Mainz, Germany, May 15, 2017 / B3C newswire / -- BioNTech Diagnostics GmbH today announced the publication of an international prospective multicenter study that demonstrates the high reproducibility of the MammaTyper® in vitro diagnostic test. MammaTyper® determines the mRNA expression of the St. Gallen Guideline-recommended biomarkers HER2 (ERBB2), ER (ESR1), PR (PGR) and the proliferation marker Ki-67 (MKI67) by reverse transcription quantitative real-time PCR (RT-qPCR). In this study, ten renowned pathology laboratories – Prof. Varga (Zurich), Prof. Lebeau (Lübeck), Prof. Bu (Chengdu, China), Prof. Hartmann (Erlangen), Prof. Penault-Llorca (Clermont-Ferrand), Prof. Symmans (Houston, Texas), Prof. Teng (Hangzhou, China), Prof. von Wasielewski (Hannover), Prof. Bartlett (Ontario, Canada) and Prof. Viale (Milano) – analyzed the same clinical breast cancer tissue samples using the MammaTyper® test. The results were subsequently analyzed for their reproducibility both between the institutes (inter-site) and within each institute (intra-site). The data shows that MammaTyper® provides virtually identical results – independent of the location, the time of day, the instruments used and the operator performing the test (1). "The very precise reproducibility of MammaTyper® compared to immunohistochemistry was shown, especially for the determination of the proliferation marker Ki-67, which is vitally important for the differentiation of luminal breast cancer types and for the prognosis“, explained the head of the study, Prof. Dr. med. Zsuzsanna Varga, University Hospital of Zurich. "The study shows impressively that MammaTyper® has the potential to significantly increase not only the current standards but also the quality of breast cancer diagnostics“, affirms Dr. Sierk Pötting, CEO BioNTech Diagnostics GmbH.
The precise and reliable determination of the four biomarkers HER2 (ERBB2), ER (ESR1), PR (PGR) and Ki-67 (MKI67) is a key parameter that supports breast cancer therapy decisions. Ki-67 is of special interest in this respect, since in patients with luminal tumors, which are ER- and/or PR-positive and HER2-negative, the decision for or against chemotherapy is increasingly made on the basis of the Ki-67 value. The established immunohistochemistry (IHC) method has, however, been subject to review for some time – especially in terms of the reproducibility and comparability of Ki-67 results (2,3).
The recently published study examines whether the MammaTyper® in vitro diagnostic test is able to supply reliable and reproducible results for the mRNA expression of the genes ERBB2, ESR1, PGR and MKI67. Ten internationally recognized pathology laboratories participated in the study, which was subdivided into two arms. In the first study arm, each institute analyzed RNA samples that had been centrally extracted from formalin-fixed paraffin-embedded (FFPE) breast cancer tissue samples. In the second arm, each institute was provided with FFPE tissue sections, from which RNA was locally extracted using the RNXtract® kit, to also take into account a possible variance through the preparation of the samples. On several days, each institute repeatedly examined each of these samples with the MammaTyper®. The reproducibility of the quantitative results for the individual markers both between and within the institutes was calculated by means of variance component analysis and the intra- and inter-class correlation coefficient (ICC). In the process, the ICC reflects the reproducibility of quantitative results over the entire measuring range (4). Furthermore, the agreement of positive/negative marker results and the subtype classification were interpreted on the basis of Fleiss‘Kappa values.
The first study arm examined the comparability of quantitative marker results (40-ΔΔ Cq values) between the ten sites. The total standard deviation of measurements of centrally extracted samples was merely 0.29 Cq for ERBB2, 0.44 Cq for ESR1, 0.18 Cq for PGR and 0.29 Cq for MKI67. Agreement of the four markers in locally extracted samples was similarly high. The mean deviations of individual markers over all samples at one site were close to zero, with values between -0.22 and 0.31 (1). Within the laboratories, ICC values of the quantitative determination of all markers ranged from 0.976 to 0.996, and across locations from 0.980 to 0.998, which demonstrates excellent precision of the quantitative determination.
Inter-site reproducibility of the positive/negative marker results was also correspondingly high – with Kappa values of 1.00, 0.91, 0.94 and 0.94 for ERBB2, ESR1, PGR and MKI67. The resulting subtype definition was virtually identical, with a Kappa value of 0.90 at the ten sites (1).
In contrast, IHC in comparable studies for Ki-67 only reaches an ICC value of 0.71 across the sites with local staining (2). Even with centralized staining, the IHC inter-site ICC values were similar – between 0.40 and 0.74, with Kappa values from 0.29 to 0.58 (5).
"The study proves the outstanding reproducibility of MammaTyper®. Thus, MammaTyper® has the potential to improve significantly the quality and reliability of breast cancer diagnostics“, Prof. Varga sums up.
The newly published data support the already published studies, which had substantiated the analytical precision of MammaTyper® and its high reproducibility compared to the established IHC method (6,7).
MammaTyper® is a molecular in vitro diagnostic test for quantitative detection of the mRNA expression status of the genes ERBB2 (HER2), ESR1 (ER), PGR (PR) and of MKI67 (proliferation marker Ki-67) in the tumour tissue of female patients with newly diagnosed invasive breast cancer. The test has been validated for total RNA extracted from tissue specimens or biopsies.
MammaTyper® is used for molecular subtyping of breast cancer tissue according to the St Gallen classification (2013) in luminal A-like, luminal B-like (HER2 negative), luminal B-like (HER2 positive), HER2 positive (non-luminal) and triple negative (ductal) tumours, and offers together with further clinical pathological factors the possibility of significantly improving the diagnostic and the treatment of female patients with breast cancer. The test can be carried out in any pathology laboratory. MammaTyper® can be used on all female patients with newly diagnosed invasive breast cancer and provides the results on the same day. With MammaTyper®, BioNTech underlines its commitment to making personalized medicine generally available in the field of cancer treatment.
About BioNTech Group
BioNTech Group, consisting of BioNTech AG and its subsidiaries, is an immunotherapy leader with bench-to-market capabilities, developing truly personalized, well-tolerated and potent treatments for cancer and other diseases. Established by clinicians and scientists the Group is pioneering disruptive technologies ranging from individualized mRNA based medicines through innovative Chimeric Antigen Receptors /T-cell Receptor-based products and novel antibody checkpoint immunomodulators. BioNTech’s clinical programs are supported by an in-house molecular diagnostics unit whose products include MammaTyper® a molecular in-vitro diagnostic kit, marketed as IVD under CE marking in the European Union (and Switzerland) and in certain other countries. Founded in 2008, BioNTech is privately held, with Strüngmann Family Office as a majority shareholder, having closed the largest initial financing in the European biopharma sector’s history.
About BioNTech Diagnostics GmbH
BioNTech Diagnostics is a fully-owned subsidiary company of BioNTech AG. The ISO 9001/13485 certified company has extensive product and service offerings ranging from biomarker discovery and validation through molecular screening assays, patient stratification and companion diagnostics to clinical monitoring, all to international regulatory standards. Early detection of diseases that have a high mortality rate and the appropriate selection of therapies are crucial for a successful treatment of patients. BioNTech Diagnostics’ mission is to provide new and innovative diagnostic tests to extend lives of patients, improve their quality of life and support the use of appropriate therapy for each individual patient.
BioNTech Diagnostics GmbH
Dr. Gerd Hempel
COMMPartners GmbH Co. KG
- Varga Z et al.; An international reproducibility study validating quantitative determination of ERBB2, ESR1, PGR, and MKI67 mRNA in breast cancer using MammaTyper®. Varga et al. Breast Cancer Research (2017) 19:55 DOI 10.1186/s13058-017-0848-z
- Polley MC et al.;An international study to increase concordance in Ki67 scoring. Modern Pathology 2015: 28, 778-786.
- Varga Z et al.; How reliable is Ki-67 immunohistochemistry in grade 2 breast carcinomas? A QA study of the Swiss Working Group of Breast- and Gynecopathologists. PLoS ONE 2012; 7(5):e37379.
- Kirkegaard T et al.; Observer variation in immunohistochemical analysis of protein expression, time for a change? Histopathology 2006; 48(7):787–94.
- Varga Z et al.: Standardization for Ki-67 assessment in moderately differentiated breast cancer. A retrospective analysis of the SAKK 28/12 study. PLoS ONE 2015; 10:e0123435
- Wirtz Ralph M et al.: Biological subtyping of early breast cancer: a study comparing RT-qPCR with immunohistochemistry. Breast Cancer Res Treat (2016); 157(3):437-446.
- Laible M et al.: Technical validation of an RT-qPCR in vitro diagnostic test system for the determination of breast cancer molecular subtypes by quantification of ERBB2, ESR1, PGR and MKI67 mRNA levels from formalin-fixed paraffin-embedded breast tumor specimens. BMC Cancer 2016; DOI: 10.1186/s12885-016-2476-x (Published online 07 July 2016).