Post on 12-Jun-2020
LUNG CANCER EARLY MOLECULAR ASSESSMENT
KIM MONKHORST WEEK VAN DE PATHOLOGIE 29 MAART
(potentiële) belangenverstrengeling Zie hieronder
Voor bijeenkomst mogelijk relevante
relaties met bedrijvenBedrijfsnamen
Sponsoring of onderzoeksgeld
Honorarium of andere (financiële)
vergoeding
Aandeelhouder
Andere relatie, namelijk …
LEMA: Pfizer, Roche, MSD, Novartis, AstraZenica Pfizer, BMS, Roche, MSD
NVT
NVT
Disclosure belangen spreker
VRAAG 1
• EGFR gemuteerd NSCLC lijkt minder baat te hebben van immunotherapie
• A: juist
• B: onjuist
SPONSORS AND PARTICIPATING CENTERS
SPONSORS
The LEMA project is supported by
PARTICIPATING CENTERS
4
PI: Michel van den Heuvel,
thoraxoncoloog NKI-AVL
DIAGNOSTIC DELAY AND PERFORMANCE STATUS
• If the patients performance score is too poor:
• Some patients are not fit enough for chemotherapy or TKI therapy
• There is not enough time to wait for immunotherapy response (2-3 weeks) >> standard chemotherapy
• The patient cannot be included in clinical trials
• In the NKI-AVL there was a 20-30% dropout / month diagnostic delay
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DAILY PRACTICE PREDICTIVE PROFILING FOR NSCLC
• When a patient presents with stage IV NSCLC
• Predictive analysis >> EGFR, ALK, ROS1 and PD-L1
• Driver >> TKI
• PD-L1 positive (>50%) >> immunotherapy
• Chemotherapy
• Progression:
• Referral to center for clinical trials, ‘compassionate use’ and ‘off label’ drugs
• Biopsy material for additional predictive analysis
• Problems:
• Average time for block to arrive is 7-9 days
• The block is empty or does not contain enough material
• A new biopsy takes 1-2 weeks average time
Rangachari et al. JTO 2017
TPS < 50% TPS > 50%
DAILY PRACTICE PREDICTIVE PROFILING FOR NSCLC
Outpatient
clinic
Waiting
for
block
Molecular
analysis
Not sufficient
tissue >> new
biopsy
Molecular
analysis
Start therapy
5,5 weeks
Start therapy
8 weeks
PREDICTIVE PROFILING FOR NSCLC
• So predictive profiling for NSCLC must be done within an acceptable timeframe
• Also: tissue loss must be minimized
INCIDENCE OF NSCLC
• Most recent IKNL data estimated 9289 new cases of NSCLC in NL in 2016
• Stage at diagnosis:
• Stage I-II: 25%
• Stage III: 25%
• Stage IV: 50%
• Many will eventually develop disseminated disease
• Stage I-II: 44%
• Stage III: 75%
• Stage IV: 100%
• Adding up to a total of well over 7000 patients eligible for systemic treatment each year in the context of stage IV disease
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HYPOTHESIS
MOLECULAR PROFILING
• 15% - 20% have a targetable oncogenic driver mutation
• For example in: EGFR, ALK, ROS1, BRAF, HER2, MET, RET, NTRK-1…
• 1100 – 1500 patients per year could be treated with targeted agents
• Current efficacy of molecular profiling is suboptimal
• EGFR: 70% coverage in stage IV, lower % in lower stages
• ALK: 50% coverage in stage IV, lower % in lower stages
HYPOTHESIS
• Early molecular profiling will improve diagnostic yield and increase the number of patients
receiving proper targeted treatment. Goal: 85% overall coverage of molecular profiling.
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STUDY DESIGN
STUDY POPULATION
• All treatment naïve patients with suspected thoracic malignancy, main interest in NSCLC
• FIRST PART: run-in period of half a year in which molecular profiling is performed as is
currently standard of care
• SECOND PART: comprehensive upfront profiling according to local standards
• 1300 patients total, expected duration 1,5-2 years
TISSUE BASED MOLECULAR ANALYSIS
• Tumor biopsy at baseline and at progression
BLOOD BASED MOLECULAR ANALYSIS
• Blood sampling and ctDNA analysis dependent therapy
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Tumour biopsy
Blood sample (‘Liquid
biopsy’)
Diagnostics1st Line Treatment
not targeted/immunoFollow
Up
Start of treatment Progression
2nd Line Treatment
not targeted/immunoFollow
Up
Informed Consent
STUDY DESIGN
Diagnostics1st Line Treatment
targeted or immunoFollow
Up
Start of treatment Progression
2nd Line Treatment
targeted or immunoFollow
Up
3 month interval
Diagnostics1st Line Treatment
not targeted/immunoFollow
Up
Start of treatment Progression
2nd Line Treatment
targeted/immunoFollow
Up
3 month interval
TISSUE LOSS MUST BE MINIMIZED
• All biopsies in a separate cassette
• They are superficially cut for first H&E
• If possible cut all slides at once
• Only necessary immunohistochemistry (TTF1 / P63)
PREDICTIVE PROFILING FOR NSCLC
Target Technique
KRAS, EGFR, HER2, BRAF, MET
amplification, MET exon 14 skipping
NGS, other validated techniques
ALK, ROS1 (NTRK) Immunohistochemistry / FISH
RET (MET amplification) FISH
MET exon 14 skipping One Step RT PCR @ NKI-AVL
PD-L1 22C3 (Agilent) and SP142 (Roche)
TISSUE BASED ANALYSIS
TUMOR BIOPSIES
17
18
TISSUE BASED ANALYSIS
TUMOR BIOPSIES
BLOOD BASED ANALYSIS
LIQUID BIOPSIES
19
Costs old – Costs new
Effects old – Effects new
Incremental Cost-Effectiveness Ratio = (ICER)
Acceptance of «upfront molecular profiling» if:ICER < Maximum willingness to pay (€80,000/QALY)
Effects: Costs include e.g.:
-survival(life years) -chemotherapy/targeted therapy/immunotherapy,
-QoL (QALY) -diagnostic work-up (including molecular profiling)
-Treatment of adverse events, follow-up visits
-palliative care
(calculated over the total trajectory from diagnosis until death, including all switches)
COST-EFFECTIVENESS
PRIMARY AND SECONDARY ENDPOINTS
• PRIMARY ENDPOINT:
• percentage of patients with EGFR mutation or ALK translocation
• SECUNDARY ENDPOINTS:
• Percentage of patients with a predefined actionable genetic alteration
• How does liquid biopsy perform in different stages of disease
• Influence of the liquid biopsies on the diagnostic yield
• Cost effect evaluation
• To explore the reasons for insufficient tumor material available for molecular profiling
• To explore the epidemiology of the PD-L1 biomarker expression in all stages of NSCLC
• To explore the epidemiology of MET exon 14 skipping in all stages of NSCLC
TIMELINE ENROLMENT
22
22
DETECTION OF ROS1 GENE REARRANGEMENT IN LUNG
ADENOCARCINOMA
• ROS1 (D4D6) rabbit monoclonal (Cell Signaling Technology, Danvers, MA, USA)
• Conclusion: IHC is a reliable and rapid screening tool in routine pathologic laboratories for the identification of suitable
candidates for ROS1-targeted therapy.
• ROS1 IHC is highly sensitive, but less specific compared with ALK IHC for detection of the corresponding rearrangement.
ROS1 IHC-reactive tumors, especially when the tumor is stained with moderate to strong intensity or a diffuse pattern, are
recommended to undergo FISH to confirm the gene rearrangement.
KNOWN PD-L1 DIAGNOSTIC ASSAYS DIFFER IN MANY KEY ASPECTS
CLIA, Clinical Laboratory Improvement Amendments; EQA, external quality assessment; IC, immune cell; NSCLC, non-small cell lung cancer; PD-1, programmed cell death-1; PD-L1, programmed cell death ligand-1; SCCHN, squamous cell carcinoma of the head and neck; TC, tumour cell; TM, tumour membrane; UC, urothelial carcinoma
1. http://www.accessdata.fda.gov/cdrh_docs/pdf15/P150013c.pdf (accessed 18Aug2016);
2. http://www.accessdata.fda.gov/cdrh_docs/pdf15/P150025c.pdf (accessed 18Aug 2016);
3 http://productlibrary.ventanamed.com/ventana_portal/OpenOverlayServlet?launchIndex=1&objectI
=790-49051014247US (accessed 18Aug2016);
4. Rebellato, MC, et al. J ClinOncol 2015;33(15_Suppl.):8033 (abstr);
5. http://www.accessdata.fda.gov/cdrh_docs/pdf16/P160002c.pdf (accessesd18Aug2016)
Many labs will
develop their own
PD-L1 assay with a
commercially
available clone
CLIA/EQA
schemes offer the
sole oversight of the
quality of these
tests. These assays
are laboratory-
developed tests
Lead asset Pembrolizumab
KEYTRUDA
(anti-PD-1)1
Nivolumab
OPDIVO
(anti-PD-1)2
Durvalumab
(anti-PD-L1)3
Atezolizumab
TECENTRIQ
(anti-PD-L1)5
Diagnostic partner Dako Dako Ventana Ventana
PD-L1 antibody clone 22C3 28–8 SP263 SP142
Machines utilised Link 48 Link 48 BenchMark ULTRA BenchMark ULTRA
Compartment TM TM TM TC/IC
Variables % of cells % of cells % of cells % of cells
Cut-off used for patient
subgroups
Strong(+): ≥50% >1% TC PD-L1(high): ≥25%4 ≥5% IC
Diagnostic type Companion diagnostic in
NSCLC
Complementary
diagnostic in NSCLC
Companion diagnostic in
NSCLC, SCCHN and
UC
Complementary
diagnostic in UC1
Regulatory status Launched Launched Not yet launched Launched
RESULTS FROM BLUEPRINT DEMONSTRATE
CONCORDANCE BETWEEN THREE ASSAYS WITH
RESPECT TO TC STAINING
Three assays (22C3, 28–8, SP263)
demonstrate similar analytical
performance with respect to percentage
of TC positive, and dynamic range
• SP142 consistently labels fewer TC
AZ, AstraZeneca; BMS, Bristol-Myers Squibb; TC, tumour cell Hirsch FR, et al. Oral presentation at AACR 2016b.
Data points represent the mean score from three
pathologists for each assay on each case.
Superimposed lines/points indicate identical TC scores.
No clinical diagnostic cut-off appliedT
um
our
stai
nin
g (
%)
0
10
20
30
40
50
60
70
80
90
100
% T
um
or
Sta
inin
g
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39
Cases
SP263SP14228-822C3
Mean tumour cell score per case, based on three readers
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39
0
10
20
30
40
50
60
70
80
90
100
Cases
22C3 (Merck)
28–8 (BMS)
SP142 (Roche)
SP263 (AZ)
THE NSCLC CONCORDANCE STUDY SHOWED CORRELATION BETWEEN
THE THREE ASSAYS EXAMINED
The Ventana SP142 assay was not commercially available at the time of the study and was therefore not included.
AZ, AstraZeneca; BMS, Bristol-Myers Squibb; NSCLC, non-small cell lung cancer
Figure created using source data in Figure 2 of
Ratcliffe MJ, et al. Poster presentation at AACR 2016 (Abstract LB-094)
Marianne Ratcliffe personal communication.
22C3 (Merck)
28–8 (BMS)
SP263 (AZ)
0 100 200 300 400 500
0
10
20
30
40
50
60
70
80
90
100
Tum
our
stai
nin
g (
%)
Case rank
PD-L1 IMMUNOHISTOCHEMISTRY
• All sites are trained for the PD-L1 22C3 and the PD-L1 SP142 antibody
• UMCG developed a LDT IHC protocol for the 22C3 antibody on the Ventana BenchMark Ultra
• The 22C3 antibody concentrate will be validated using a TMA
• Trained pathologists score a digital image of 22C3 stained NSCLC TMA at the start of the study and 9 months and 18
months for quality control
• 18 participating sites
• Currently open for inclusion:
1. NKI
2. Erasmus
3. UMCU
4. Meander MC
5. VUMC
6. Radboud
7. LUMC
8. ETZ
9. Franciscus
10. NWZ
CPCT: SINCE STUDY LAUNCH IN SEPTEMBER 2016
The DRUP trial
Conclusion Acknowledgements
The DRUP trial
13 STUDY DRUGS AVAILABLE, 6 MORE EXPECTED SOON
DRUP@NKI.NL
Available Amgen Panitumumab KRAS-BRAF-NRASWT
AstraZeneca Olaparib BRCA 1/2, ATM
Bayer Regorafenib RET, VEGFR1, 2, 3, KIT, PDGFRB, RAF-1, BRAF
BMS Nivolumab MSI or high mutational load
Roche Erlotinib EGFR
Trastuzumab + Pertuzumab HER2
Vemurafenib + Cobimetinib BRAF V600
Vismodegib PTCH1
Novartis Dabrafenib BRAF V600
Nilotinib KIT, ABL1, PDGFRA, PDGFRB
Trametinib BRAF V600, NRAS
Expected BI Afatinib ERBB4, NRG1
Eisai Lenvatinib FGFR1, FGFR2, FGFR3, FGFR4
MSD Pembrolizumab High mutational load
Pfizer Axitinib VEGFR1, 2, 3
Crizotinib ALK, MET exon 14 en MET amplificatie, MST1R, ROS1
Sunitinib CSF1R, FGFR1,2,3, VEGFR1, 2, 3, KIT, PDGFRA, PDGFRB,
RET, VHL
VRAAG 2
• Betreffende de verschillende verkrijgbare PD-L1 antilichamen (22C3, 28.8, SP263 en SP142)
• A: alle zijn uitwisselbaar als predictieve test voor immunotherapy
• B: het PD-L1 antilichaam 22C3 is een complementary diagnostic voor NSCLC
• C: SP263 scoort naast de tumorcellen ook het immuuninfiltraat
• D: alle bovenstaande antwoorden zijn onjuist
ACKNOWLEDGEMENTS
• LEMA
• Michel van den Heuvel
• Robert Schouten (PhD student)
• Irene Schouten (project manager)
• Alle LEMA sites
• AKL AVL
• Daan van den Broek
• Daan Vessies
• MD / CFMPB NKI-AVL
• Maartje Vogel
• Annegien Broeks
• Rianne van der Wiel
36
• PA-klinische studies NKI AVL
• Jan-Nico Ridderbos
• Steven Vanhoutvin (contract
manager klinische trials)
• UMCG LEMA QA PD-L1
• Wim Timens
• Nils ’t Hart
• PD-L1 cursussen
• Milan van Rheenen (MSD)
• Leonie de Visser (Roche diagnostics)
• Valesca Retèl
• Kosten effectiviteits analyse
• Iedereen die ik vergeten ben!