artus Parvo B19 PCR Kits CE

Pour la détection quantitative de l’ADN du parvovirus en PCR en temps réel

Products

1. Manuel du kit artus Parvo B19 LC PCR Kit Handbook 2. Manuel du kit artus Parvo B19 RG PCR Kit Handbook 3. Manuel du kit artus Parvo B19 TM PCR Kit Handbook © QIAGEN France S.A.S. 2013 Les informations relatives aux dispositifs médicaux in vivo et in vitro contenues dans ce site sont à destination des professionnels de santé. Pour plus d'informations, nous vous invitons à consulter le manuel d'utilisation de l'équipement et/ou la notice d'utilisation du réactif.
artus Parvo B19 PCR Kits CE sont destinés au diagnostic in vitro en Europe.
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artus Parvo B19 LC PCR Kit (96) CE

Cat. No. / ID:   4504065

Pour 96 préparations sur le LightCycler 1.1/1.2/1.5 : Master, solution de Mg, 5 standards de quantification, contrôle interne, Eau (PCR grade)
6 807,00 €
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artus Parvo B19 RG PCR Kit (24) CE

Cat. No. / ID:   4504263

Pour 24 préparations sur le Rotor-Gene 3000 : Master, 5 standards de quantification, contrôle interne, Eau (PCR grade)
1 785,00 €
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artus Parvo B19 LC PCR Kit (24) CE

Cat. No. / ID:   4504063

Pour 24 préparations sur le LightCycler 1.1/1.2/1.5 : Master, solution de Mg, 5 standards de quantification, contrôle interne, Eau (PCR grade)
1 785,00 €

Caractéristiques

  • Conforme à la directive européenne IVD 98/79/CE
  • Fiabilité élevée grâce au contrôle interne (1-3)
  • Détection très sensible dès 0,2 UI/µl (kit RG) (2)
  • Précision de quantification à l’aide des 5 standards fournis (1-3)

Détails produit

Les kits artus Parvo B19 PCR sont des kits de détection moléculaire prêts à l’emploi destinés à la PCR en temps réel. Les kits incluent tous les réactifs nécessaires, optimisés pour une détection et une quantification fiables de l’ADN du parvovirus B19 dans le cadre d’un diagnostic in vitro.

Performances

Afin de garantir une sensibilité maximale, les kits artus Parvo B19 PCR ont été optimisés de manière à détecter l’ADN du parvovirus B19 en faible quantité. La sensibilité analytique du kit artus Parvo B19 RG PCR est de 0,2 UI/µl en PCR sur l’instrument Rotor-Gene 3000.

Caractéristiques de performances du kit artus Parvo B19 RG PCR
Kitartus Parvo B19 RG PCR
Types d’échantillons validéssérum ou plasma
Sensibilité analytique0,2 UI/µl en PCR

Principe

Les kits artus Parvo B19 se fondent sur l’amplification et la détection simultanées d’une région spécifique du génome du parvovirus B19 en PCR en temps réel. Les kits permettent des niveaux élevés de spécificité, sensibilité et reproductibilité.

Chacun des kits artus Parvo B19 PCR inclut 5 standards de quantification (voir figure « Quantification fiable de la charge du parvovirus B19 »). Le recours à des standards permet une quantification précise de la charge virale. Par ailleurs, les kits incluent un second système d’amplification hétérologue destiné à l’identification de toute inhibition possible de la PCR. Cette détection s’effectue par le biais d’un contrôle interne dans un canal de fluorescence distinct de celui de la PCR analytique. La limite de détection de la PCR analytique du parvovirus B19 n’est pas réduite.

Spécifications du kit artus Parvo B19 RG PCR
Kitartus Parvo B19 RG PCR
Types d’échantillons sérum ou plasma
Amplicon Région de 76 paires de bases du génome parvovirus B19

Procédure

Les kits artus Parvo B19 PCR incluent tous les réactifs nécessaires, optimisés pour une détection et une quantification fiables de l’ADN du parvovirus B19. Il suffit d’ajouter de l’ADN matrice au master mix PCR prêt à l’emploi (et à la solution Mg pour le kit LC uniquement) et de lancer la réaction sur le thermocycleur en temps réel approprié à l’aide du programme de cycle optimisé décrit dans le manuel du kit.

Pour la purification d’ADN, il est recommandé d'utiliser uniquement les kits QIAamp DNA Mini ou QIAamp UltraSens Virus.

Applications

Les kits artus Parvo B19 PCR permettent une détection rapide et sensible de l’ADN du parvovirus B19 dans le sérum et le plasma avec une quantification précise. Les kits sont disponibles pour une utilisation sur les instruments Rotor-Gene 3000, LightCycler 1.1/1.2/1.5, ou ABI PRISM 7000, 7700, 7900HT SDS.

Données et illustrations utiles

Specifications

FeaturesSpecifications
Quantitative/qualitativeQuantitative
Sample typeSerum, plasma
Recommended sample prepQIAamp UltraSens Virus Kit
RUO/CE/ASRCE
What detectedParvovirus DNA
Thermal cyclerABI PRISM 7000, 7700, 7900HT SDS, LightCycler, Rotor-Gene 3000

FAQ

How often should the Crosstalk Colour Compensation (ccc) be carried out? Where does the ccc file have to be saved?
According to Roche, the Colour Compensation file should be replaced every six months using Roche's LightCycler® Colour Compensation Set (cat. no. 2158850). The ccc file should be saved in a folder termed "Calibration" (for further technical instructions please refer to the user manual of the LightCycler® Colour Compensation Set).
FAQ ID -1512
Why is the IC not detectable although the analytical PCR is positive?
The IC serves to monitor both a potential PCR inhibition and the nucleic acid extraction efficiency (provided it was added to the extraction procedure). A positive IC in the absence of an analytical PCR signal confirms a true negative result. However, in the presence of a strong positive analytical PCR the IC may fail (or may be reduced in its fluorescence intensity level) as a consequence of competition of these two reactions for PCR resources in the artus® Master Mix.
FAQ ID -1505
What are the temperature ramp rates of the LightCycler® (LC), the Rotor-Gene® (RG) and the ABI PRISM® PCR instruments (TM) for artus kits?

• LC: 0.1 - 20.0°C/s

• RG: 2.0°C/s (tube temperature) 5.0°C/s (air temperature)

• TM 7000/7900: 2.3°C/s (with 9600 emulation: 1.0°C/s)

• TM 7700: 1.0°C/s

FAQ ID -1510
Are there any general recommendations to take into account when performing a nucleic acid extraction?

Yes. Please note that:

• Phenol-based extraction methods should be avoided due to the risk of carrying over phenol to the PCR reaction. Phenol is a strong PCR inhibitor and may lead to false negative results.

• Ethanol – which is a washing buffer component of many extraction systems – should be completely removed prior to the final elution step. When using column-based QIAGEN extraction systems this can readily be achieved by an additional centrifugation after the last washing step (13.000 rpm, 3 min, room temperature). Ethanol is a potent PCR inhibitor and may also lead to false negative results.

• When sample material low in DNA/RNA content is used (e.g. CSF, serum, plasma) QIAGEN strongly recommends to add carrier RNA to the extraction procedure (poly(A) RNA homopolymer, Amersham Biosciences, cat. no.: 27-4110-01). This will increase the overall yield of the DNA/RNA of interest.

FAQ ID -1494
Do you have suggestions for the identification, prevention and elimination of DNA and RNA contaminations?
FAQ ID -1692
Why and when is it necessary to use carrier DNA/RNA in the extraction procedure?

The addition of carrier nucleic acids increases the yield of extracted DNA/RNA from analytical samples. Especially when starting from samples low in pathogen or DNA/RNA concentration (e.g. cerebrospinal fluid), we highly recommend to use poly(A)-homopolymers (AmershamBiosciences, Cat. no.: 27-4110-02) as a carrier nucleic acid.

Carrier RNA is not required when sample material containing an excess amount of DNA is used, such as stool, blood cells and others.

Please note that some extraction kits, e.g. the QIAamp Viral RNA Mini Kit, already contain carrier RNA (supplement to the lysis buffer). In these cases, additional poly(A) carrier RNA is not required

FAQ ID -1489
How is the artus® kit sensitivity determined?
As part of the internal validation the analytical sensitivity is determined by a probit analysis. This is performed by setting up six to eight dilution series (usually in half-logarithmic concentration steps) of the plasmid cloned PCR product starting with the lowest concentration of quantitation standard. Each of these dilutions is run on three different days in eight-fold replicates. From these data the detection limit is calculated using a statistical algorithm; the probit analysis.
FAQ ID -1375
Is it advisable to include the IC in the extraction procedure?

The majority of kits provide the IC in a separate, green-colored capped tube for the benefit of the customer. The user can include the IC in the extraction procedure, thereby controlling the efficiency of the DNA/RNA preparation and checking for potential PCR inhibition in the subsequent PCR.

Alternatively, the IC may be used for PCR inhibition control only by adding it to the artus® Master directly. The user manual provides corresponding pipetting schemes for both variants

FAQ ID -1487
Which types of collection tubes should preferentially be used for blood samples?
QIAGEN recommends to use collection tubes with EDTA or sodium citrate additives as anticoagulants. In contrast, heparin blood is not suited for artus PCR analysis as this anticoagulant is known as a potent PCR inhibitor.
FAQ ID -1496
Which DNA polymerases are included in artus® kits?

QIAGEN uses a combination of different "Hot-Start" polymerases depending on the requirements of the kit as the artus® Master composition of each kit is tailored individually. In addition, assay systems for the detection of RNA viruses contain reverse transcriptase enzyme(s).

 

FAQ ID -1386
Is it possible to analyze LightCycler® runs generated with an old software version with a newer version?
Yes. However, for melting curve analysis the calculation method "Linear" has to be selected. Otherwise melting curves are calculated with the "Polynomial" method.
FAQ ID -1517
Should a negative control without the addition of IC be included in PCR run?

We strongly recommend to use the IC for every single PCR by either adding it to the extraction procedure or to the artus® Master directly (see user manual for pipetting instructions).

A water/buffer control for the analytical PCR including the IC is sufficient as a negative control. The CT values of the IC are expected to be the same.

FAQ ID -1400
Is it necessary to include the external positive control (quantitation standards, QS) in the extraction procedure?
Since artus® kits allow an extraction efficiency control by adding the IC (provided in a separate tube) to the extraction procedure and are optimized for quantitation using the QS directly for the real-time PCR, the QS must not be included into the extraction process
FAQ ID -1488
Could the IC PCR possibly inhibit an analytical PCR with a sample of low concentration?

artus® kits feature a high specificity and sensitivity in pathogen detection. In principle, samples bearing even low pathogen copy numbers can efficiently be analyzed (down to 10-50 copies/PCR).

The IC has carefully been adjusted to ensure that it does not influence the analytical PCR.

FAQ ID -1399
Why is the IC not detectable although the analytical PCR is negative?

A failure of the IC amplification in the absence of an analytical PCR signal is indicative for either a PCR inhibition or a significant DNA/RNA loss during the nucleic acid isolation procedure (provided the IC was added to the extraction).

Various reasons could account for a failure of IC amplification.

Inhibition of PCR. PCR inhibitors were not quantitatively removed during DNA/RNA extraction. This may particularly occur with stool or urine as sample materials which contain a large number of partially unknown potential PCR inhibitors. Transfer of such molecules may impair or eliminate the DNA polymerase activity. Alternatively, the incomplete removal of ethanol (as a component of washing buffers of many extraction protocols such as the QIAGEN column-based extraction systems) may have caused PCR inhibition. If QIAGEN extraction systems are used, this can be prevented by performing an additional centrifugation step prior to the final elution step (please refer to the artus® user manuals for further details).

Loss of IC during extraction. The use of a non-recommended extraction kit or non-compliance with the extraction kit protocol may lead to loss of DNA/RNA and, consequently, of the IC – provided the IC was added to the extraction procedure. This risk of DNA/RNA loss can significantly be decreased by adding carrier RNA to the extraction. If carrier RNA is not supplied with the extraction kit, QIAGEN recommends the use of homopolymer poly(A) RNA (Amersham Biosciences, cat. no.: 27-4110-01).

Addition of IC to extraction prior to initial lysis step. It is important that the IC is added only after the sample material has been combined with the lysis buffer of the extraction system. If the IC is added prior to this lysis step it may be digested by DNases/RNases present in the sample material. The lysis buffer contains protein-denaturing agents which inactivate all DNases/RNases promptly.

FAQ ID -1506
Why is the initial fluorescence signal too high when using artus PCR assays on the Rotor-Gene cycler?

Manufacturing failure/faults or air bubbles in the tubes and/or capillaries may cause initial fluorescent signals that are too high. When using artus® kits designed for the Rotor-Gene instrument with a total volume of 50 μl, the 20 μl sample has to be mixed with 30 μl of artus® Master Mix in the reaction tube by pipetting up and down several times. Otherwise, distribution of fluorescence is not homogeneous within the first few PCR cycles which may lead to initial fluorescence signals that are too high.

 

 

FAQ ID -1497
Is it possible to withdraw an aliquot of the LightCycler® sample for further gelelectrophoretic post-PCR analysis?

Yes. The capillaries have to be carefully opened, put upside down in a conventional 1.5 ml reaction tube and centrifuged briefly at 2.000 rpm.

Please note that a gel electrophoresis analysis should be performed in a separate room to avoid contamination by the amplicon

FAQ ID -1491
Do all artus® PCR kits contain the same internal control (IC)?

All artus® PCR kits for RNA-based detection of pathogens contain heterologous in vitro transcribed RNA as an internal control whereas DNA PCR kits contain a corresponding heterologous DNA internal control. The concentration of the IC template as well as the length of the IC PCR product may vary from kit to kit.

 

FAQ ID -1384
Why does the fluorescence signal drop sharply at the beginning of an artus® PCR run?

Air bubbles in the reaction solution may cause a strong fluorescence decrease at the beginning. In the Rotor-Gene® instrument those bubbles will be removed by the spinning action of the instrument. Insufficient mixing of sample and Rotor-Gene® artus® Master Mix may also lead to a steep initial fluorescence decrease due to an uneven distribution of the fluorescent dyes inside the tube.

As mentioned in the user manual, QIAGEN strongly recommends to thoroughly mix those two fractions (by pipetting up and down several times) prior to the PCR run.

FAQ ID -1498
Do the ABI PRISM® SDS instruments also support the import of standard curves?
No. For quantitation of ABI PRISM® PCR results, the artus® quantitation standard series has to be included in parallel in each real-time PCR run.
FAQ ID -1524
How is the optical system of the ABI PRISM® 7000 SDS instrument designed?
In contrast to the 7900HT and the 7700 instruments which use argon lasers as a light source, the ABI PRISM® 7000 SDS instrument works with a Tungsten halogen lamp for excitation of the fluorescent dyes. Detection of individual fluorescent signals is mediated by a four filter system.
FAQ ID -1523
How is the precision of the artus® kits determined?

The precision of the artus® kits is determined by measuring the

  • intra-assay variability: deviation of Ct values of a standard of defined concentration (in eight-fold replicates) within one run
  • inter-assay variability: deviation of Ct values of a standard of defined concentration on three instruments, performed by three different lab workers
  • inter-lot variability: deviation of Ct values of a standard of defined concentration in three PCR runs using three different batches of as many kit components as possible; obligatorily, three different primers and probes batches have to be used for the determination of the inter-lot variability

These three variabilities are stated as coefficients of variation (in percent) and allow the determination of the total variance which is indicative for the reliability of the detection system.

FAQ ID -1377
Is it necessary to adjust the sample DNA concentration of artus® kits?

In principle, adjustment of DNA concentration prior to the PCR setup is not required. The linear quantitation range of artus® kit systems comprises four to five logarithmic orders of magnitude, as defined by the quantitative standards (QS) series.

Most diagnostic samples lie within this linear range. In HBV or Parvo B19 diagnostics positive material with unusually high viral loads may be observed which result in CT values lower than the highest QS (e.g. QS1 for HBV: 105 IU/μl), indicating that those samples have a virus titer that exceeds the first QS.

Since precise quantitation is not possible outside the linear range of the standard curve, a repetition of the PCR using diluted sample DNA is recommended.

FAQ ID -1486
What is the optimal order of pipetting artus® PCR samples?

In general, the following pipetting order is applicable: 

  1.  artus® Master Mix 
  2.  analytical samples
  3.  quantitation standards (QS, supplied) 
  4.  nuclease-free sterile water (supplied)

To avoid cross-contamination deriving from the supplied QS, QIAGEN strongly recommends to pipette and seal (if possible) the analytical patient samples (2.) prior to the QS (3.).

A water control should be included subsequently to pipetting the analytical/QS samples (4.) to control a contamination-free process flow.

FAQ ID -1397
Are artus® kits legally authorized?

Since May 2002 artus has produced and inspected its products in accordance with the European guidelines (directives, standards) for in vitro diagnostics (directive 98/79/EG IVD).

Thus, they are allowed to carry the CE-label (directive 93/42/EWG MPG). A prerequisite for this is the maintenance of a certified quality management system according to DIN EN ISO 9001 as well as a running quality and conformation control for each lot produced.

FAQ ID -1372
How is the artus® kit specificity determined?

The specificity of the detection system for a particular pathogen is ensured by the careful selection of highly specific primers and probes as well as by stringent reaction conditions. The sequence specificity of the primers and probes is verified by homology searches and sequence alignments with the pathogen's and closely related sequences.

The specificity is further controlled by assaying the kit system with isolates of closely related pathogens, pathogens causing similar symptoms, and, if applicable, with isolates of different genotypes/subtypes of the pathogen of interest.

FAQ ID -1376
The concentrations of the quantitation standards (QS) of several artus® kits are stated as IU/µl (international units per µl). Is it possible to convert this concentration unit into copies per µl?

For a variety of pathogens (HIV, HBV, HCV, Parvovirus B19, HAV) international units (IU) have been determined by the World Health Organisation (WHO) for the establishment of worldwide comparable pathogen diagnostics. Conversion factors are documented in a WHO report to allow a recalculation from IU/vol. to copies/vol. ("WHO Consultation on International Standards for in vitro Clinical Diagnostic Procedures based on Nucleic Acid Amplification Techniques (NAT)", 2002). However, QIAGEN considers the conversion of IU into copies not permissible or, at least, misleading. The conversion of concentration units is thought to allow a comparison of results generated with different detection assays. However, since the quantitation standards of many competitive products are not calibrated with international standards, these conversions may lead to discrepant results. Hence, these conversions do not contribute to a comparability of different assay results but may rather obscure conclusions. QIAGEN calibrates all artus® quantitation standards using international standards if available (e.g. from the National Institute for Biological Standards and Control, UK; www.nibsc.ac.uk). If the quantitation standards of a competitive product were adjusted correspondingly, the assay results may indeed be compared. Please also note paragraph 3.2.2. in the European "IVD guideline on common technical specifications for in vitro-diagnostic medical devices" which clearly states that international reference material has to be used for detection limit determination:

"The analytical sensitivity or detection limit for NAT assays shall be expressed by the 95 % positive cut-off value. This is the analyte concentration where 95 % of test runs give positive results following serial dilutions of an international reference material for example a WHO standard or calibrated reference materials."

FAQ ID -1501
For artus® kits, how are weak positive samples identified?
A high CT value indicates a positive sample of correspondingly low concentration. On the basis of the CT values of an external standard, the real-time PCR instrument software calculates the amount of the sample's input DNA/RNA. However, if a CT value of a particular sample is higher than that of the last quantitation standard (QS4 or QS5) a precise quantitation of this sample may not be possible. Nevertheless, it still has to be reported as positive.
FAQ ID -1500
Why do the amplification curves generated with ABI PRISM® 7000 SDS instrument look rather zigzag-shaped when compared to results generated with the ABI PRISM® 7700 SDS instrument?
The 7700 instrument employs a different smoothening algorithm of the curves, which results in more evenly shaped amplification curves.
FAQ ID -1522
Is both fluorescence excitation and detection in the ABI PRISM® 7700 SDS mediated by glass fiber optics?
Yes. The fluorescence in each well of a 96 well plate is measured individually by glass fiber optics. Therefore, damage or impairment of one of the fibers may lead to deviating results.
FAQ ID -1521
Why is the magnesium (Mg2+) solution supplied in a separate tube in the artus® Parvo B19 PCR Kits?

For increased stability of the kit components the Mg2+ solution has been taken out of the artus® Master solution.

 

FAQ ID -1533
Which real-time PCR files should customers forward when they want their data to be re-analyzed by artus® technical support?

In general, all run files and result data should be forwarded.

For each real-time instrument these are the following files:

ABI PRISM®: *.SDS files

Rotor-Gene®: *.REX or *.REA (Rotor-Gene® archive) files

LightCycler® 1.x: *.ABT and *.FLO and *.TEM

LightCycler® 2.0: *.IXO files (ccc-file has to be imported into the file)

Generally, we recommend to forward all run files in a compressed file format (*.zip files) using the Winzip software (free download available at www.winzip.com). This prevents the files (especially LightCycler® files) from being automatically unpacked by e-mail browsers.

For the analysis of Rotor-Gene® files we recommend to save the experiment and forward the data as a compressed experimental archive file (*.REA).

FAQ ID -1508
What are Hot-Start DNA polymerases?

Conventional DNA polymerases exert a certain level of background activity at room temperature. This may affect the performance of the individual PCR reactions.

During setup some minor amplification may occur prior to starting the PCR instrument. To prevent any background polymerase activity and to synchronize all reactions, the enzyme is silenced either by binding of a specific antibody or by chemical modification.

This enzyme inhibition can be released by an initial denaturation step at 95°C.

FAQ ID -1387
Are real-time PCR results obtained with artus® kits quantifiable and how many standards are required?

With a few exceptions all artus® kits have been equipped with 4-5 quantitation standards (QS 1-4/5) depending on the individual kit's requirements. These QS tubes (red colored caps) contain plasmid DNA of defined concentrations (given in either copies/μl or IU/μl) in which the pathogen-specific PCR product was cloned.

For artus® RNA virus detection kits (West Nile Virus, Enteroviruses, HAV etc.) in vitro transcribed RNA obtained from cloned plasmids is provided. The plasmid concentrations have been determined by fluorimetry or calibrated with international standards where possible (e.g. HBV). This QS series allows plotting a standard curve for the determination of precise pathogen loads (stated in copy or IU values).

FAQ ID -1388
How can I prevent contamination?

• Stick to a three room strategy: Laboratory 1: nucleic acid isolation

                                                Laboratory 2: PCR setup

                                                Laboratory 3: PCR instrumentation/PCR run 

                                                -> if three rooms are not available, please perform nucleic acid extraction in

                                                    a facility spatially separated to the PCR laboratory

• Use pipette tips with aerosol barriers only.

• Store positive controls separately from negative controls.

• Always pipette positive after the unknown samples.

• After each pipetting of an unknown sample seal the reaction tube/capillary.

• Do not reuse capillaries, tubes, filter tips etc.

• Use different sets of pipettes for aliquotting artus® kit components and handling controls.

• In case of capillary breakage or when tubes unseal, clean the work area, including the thermocycler, with sufficient amounts of a DNA-decontaminating agent (hypochlorite or e.g. DNA-Zap by Ambion) or UV light.

FAQ ID -1395
Does centrifugation of the artus® Master prior to or after pipetting negatively affect the quality of the probes?
No. The brief centrifugation steps do not impair the performance of the probes.
FAQ ID -1490
What possible reasons result in a sensitivity lower than that given in the artus® user handbook?

• The artus® Master was not completely thawed and as a result the concentration is incorrect.

• The artus® Master was not mixed sufficiently by vortexing.

• The Mg2+ solution was not completely mixed/thawed (where applicable) before being added to the artus® Master.

• The solutions were not sufficiently mixed and then centrifuged briefly.

• The PCR setup was not carried out on ice or in a cooler.

• The solutions were frozen and thawed too often (if possible do not thaw more than twice).

• During transportation the kits were not kept frozen permanently.

• Pipettes are not calibrated correctly.

• Pipette tips do not fit the pipettes.

• An extraction procedure other than those recommended was used.

• The extraction volume has been increased.

FAQ ID -1396
What is the meaning of the CT value?
CT is the abbreviation for Threshold Cycle and is defined as the calculated cycle number at which the PCR product crosses a threshold of detection. This threshold line is either automatically set by the software algorithm of the real-time PCR instrument or can be manually adjusted. The CT values are essential for quantitation since the standard curve is generated by plotting the CT values versus the logarithmic concentration. A positive unknown sample will also be assigned a specific CT value and by comparison with the standard curve a particular concentration can be calculated
FAQ ID -1525
Is it possible to run the LightCycler® selftest after insertion of the carousel carrying the capillaries?
Although a selftest can be run with an inserted carousel, we strictly recommend to run the selftest without the carousel filled with analytical samples. During the selftest the LightCycler® instrument is checked for optimal heating and cooling performance so that anything inside the thermal chamber will be subject to a brief temperature variation. In theory, these short heating/cooling steps could have an influence on the artus® kit performance.
FAQ ID -1514
Is it possible to edit the sample sheet after the run in the Rotor-Gene® software?
Yes. The sample sheet can be amended during or after the run by activating the "samples" software button. The sample sheet will open and may be modified.
FAQ ID -1520
How is the internal control (IC) PCR system designed?

The IC is a heterologous amplification system with a unique set of primers and probes. Other competitive products frequently utilize a homologous IC system with identical primer binding sites which may lead to primer binding competition and may, in consequence, negatively affect the detection sensitivity.

With artus® kits such primer binding competition can be excluded since the amplified sequences differ.

FAQ ID -1383
How should artus® kits be stored?

Storage must be performed at -20°C, transport is possible at -80°C (dry ice). Repeated freeze-thaw cycles (>2x) of kit components should be avoided as this may negatively affect the kit sensitivity. If the kit is used only intermittently, we recommend to aliquot all reagents (artus® Master, Internal Control, Quantitation Standards) in a desired number of tubes. This aliquoting should be carried out for all kit reagents upon receipt of the kit.

 

FAQ ID -1390
Is a weak or late (high) CT value of the IC an indicator for PCR inhibition?

Interpretation of the IC results strongly depends on the analytical PCR data. High pathogen copy numbers in a sample inevitably lead to impairment or, in rare cases, to even a complete failure of the IC PCR (as a consequence of competition between the two PCR systems).

The impairment is reflected in a decrease of the IC fluorescence intensity. However, the CT value is not affected. In contrast, PCR inhibition can lead to an increase of the CT value, i.e. to a significantly less efficient PCR. Since PCR inhibition can lead to false negative results, it is advisable to repeat the particular sample run and/or modify the RNA/DNA extraction procedure. However, the curve shape and CT values of the other ICs of the same run should be taken into account for comparison. If only one IC PCR differs from the others, an inhibition is very likely. If the IC was included in the extraction procedure of the sample material, a CT deviation of the IC may also indicate a partial IC loss and, hence, a deficient DNA/RNA preparation. In this case, the nucleic acid preparation should be repeated

FAQ ID -1398
How long are the artus® kits stable for?

The shelf-life of each artus® kit is stated on the kit box label and can range from three to thirteen months at -20°C after production date.

Since QIAGEN usually produces small lots, the shelf-life after kit delivery is not reduced significantly.

 

FAQ ID -1389