viral Transport Medium
Number of Levels – 8
Stability – Single use Q-Panel designed to be used immediately minimising the risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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ADV Analytical Q Panel
Product code: ADVAQP | Pack size: 8×1 ml
BK Virus (BKV) Analytical Q Panel
Pathogen – BK Virus (BKV)
Genotype – Type 1b-2
Matrix – Plasma
Number of Levels – 10
Stability – Single use Q-Panel designed to be used immediately minimising the risk of contamination
Shelf life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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BKV Analytical Q Panel
Product code: BKVAQP | Pack size: 10×1 ml
Cytomegalovirus (CMV) Analytical Q Panel
Pathogen – Cytomegalovirus (CMV)
Genotype – AD169
Matrix – Plasma
Number of Levels – 9
Stability – Single use Q-Panel designed to be used immediately minimising the risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
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CMV Analytical Q Panel
Product code: CMVAQP | Pack size: 9×1 ml
Epstein-Barr Virus (EBV) Analytical Q Panel
Pathogen – Epstein-Barr Virus (EBV)
Genotype – B-95
Matrix – Plasma
Number of Levels – 10
Stability – Single use Q-Panel designed to be used immediately minimising risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – CE & RUO
EBV Analytical Q Panel
Product code: EBVAQP | Pack size: 10×1 ml
Human Herpes Virus 6 (HHV6) Analytical Q Panel
Pathogen – Human Herpes Virus 6 (HHV6)
Genotype – Type A-GS
Matrix – Plasma
Number of Levels – 10
Stability – Single use Q Panel designed to be used immediately minimising risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – RUO
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Human Herpes Virus 6 (HHV6) Analytical Q Panel
Product code: HHV6AQP | Pack size: 10×1 ml
JC Virus (JCV) Analytical Q Panel
Pathogen – JC Virus (JCV)
Genotype – Type 1A
Matrix – Plasma
Number of Levels – 10
Stability – Single use Q Panel designed to be used immediately minimising risk of contamination
Shelf Life – Up to 2 years after date of manufacture
Regulatory Status – RUO
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JCV Analytical Q Panel
Product code: JCVAQP | Pack size: 10×1 ml
Want to know more?
Contact us or visit our Qnostics page to learn more.
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Protected: The Benefits of True Third Party Controls -New Test
The Benefits of True Third Party Controls
In the clinical laboratory, Quality Control (QC) refers to the process of detecting analytical errors to ensure both the reliability and accuracy of patient test results. Poor performance can result in misdiagnosis, delayed/inappropriate treatment, increased costs and may even be potentially life threatening for the patient. Third party controls offer a better solution to ensure optimum performance and accuracy, read on to learn how.
1. Dependent / First Party Controls
Dependent controls refer to any control material that has been produced by the instrument or reagent manufacturer for use on a specific test system. Such controls are often manufactured from the same raw materials as the calibrator, making them less sensitive to subtle changes in performance.
As dependent controls are generally optimised for use with the manufacturer’s test system, these controls can mask weaknesses, and therefore, are increasingly considered less effective than independent controls.
2. Semi-Dependent Controls
Semi-dependent control material, although produced independently of the instrument or reagent, is often supplied or recommended by the instrument/reagent manufacturer. It is this manufacturing relationship between the two that requires close scrutiny when considering if these controls are fit-for-purpose.
Although the control material is not produced by the instrument manufacturer, it is produced according to their exact specifications and therefore, optimised to work with a specific platform.
3. Independent / Third Party Controls
Independent or third party quality control material has not been designed or optimised for use with any instrument, kit or method. This complete independence enables the quality control material to closely mirror the performance of patient samples, and in doing so, provide an unbiased, independent assessment of analytical performance across multiple platforms.
Third party controls have been designed to deliver an independent, unbiased assessment of performance with any instrument or method helping you gain accreditation. Below are some of the key benefits of third party controls:
- Values assigned using a large number of independent laboratories ensuring statistically valid targets.
- Highly consolidated controls allow for space, time, and ultimately, cost savings.
- Boosted shelf life ensures continuity of supply and reduced costs
- Reduced preparation times by removing the need for multiple instrument controls
Regulatory Requirements
Third party controls are growing in popularity across the globe. More and more laboratories are beginning to use third party controls as part of their daily QC strategy. The benefits of such controls are widely accepted and recommended by both key opinion leaders and regulatory bodies in the field of Quality Control.
“Use of independent third party control materials should be
considered, either instead of, or in addition to, any control
materials supplied by the reagent or instrument manufacturer”
ISO 15189:2012 Section 5.6.2.2
ISO 15189:2012 Medical Laboratories – Requirements for Quality and Competence
The benefit of running third party controls in your laboratory cannot be underestimated. The following case studies highlight their many benefits and how they have helped laboratories across the world to provide more accurate and reliable test results.
Case Study One: Identifying Lot-to-Lot Variability with Third Party Controls
A laboratory in the UK contacted Randox Technical Services, reporting higher than expected QC results for
Thyroglobulin. When using a third party control (Acusera Immunoassay Premium Plus) the results were four
times higher on their main analyser compared to other systems. However, when they ran the instrument
manufacturer’s control alongside the third party control it did not show the same problem.
After reviewing EQA data, the Technical Services team confirmed there was a significant difference in results
compared to other instruments, and set about helping the laboratory troubleshoot. After an exhaustive
review of procedures and processes, the customer contacted the instrument manufacturer, who advised of a
positive bias with several batches of reagent, including the batch the laboratory was using.
Conclusion: By using a third party control the laboratory was able to detect a shift in results after changing
reagent batch that the instrument manufacturer’s control did not.
Case Study Two: Overcoming Instrument Errors with Third Party Controls
A laboratory using the Acusera Assayed Chemistry Premium Plus control contacted Randox Technical Services
after observing a consistent negative bias for ALT which was not replicated by the instrument control. They
had previously contacted their instrument manufacturer who advised that the problem was with the control
and not the reagent or instrument.
Randox investigated the problem and demonstrated that patient results were also wrongly reported low. This
later led the instrument manufacturer to recommend a wash stage to eliminate any interference.
Conclusion: The use of a third party control in this instance enabled the identification of a procedural error
with the instrument that the recommended control did not.
Explore the benefits of Randox Acusera third party controls below.
Our extensive range of assayed quality controls are supplied with highly accurate target values for a wide range of instruments and methods. Our unique value assignment process utilises thousands of independent laboratories globally ensuring target values won’t change throughout the shelf life of the control and eliminates the need to spend time and money performing value assignment in-house.
Accuracy coupled with unrivalled traceability to International Reference Laboratories, provides a product of unsurpassed accuracy and reliability.
We take quality seriously, that’s why all QC products are manufactured to the highest possible standard delivering control products of unrivalled quality. Our superior manufacturing processes ensure stability claims and analyte levels won’t differ significantly from lot to lot. You can therefore be sure of receiving the same standard of product time and time again.
Regular shifts in QC results when a reagent batch is changed can be both costly and frustrating for many labs, resulting in a frequent need to reassign target values. Designed to be commutable, the Acusera range of Internal Quality Controls will react to the test system in a manner as close as possible to the patient sample helping you to meet ISO 15189:2012 requirements while ultimately ensuring accurate & reliable instrument performance. Furthermore our lyophilized controls contain no added preservatives or stabilisers ensuring a sample matrix that closely matches the patient sample.
ISO 15189:2012 states, “The laboratory shall use quality control materials that react to the examining system in a manner as close as possible to patient samples”.
All controls for use with immunoassay/immunology based methods are manufactured using only 100% human components demonstrating our commitment to quality and eliminating costly QC shifts when reagent batch is changed.
Working stability and product shelf life are important considerations for any lab when choosing which internal quality control material is best suited to their needs. Labs often spend up to one month validating new material, a process which can be minimised by opting for a control with an extended shelf life. At Randox our lyophilised controls have a shelf life of up to four years and our liquid controls a shelf life of up to two years from the date of manufacture ensuring continuity of lot supply and ultimately reducing the need for expensive new lot validation studies.
Each of our third party controls will have its own reconstituted or open vial stability, some of the analytes will have limitations, however we pride ourselves on not misleading customers with false claims. The extended open vial and reconstituted stabilities will help laboratories to minimise waste and reduce costs.
Randox is a leading provider of multi-analyte, third party controls designed to allow any lab to carry out highly accurate QC using fewer controls. In an industry where budgets and resources are increasingly under pressure, highly consolidated controls will ensure high levels of throughput without compromising on accuracy. Uniquely comprising up to 100 analytes in a single control product, costs, preparation time and storage space are dramatically reduced without sacrificing on quality.
The presence of analytes at key decision levels in all Acusera controls will not only ensure accurate test system performance across the clinical range, but will further aid consolidation and maximise laboratory efficiency by eliminating the need to purchase additional high or low level controls, which are often expensive.
Available in multiple levels, the Acusera range of third party controls are designed to challenge laboratory instruments throughout the patient reportable range. The presence of analytes at clinically relevant decision levels not only helps to ensure accurate instrument performance but maximizes laboratory efficiency by eliminating the need to purchase additional low/high concentration controls at extra expense.
Randox also employs easy to use colour-coded packaging to help distinguish between different levels and reduce costly mix-ups.
ISO 15189:2012 states, “The laboratory should choose concentrations of control materials wherever possible, especially at or near clinical decision values, which ensure the validity of decisions made”.
Randox Acusera is a world leading manufacturer of true third party controls providing a cost effective, high quality solution for any lab – regardless of their size or budget. Designed to provide an unbiased, independent assessment of performance, our internal quality controls have not been manufactured in line with, or optimised for use with any particular reagent, method or instrument helping you to easily meet ISO 15189:2012 recommendations.
ISO 15189:2012 states that the “use of independent third party control material should be considered, either instead of, or in addition to, any control materials supplied by the reagent or instrument manufacturer.”
Traceability refers to the property of a measured result or calibrator value to be related or traced back to a reference measurement procedure or reference material through a series of measurements with known uncertainties.
The European parliament and council directive 98/79 EC require values assigned to both calibrators and control materials on in vitro diagnostic medical devices to be traceable to a recognised reference material or reference measurement procedure of higher order, e.g. SI units.
Guidelines have been set for diagnostic manufacturers to follow when assigning calibrator values and establishing traceability. These guidelines were set by the European standards EN/ISO 17511 and also EN/ISO 18153. The Randox traceability pathway has been established with reference to standards ISO 17511 and ISO 18153. The pathway has been followed to establish traceability for Randox calibrators allowing all patient results to be traced right back to the source.
With an extensive range of assayed/unassayed, liquid/lyophilised and single/multi-analyte controls, the Acusera portfolio has a solution to suit all laboratory preferences.
Custom Controls
Randox is a market leader in the manufacture of customised quality controls designed to meet the individual and unique requirements of even the most specialised laboratories.