Détection de la mutation T790M de l'exon 20 du gène EGFR dans le cancer du poumon résistant aux inhibiteurs de l'EGFR sur ADN tumoral circulant (biopsie liquide) / Circulating tumour DNA (liquid biopsy)-based EGFR exon 20 T790M mutation detection in advanced non-small cell lung cancer after previous EGFR-directed therapy

DEMANDEUR: Institut universitaire de cardiologie et de pneumologie de Québec Université Laval. OBJECTIF DE L'ANALYSE: L'analyse proposée vise à effectuer la détection de la mutation T790M du gène EGFR (EGFR-T790M) responsable de la résistance aux inhibiteurs de tyrosine kinase (ITK) à partir de l'ADN tumoral circulant d'un patient atteint d'un cancer du poumon non à petites cellules (CPNPC). CONTEXTE DE LA DEMANDE: Approximativement 60 % des patients atteints d'un CPNPC et traités avec un ITK de 1re ou de 2e génération vont développer la mutation de résistance EGFR-T790M et avoir besoin d'un changement thérapeutique. Bien qu'une analyse permettant notamment de détecter cette mutation à partir d'une biopsie tissulaire soit consignée dans le Répertoire québécois et système de mesure des procédures de biologie médicale (ci-après nommé « Répertoire ¼), la présente demande vise à détecter la mutation EGFR-T790M à partir d'échantillons de biopsie liquide, une autre méthode de prélèvement qui permet au patient d'éviter la biopsie tissulaire, les risques qui y sont associés et d'obtenir un changement thérapeutique plus rapidement. NOMBRE D'ANALYSES PRÉVUES: Le demandeur avait originalement prévu que, annuellement, entre 160 et 250 tests seraient nécessaires pour servir la population locale et 2 000 pour l'ensemble du Québec. Or, l'inscription de l'osimertinib en 1re intention de traitement des CPNPC avec mutations activatrices de l'EGFR entraîne une réduction importante du nombre de patients dont l'état nécessitera éventuellement une détection de la mutation EGFRT790M par biopsie liquide selon l'utilisation prévue par le demandeur. Les données de la RAMQ ont révélé que quelques patients continuent de recevoir des ITK de 1re et de 2e génération et sont susceptibles de tirer avantage de cette analyse. MÉTHODOLOGIE: La démarche d'évaluation comprend une revue rapide de la littérature scientifique et grise de même que des consultations menées auprès d'experts et d'autres parties prenantes. Un rapport d'évaluation portant sur la pertinence de recourir à la biopsie liquide dans le même contexte que la présente demande a été publié par Health Quality Ontario (HQO) en mars 2020. Ce rapport comporte une évaluation de la performance diagnostique, de l'utilité clinique, de la sécurité, de l'efficience et de l'impact budgétaire de même qu'une analyse des préférences et des valeurs selon la perspective du patient. Le rapport de HQO a été jugé de bonne qualité méthodologique et constitue la principale source de données de la présente évaluation. L'ensemble des données scientifiques, contextuelles et expérientielles a été interprété et apprécié à l'aide d'une grille-synthèse pour guider le processus de délibération du Comité scientifique des analyses de biologie médicale (CSABM). DONNÉES PUBLIÉES: Performance diagnostique: Selon le rapport d'évaluation de Health Quality Ontario publié en 2020, la concordance des résultats d'une détection de la mutation EGFRT790M entre la biopsie liquide et la biopsie tissulaire varierait de 50 % à 96 %. La sensibilité et la spécificité, la valeur prédictive négative (VPN) et la valeur prédictive positive (VPP) sont respectivement de 68 % [46 % - 88 %], 86 % [62 % - 99 %], 61 % et 89 %. L'utilisation de la droplet digital PCR (ddPCR) augmenterait la fréquence de détection positive de la mutation EGFR-T790M par biopsie liquide. Utilité clinique: HQO n'a repéré aucune donnée sur l'utilisation de la biopsie liquide comme méthode de triage (biopsie liquide + biopsie tissulaire) comparativement à la biopsie tissulaire seule. Toutefois, les études consultées soulignent qu'une fraction des porteurs de la mutation EGFR-T790M (17,8 %) sont identifiés grâce à l'utilisation de la biopsie liquide pour trier les patients résistants aux inhibiteurs des ITK de 1re et 2e génération et pour lesquels la biopsie tissulaire est évitée. En cas de détection de la mutation EGFR-T790M, l'impact sur la prise en charge demeurerait le même quelle que soit la méthode employée car, lorsque la biopsie est positive, le traitement est amorcé. Un gain de survie sans progression de 9,7 mois a été rapporté pour ces deux méthodes. PERSPECTIVE DES PATIENTS: Selon le rapport de HQO, les patients percevraient la biopsie liquide comme une approche plus rapide et plus pratique du fait qu'ils n'auraient pas à attendre plusieurs semaines pour obtenir un rendezvous pour subir une biopsie tissulaire qui pourrait nécessiter un déplacement vers un centre spécialisé plus éloigné. Ils auraient aussi exprimé de la peur et même de la panique relativement au processus de prélèvement de l'échantillon tissulaire qui nécessite une aiguille de gros calibre. POSITIONS ET ORIENTATIONS D'ORGANISMES D'INTÉRÊ: Le National Comprehensive Cancer Network (NCCN) et plusieurs comités d'experts ont recommandé l'utilisation de la biopsie liquide chez un patient qui est médicalement incapable de supporter l'échantillonnage effractif que requiert la biopsie tissulaire. L'ensemble des sociétés savantes recommandent l'utilisation de la biopsie tissulaire lorsque le résultat de la biopsie liquide est négatif. Toutefois, ils soulignent que la biopsie liquide ne devrait pas remplacer la biopsie tissulaire. En revanche, un résultat positif de la biopsie liquide devrait obtenir la même attention qu'un résultat positif de la biopsie tissulaire. ÉVALUATION ÉCONOMIQUE: La biopsie liquide comme méthode de triage est moins coûteuse et plus efficace que la biopsie tissulaire pour détecter la mutation EGFRT790M. Toutefois, lorsqu'on tient compte des avantages cliniques et des coûts liés à l'usage des traitements subséquents, le ratio coûtutilité incrémental est élevé, en raison notamment de l'inefficience de l'osimertinib. Depuis l'inscription aux listes des médicaments de l'osimertinib comme traitement de 1re intention, la population admissible à une biopsie liquide décroît continuellement. Le nombre actuel de personnes qui recevraient des ITK de 1re et 2e génération a été estimé à 32 selon les données de la RAMQ et à 40 en incluant les patients couverts par une assurance privée. Ces analyses estiment les économies de laboratoire à 460 $, mais elles anticipent que 5 patients supplémentaires pourraient recevoir l'osimertinib pour un impact budgétaire net d'environ 537 000 $ au cours des trois prochaines années. POSITION DES EXPERTS CONSULTÉS: Les experts consultés sont favorables à l'utilisation de la biopsie liquide dans le contexte décrit par le demandeur. Ils n'ont pas soulevé d'enjeu en particulier en dehors de la pertinence restreinte de cette analyse étant donné l'inscription récente du traitement osimertinib en 1re intention. L'émergence rapide de nombreuses indications de la biopsie liquide serait imminente et constituerait une révolution technologique et oncologique. ENJEUX PARTICULIERS: Au Québec, l'analyse est principalement employée en contexte de recherche. Des enjeux éthiques et cliniques liés à la biopsie liquide tels que la présence de faux négatifs en raison d'une sensibilité plus faible et la nécessité d'évaluer la survie globale des patients atteints de CPNPC en appliquant cette technique ont également été rapportés dans la littérature. RECOMMANDATION: Suivant une délibération par les membres du CSABM sur l'ensemble de la preuve, y compris la perspective des experts consultés, l'INESSS recommande d'introduire la détection de la mutation EGFR-T790M sur ADN tumoral circulant au Répertoire.

REQUESTER: Institut universitaire de cardiologie et de pneumologie de QuébecUniversité Laval. PURPOSE OF TEST: The test is designed to detect the EGFR gene T790M mutation (EGFRT790M), which is responsible for resistance to tyrosine kinase inhibitors (TKIs), in circulating tumour DNA in non-small cell lung cancer (NSCLC) patients. BACKGROUND TO THE REQUEST: Approximately 60% of NSCLC patients treated with a 1st- or 2ndgeneration TKI will develop the EGFR-T790M resistance mutation and require a change in therapy. Although a test used to detect this mutation from a tissue biopsy is listed in the Répertoire québécois et système de mesure des procédures de biologie médicale (hereinafter the "Répertoire"), the present request concerns the detection of the EGFRT790M mutation in samples obtained by liquid biopsy, an alternative specimen collection method that enables the patient to avoid a tissue biopsy and the associated risks, and to obtain a change in therapy more quickly. EXPECTED NUMBER OF TESTS: The requester had originally anticipated that between 160 and 250 tests would be required annually to serve the local population and 2000 for all of Québec. However, the listing of osimertinib as a 1st-line therapy for NSCLC with EGFR-activating mutations is resulting in a significant reduction in the number of patients who will possibly require EGFRT790M mutation testing by liquid biopsy, based on the use anticipated by the requester. RAMQ data show that a few patients continue to receive 1st- or 2nd-generation TKIs and are likely to benefit from this test. METHODOLOGY: The assessment process included a rapid review of the scientific and grey literature, and consultations with experts and other stakeholders. An assessment report on the relevance of using liquid biopsy in the same context as this request was published by Health Quality Ontario (HQO) in March 2020. The report includes an assessment of its diagnostic performance, clinical utility, safety, cost-effectiveness and budget impact, and an assessment of patient preferences and values. The HQO report was deemed to be of good methodological quality and is the main source of data for the present assessment. All the scientific, contextual and experiential data were interpreted and assessed using a synthesis grid to guide the Comité scientifique des analyses de biologie médicale (CSABM)'s deliberation process. PUBLISHED DATA: Diagnostic performance: According to the Health Quality Ontario assessment report published in 2020, the concordance rate for EGFR-T790M mutation detection results between liquid biopsy and tissue biopsy ranges from 50% to 96%. The sensitivity and specificity, negative predictive value (NPV) and positive predictive value (PPV) are 68% [46%-88%], 86% [62%-99%], 61% and 89%, respectively. The use of droplet digital PCR (ddPCR) appears to increase the rate of positive detection of the EGFR-T790M mutation by liquid biopsy. Clinical utility: HQO did not find any data on the use of liquid biopsy as a triage test (liquid biopsy + tissue biopsy) versus tissue biopsy alone. However, the studies examined note that a proportion of EGFR-T790M mutation carriers (17.8%) are identified through the use of liquid biopsy to detect 1st- or 2nd-generation TKI-resistant patients, who thus avoid a tissue biopsy. If the EGFR-T790M mutation is detected, the impact on management would remain the same, regardless of the method used, because when the biopsy is positive, treatment is initiated. A 9.7-month gain in progression-free survival was reported for both methods. PATIENT PERSPECTIVE: According to the HQO report, patients perceived liquid biopsy as a faster and more convenient approach because they would not have to wait several weeks to get an appointment for a tissue biopsy, which could require a trip to a specialized centre that might be further away. They also expressed fear and even panic about the tissue sample collection procedure, in which a large-gauge needle is used. POSITIONS AND PERSPECTIVES OF ORGANIZATIONS OF INTEREST: The National Comprehensive Cancer Network (NCCN) and a number of expert panels have recommended the use of liquid biopsy in patients who are medically unable to tolerate the invasive specimen collection involved in a tissue biopsy. All the learned societies recommend the use of tissue biopsy when the liquid biopsy result is negative. However, they stress that liquid biopsy should not replace tissue biopsy. In any event, a positive liquid biopsy result should be given the same attention as a positive tissue biopsy result. ECONOMIC EVALUATION: Liquid biopsy as a triage test is less expensive and more effective than tissue biopsy in detecting the EGFR-T790M mutation. However, when the clinical benefits and costs of the subsequent treatments are factored. in, the incremental cost-utility ratio is high, in part because of osimertinib's non-cost-effectiveness. Since the listing of this drug as a 1st-line therapy in the formularies, the liquid biopsy-eligible population has been steadily decreasing. The current number of people receiving 1st- or 2nd-generation TKIs was estimated to be 32, based on RAMQ data, and 40 if patients with private insurance are included. These analyses estimate the laboratory savings at $460, but they anticipate that 5 additional patients could receive osimertinib, for a net budget impact of approximately $537,000 over the next 3 years. POSITION OF THE EXPERTS CONSULTED: The experts consulted support the use of liquid biopsy in the context defined by the requester. They did not raise any specific issues, apart from the limited relevance of this test, given the recent listing of osimertinib as a 1st-line therapy. The rapid emergence of a large number of indications for liquid biopsy appears to be imminent and would constitute a technological and oncologic revolution. SPECIFIC ISSUES: In Québec, liquid biopsy is used primarily in research settings. Ethical and clinical issues associated with this test, such as false negatives due to lower sensitivity and the need to assess overall survival in NSCLC patients in whom this technique is used, have also been reported in the literature. RECOMMENDATION: Based on the deliberation, by the CSABM's members, of all the evidence, including the perspective of the experts consulted, INESSS recommends that circulating tumour DNA-based EGFR-T790M mutation detection be included in the Répertoire

dPCR application in liquid biopsies: divide and conquer.

Introduction: Precision medicine is already a reality in oncology, since biomarker-driven therapies have clearly improved patient survival. Furthermore, a new, minimally invasive strategy termed 'liquid biopsy' (LB) has revolutionized the field by allowing comprehensive cancer genomic profiling through the analysis of circulating tumor DNA (ctDNA). However, its detection requires extremely sensitive and efficient technologies. A powerful molecular tool based on the principle of 'divide and conquer' has emerged to solve this problem. Thus, digital PCR (dPCR) allows absolute and accurate quantification of target molecules.Areas covered: In this review we will discuss the fundamentals of dPCR and the most common approaches used for partition of samples and quantification. The advantages and limitations of dPCR will be mentioned in the context of LB in oncology.Expert opinion: In our opinion, dPCR has proven to be one of the most sensitive methods available for LB analysis, albeit some aspects such as its capacity of multiplexing and protocol standardization still require further improvements. Furthermore, the increasing sensitivities and lower costs of next generation sequencing (NGS) methods position dPCR as a confirmatory and complementary technique for NGS results which will likely prove to be very useful for treatment monitoring and assessing minimal residual disease.

10-Plex Digital Polymerase Chain Reaction with Four-Color Melting Curve Analysis for Simultaneous KRAS and BRAF Genotyping.

Digital PCR (dPCR) is a promising method for performing liquid biopsies that quantifies nucleic acids more sensitively than real-time PCR. However, dPCR shows large fluctuations in the fluorescence intensity of droplets or wells due to insufficient PCR amplification in the small partitions, limiting the multiplexing capability of using the fluorescence intensity. In this study, we propose a measurement method that combines dPCR with melting curve analysis for highly multiplexed genotyping. A sample was digitized into a silicon chip with up to 2 × 104 wells in which asymmetric PCR was performed to obtain more single-stranded amplicons that were complementary to molecular beacon probes. Fluorescence images were captured while controlling the temperature of the chip, and the melting curve was measured for each well. Then, genotyping was performed by using the fluorescence intensity, the dye color of the probe, and the melting temperature (Tm). Because the Tm of the PCR products is not highly dependent on the amplification efficiency of PCR, genotyping accuracy is improved by using Tm values, enabling highly multiplexed genotyping. The concept was confirmed by simultaneously identifying wild-type KRAS, BRAF, and eight mutants of these genes (G12D, G12R, G12V, G13D, G12A, G12C, G12S, and V600E) through four-color melting curve analysis. To the best of our knowledge, this is the first demonstration of the genotyping of 10 DNA groups including single mutations of cancer-related genes by combining dPCR with four-color melting curve analysis.

MicroRNAs As Master Regulators of Atherosclerosis: From Pathogenesis to Novel Therapeutic Options.

Significance: Cardiovascular disease (CVD) remains the major cause of morbidity and mortality worldwide. Accumulating evidence indicates that atherosclerosis and its sequelae, coronary artery disease, contribute to the majority of cardiovascular deaths. Atherosclerosis is a chronic inflammatory disease of the arteries in which atherosclerotic plaques form within the vessel wall. Epidemiological studies have identified various risk factors for atherosclerosis, such as diabetes, hyperlipidemia, smoking, genetic predisposition, and sedentary lifestyle. Recent Advances: Through the advancement of genetic manipulation techniques and their use in cardiovascular biology, it was shown that small RNAs, especially microRNAs (miRNAs), are dynamic regulators of disease pathogenesis. They are considered to be central during the regulation of gene expression through numerous mechanisms and provide a means to develop biomarkers and therapeutic tools for the diagnosis and therapy of atherosclerosis. Circulating miRNAs encapsulated within membrane-surrounded vesicles, which originate from diverse subcellular compartments, are now emerging as novel regulators of intercellular communication. The miRNAs, in both freely circulating and vesicle-bound forms, represent a valuable tool for diagnosing and monitoring CVD, recently termed as "liquid biopsy." Critical Issues: However, despite the recent advancements in miRNA-based diagnostics and therapeutics, understanding how miRNAs can regulate atherosclerosis is still crucial to achieving an effective intervention and reducing the disease burden. Future Directions: We provide a landscape of the current developmental progression of RNA therapeutics as a holistic approach for treating CVD in different animal models and clinical trials. Future interrogations are warranted for the development of miRNA-based therapeutics to overcome challenges for the treatment of the disease.

Metabolite therapy guided by liquid biopsy proteomics delays retinal neurodegeneration.

BACKGROUND: Neurodegenerative diseases are incurable disorders caused by progressive neuronal cell death. Retinitis pigmentosa (RP) is a blinding neurodegenerative disease that results in photoreceptor death and progresses to the loss of the entire retinal network. We previously found that proteomic analysis of the adjacent vitreous served as way to indirectly biopsy the retina and identify changes in the retinal proteome. METHODS: We analyzed protein expression in liquid vitreous biopsies from autosomal recessive (ar)RP patients with PDE6A mutations and arRP mice with Pde6ɑ mutations. Proteomic analysis of retina and vitreous samples identified molecular pathways affected at the onset of photoreceptor death. Based on affected molecular pathways, arRP mice were treated with a ketogenic diet or metabolites involved in fatty-acid synthesis, oxidative phosphorylation, and the tricarboxylic acid (TCA) cycle. FINDINGS: Dietary supplementation of a single metabolite, ɑ-ketoglutarate, increased docosahexaeonic acid levels, provided neuroprotection, and enhanced visual function in arRP mice. A ketogenic diet delayed photoreceptor cell loss, while vitamin B supplementation had a limited effect. Finally, desorption electrospray ionization mass spectrometry imaging (DESI-MSI) on ɑ-ketoglutarate-treated mice revealed restoration of metabolites that correlated with our proteomic findings: uridine, dihydrouridine, and thymidine (pyrimidine and purine metabolism), glutamine and glutamate (glutamine/glutamate conversion), and succinic and aconitic acid (TCA cycle). INTERPRETATION: This study demonstrates that replenishing TCA cycle metabolites via oral supplementation prolongs retinal function and provides a neuroprotective effect on the photoreceptor cells and inner retinal network. FUNDING: NIH grants [R01EY026682, R01EY024665, R01EY025225, R01EY024698, R21AG050437, P30EY026877, 5P30EY019007, R01EY018213, F30EYE027986, T32GM007337, 5P30CA013696], NSF grant CHE-1734082.

Therapeutic management of neuro-oncologic patients - potential relevance of CSF liquid biopsy.

Background: In the era of precision medicine, cancer treatment is increasingly tailored according to tumor-specific genomic alterations. The analysis of tumor-derived circulating nucleic acids in cerebrospinal fluid (CSF) by next generation sequencing (NGS) may facilitate precision medicine in the field of CNS cancer. We therefore evaluated whether NGS from CSF of neuro-oncologic patients reliably detects tumor-specific genomic alterations and whether this may help to guide the management of patients with CNS cancer in clinical practice. Patient and methods: CSF samples from 27 patients with various primary and secondary CNS malignancies were collected and evaluated by NGS using a targeted, amplicon-based NGS-panel (Oncomine Focus Assay). All cases were discussed within the framework of a molecular tumor board at the Comprehensive Cancer Center Munich. Results: NGS was technically successful in 23/27 patients (85%). Genomic alterations were detectable in 20/27 patients (74%), 11/27 (40%) of which were potentially actionable. After discussion in the MTB, a change of therapeutic management was recommended in 7/27 (26%) of the cases. However, due to rapid clinical progression, only 4/27 (15%) of the patients were treated according to the recommendation. In a subset of patients (6/27, 22%), a high number of mutations of unknown significance suggestive of a high tumor mutational burden (TMB) were detected. Conclusions: NGS from cerebrospinal fluid is feasible in routine clinical practice and yields therapeutically relevant alterations in a large subset of patients. Integration of this approach into a precision cancer medicine program might help to improve therapeutic options for patients with CNS cancer.

Concordance between Comprehensive Cancer Genome Profiling in Plasma and Tumor Specimens.

INTRODUCTION: Detection of somatic genomic alterations in the plasma of patients with cancer ("liquid biopsy") are increasingly being used in the clinic. However, the concordance of alterations identified in liquid biopsies with those detected in cancer specimens is not routinely being determined. METHODS: We sought to systematically compare alterations found by a massively parallel sequencing liquid biopsy assay covering 39 genes (NEOliquid [NEO New Oncology GmbH, Köln, Germany]) with those identified through routine diagnostic testing in a certified central pathology laboratory in a cohort of patients with nonsquamous NSCLC. NEOliquid is based on enrichment of the genomic territory of interest by hybrid capture and is thus capable of detecting point mutations, small insertions and deletions, copy number alterations, and gene rearrangements/fusions in a single assay. RESULTS: In a cohort of 82 patients with matched blood/tissue samples, the concordance between NEOliquid and tissue-based routine testing was 98%, the sensitivity of NEOliquid was higher than 70%, and the specificity was 100%. Discordant cases included those with insufficient amounts of circulaating tumor DNA in plasma and cases in which known driver mutations (e.g., isocitrate dehydrogenase (NADP(+)), 1 systolic gene [IDH1] R132H, kinesin family member 5B gene [KIF5b-ret proto-oncogene [RET], or MNNG HOS Transforming gene [MET] exon 14) were found in the plasma but were not interrogated by routine tissue analyses. CONCLUSIONS: In summary, NEOliquid offers accurate and reliable detection of clinically relevant driver alterations in plasma of patients with cancer.