therascreen PIK3CA RGQ PCR Kit

For qualitative detection of 11 mutations in the PIK3CA gene by real-time PCR

Products

The therascreen PIK3CA RGQ PCR Kit is intended for in vitro diagnostic use.
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therascreen PIK3CA RGQ PCR Kit (24)

Cat. No. / ID:   873121

For 24 reactions: 6 Reaction Mixes, Positive Control, Taq DNA Polymerase, Water for NTC, and Water for Sample Dilution
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QIAamp DSP DNA FFPE Tissue Kit (50)

Cat. No. / ID:   60404

For 50 DNA preps: QIAamp MinElute columns, Proteinase K, Buffers, and Collection Tubes (2 ml)
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QIAamp DSP Circulating NA Kit

Cat. No. / ID:   61504

For 50 preps: includes QIAamp Mini Columns, Buffers, Carrier RNA, QIAGEN Proteinase K, and Tubes.

Features

  • Reliable detection of clinically relevant mutations in the PIK3CA gene
  • High sensitivity and specificity
  • Results in less than two working days
  • Ready-to-use reagents and reaction mixes
  • Automated data analysis using Rotor-Gene AssayManager v2.1 software

Product Details

The therascreen PIK3CA RGQ PCR Kit is a real-time qualitative in vitro diagnostic PCR test for the detection of 11 mutations in the phosphatidylinositol 3-kinase catalytic subunit alpha (PIK3CA) gene using a sample of DNA extracted from either formalin-fixed, paraffin-embedded (FFPE) breast tumor tissue or K2EDTA anticoagulated blood plasma, taken from a patient with breast cancer.

The therascreen PIK3CA RGQ PCR Kit is the first companion diagnostic (CDx) test approved by the FDA to aid in the selection of patients with breast cancer who may be eligible for treatment with the alpha-selective PI3K-inhibitor, PIQRAY (alpelisib), in combination with the estrogen receptor antagonist, fulvestrant.

Performance

The SOLAR-1 study (CBYL719C2301) was a randomized, double-blinded, placebo-controlled, international, multicenter Phase III clinical trial that compared treatment with PIQRAY plus fulvestrant with placebo plus fulvestrant in men and postmenopausal women with hormone receptor-positive, HER2-negative advanced breast cancer that had progressed on or after aromatase inhibitor treatment. A total of 572 breast cancer patients were enrolled into two cohorts, with or without a PIK3CA mutation. Patients were randomized to receive PIQRAY 300 mg plus fulvestrant or placebo plus fulvestrant in a 1:1 ratio. The primary endpoint was progression-free survival (PFS) determined using RECIST v1.1 criteria, based on investigator assessment.

Results using FFPE tissue specimens

SOLAR-1 showed that in patients whose tumors harbored specific PIK3CA mutations, treatment with PIQRAY plus fulvestrant prolonged median PFS by a clinically meaningful 5.3 months (11 months overall) compared with treatment with placebo plus fulvestrant, and conferred an estimated 35% risk reduction in disease progression or death. Analysis of the CDx PIK3CA mutant-positive patient subset (347 patients) demonstrated that those receiving PIQRAY plus fulvestrant had an estimated 36% lower risk of disease progression or death (HR = 0.64; 95% CI: 0.48, 0.85) than patients receiving placebo plus fulvestrant.

By contrast, PFS was also estimated in the therascreen PIK3CA RGQ PCR Kit-negative population and no PFS benefit was observed in those patients (HR = 0.85; 95% CI: 0.58, 1.25).

The importance of establishing PIK3CA mutation status when identifying patients for treatment with PIQRAY plus fulvestrant is therefore clear; only patients whose tumors harbor actionable PIK3CA mutations are likely to experience a clinically meaningful increase in PFS.

Results using plasma specimens

K2EDTA anticoagulated peripheral venous whole blood clinical plasma specimens collected from breast cancer patients randomized in SOLAR-1 prior to initiation of study treatment (baseline) were tested retrospectively with the therascreen PIK3CA RGQ PCR Kit to evaluate concordance between tissue and plasma results.

Of the 328 therascreen PIK3CA RGQ PCR Kit tissue-positive patients, 179 were therascreen PIK3CA RGQ PCR Kit plasma-positive. Of the 215 therascreen PIK3CA RGQ PCR Kit tissue-negative patients, 209 were therascreen PIK3CA RGQ PCR Kit plasma-negative. There were no invalid plasma results (Table 1).

Table 1. Correspondence table between therascreen PIK3CA RGQ PCR Kit tissue results
and therascreen PIK3CA RGQ PCR Kit plasma results
    therascreen PIK3CA RGQ PCR Kit - tissue
    Positive Negative Invalid Total
therascreen PIK3CA
RGQ PCR Kit
- plasma
Positive 179 6 1 186
Negative 149 209 5 363
Invalid 0 0 0 0
Total 328 215 6 549

Agreement (PPA, NPA and OPA) between the therascreen PIK3CA RGQ PCR Kit plasma and therascreen PIK3CA RGQ PCR Kit tissue results was calculated using the therascreen PIK3CA RGQ PCR Kit tissue results as reference (Table 2). The point estimates of PPA, NPA and OPA were 55%, 97% and 72%, respectively.

Table 2. Agreement between therascreen PIK3CA RGQ PCR Kit plasma results
and therascreen PIK3CA RGQ PCR Kit tissue results using the
therascreen PIK3CA RGQ PCR Kit tissue results as reference
Measure of agreement Percent agreement % (N) Two-sided 95% CI
Positive percent agreement (PPA) 55% (179/328) 49.0%, 60.1%
Negative percent agreement (NPA)* 97% (209/215) 94.0%, 99.0%
Overall percent agreement (OPA) 72% (388/543) 67.5%, 75.2%

Thetherascreen PIK3CA RGQ PCR Kit therefore enables reliable selection of breast cancer patients with PIK3CA alterations who may be eligible for treatment with PIQRAY.

Principle

The therascreen PIK3CA RGQ PCR Kit is comprised of six reaction mixes; one control reaction targeting exon 15 and five mutation-specific reactions utilized to detect 11 mutations in exons 7, 9 and 20 of the PIK3CA gene (Exon 7: C420R; Exon 9: E542K; E545A, E545D [1635G>T only], E545G, E545K, Q546E, Q546R; and Exon 20: H1047L, H1047R, H1047Y). Allele-specific technology allows accurate and highly reproducible detection of mutations; DNA is selectively amplified using ARMS primers, probes and PCR clamps, with sensitive signal detection using the Rotor-Gene Q MDx (US) instrument. Result reporting is fully automated. If both the run controls and the sample results are valid, the therascreen PIK3CA RGQ PCR Kit qualitatively determines the mutation status of the DNA samples and reports if the sample contains a mutation(s).

Procedure

The simple and straightforward testing workflow begins with manual DNA extraction from either FFPE breast tumor tissue (using the QIAamp DSP DNA FFPE Tissue Kit) or from K2EDTA anticoagulated plasma (using the QIAamp DSP Circulating Nucleic Acid Kit), followed by sensitive real-time PCR on the Rotor-Gene Q MDx (US) instrument. Rotor-Gene AssayManager software rapidly and accurately determines mutations and reports results, informing the system operator if one or more of the 11 mutations detected by the kit are present. The kit is a qualitative assay that can yield results in less than two working days.

Applications

The therascreen PIK3CA RGQ PCR Kit enables qualitative detection of 11 mutations in the PIK3CA gene for in vitro diagnostic use. It is an FDA-approved CDx assay to identify patients with cases of breast cancer harboring actionable alterations for whom treatment with PIQRAY (alpelisib) may be appropriate.

Supporting data and figures

Resources

Kit Handbooks (5)
May 2021

For in vitro diagnostic use
Rx only (For prescription use only)
For use with Rotor-Gene® Q MDx (US) instrument
For use with QIAamp® DSP DNA FFPE Tissue Kit
For use with QIAamp® Circulating Nucleic Acid Kit
Brochures & Guides (1)
High-quality, nucleic acid purification for successful PCR and NGS experiments.
Safety Data Sheets (4)
Download Safety Data Sheets for QIAGEN product components.
Download Safety Data Sheets for QIAGEN product components.
Certificates of Analysis (1)

FAQ

Which-reporter-dyes-can-be-combined-for-use-in-multiplex-PCR-on-the-Rotor-Gene-Q-Cycler?
Please refer to section 'Guidelines for effective multiplex assays' under "Important Notes" in the Rotor-Gene Multiplex PCR Handbook for suitable combinations of reporter dyes, or visit our Multiplex real-time PCR Resource site for additional information.
FAQ ID -9028
What reaction volume is suitable for use in the Rotor-Gene Q?

Reaction volumes suitable for use on the Rotor-Gene Q are:

  • Rotor-Disc 100: 30 µl x 100-wells, 10-25 µl reaction volume
  • Rotor-Disc 72: 0.1 ml x 72-wells, 15-25 µl reaction volume
  • Strip Tubes 0.1 ml: 0.1 ml x 72-wells, 10-30 µl reaction volume, strips of 4 tubes and caps
  • PCR Tubes 0.2 ml: 0.2 ml x 36-wells, 15-50 µl reaction volume, individual tubes with caps
FAQ ID -9030
Why is no fluorescence signal detected in my run?

Please make data are collected in the appropriate fluorescent channel. Also check the gain is optimized.

If the issue persists, please send the original run file with extension .rex to QIAGEN Technical Service for further assistance.

FAQ ID -9023
What should I do if the Rotor-Disc OTV run does not pass?

Please send the original OTV run file to QIAGEN Technical Service for further assistance.

FAQ ID -9022
What kind of file is required for hardware-related trouble-shooting?
For hardware related issues, please send the support package to QIAGEN Technical Service. Within the Rotor-gene Q software, click Help and select Send Support Email. In the new window, select the file that relates to the issue and email it to QIAGEN Technical Service.
FAQ ID - 9024
Is regular calibration needed with the Rotor-gene instrument?
QIAGEN recommends the annual inspection service on Rotor-gene instruments, during which all application-critical modules of the Rotor-gene are inspected and tested and an OTV check is conducted. Performed tests and test results are documented in a GMP/GLP-compliant Report. In addition, the end users can perform the temperature calibration in the lab as needed using the Rotor-Disc OTV kit.

Note: The Rotor-Disc OTV kit requires the Rotor-Disc 72 Rotor and Rotor-Disc 72 locking ring.
FAQ ID -9025
What can be used as an alternative to the A260 measurement for quantification of small amounts of RNA and DNA?

Small amounts of RNA and DNA may be difficult to measure spectrophotometrically. Fluorometric measurements, or quantitative RT-PCR and PCR are more sensitive and accurate methods to quantify low amounts of RNA or DNA.

Fluorometric measurements are carried out using nucleic acid binding dyes, such as RiboGreen® RNA Quantitation Reagent for RNA, and PicoGreen® DNA Quantitation Reagent for DNA (Molecular Probes, Inc.).

FAQ ID -728
Can I import a standard curve from a previous PCR run on the Rotor-Gene Q?

Use of endogenous control genes corrects for variation in RNA content, variation in reverse-transcription efficiency, possible RNA degradation or presence of inhibitors in the RNA sample, variation in nucleic acid recover, and differences in sample handling. The endogenous control gene ought to have consistent expression levels between samples and among treatment conditions, and ideally has a similar expression level to that of the genes of interest. Genes commonly used as references can be found at the QuantiTect Primer Assays as endogenous controls.

FAQ ID -9027
Must I fill blank positions with empty tubes when running sample numbers lower than the rotor capacity of the Rotor Gene Q?
Yes, all empty positions in the rotor of the Rotor-Gene Q have to be filled with empty tubes. This guarantees optimal temperature repartition in the Rotor-Gene Q chamber.
FAQ ID -9029