Page 2 – SeqOne Genomics

SeqOne Genomics and the French Thrombotic MicroAngiopathies National reference center (CNR-MAT) pioneer the use of Oxford Nanopore sequencing technology to improve patient outcomes in kidney disease while reducing turnaround times

9 February 2023 by JM Holder

Montpellier, February 9^th, 2023: SeqOne today announced the results of a long-standing research collaboration with Pr. Laurent Mesnard, Co-Director of the French National center for Thrombotic MicroAngiopathies (CNR-MAT), aimed at improving the diagnosis and management of patients suspected of suffering from thrombotic microangiopathies and atypical Hemolytic syndrome (aHUS). The program involved using Oxford Nanopore’s revolutionary technology to sequence patients at the bedside, dramatically reducing turnaround times to obtaining actionable insights. Patients were sequenced using Oxford Nanopore’s adaptive sampling option that makes it possible to target the parts of the genome of interesr for thrombotic microangiopathies (TMAs) and modify the read-depth to explore in detail the regions that contain complex mutations that are hard to detect using standard methods. This Oxford Nanopore-based analysis was compared with traditional short read sequencing approaches in order to establish a benchmark against current standards of care and hence quantify benefits of nanopore sequencing. So far, the program, has analyzed 15 patients demonstrating the potential of the approach and highlighting the following benefits when compared with short-read sequencing;

Significantly faster turnaround times of under three days from sample collection to clinical report versus 3-4 week turnaround using outsourced short read sequencing
Reliable detection of complex variants such as those affecting alternative complement pathways that are often duplicated
Detection of certain types of variants, notably CFH:CFHR1 hybrid gene mutations that cannot be detected using traditional short-read technology
A clear indication of those patients who will respond to one of the drugs that have proven effective in treating this disease; vitamin B12 in Cobalamin III deficiency or Eculizumab in case of complement alternate pathway dysregulation associated aHUS.

TMAs, such as aHUS, are rare diseases primarily affecting the kidney. They are hard to diagnose using traditional methods as they present as a number of nonspecific symptoms, such as severe hypertension, acute kidney injury/failure in the context of mechanical anemia and thrombocytopenia. TMAs lesions can be associated with many diseases and some genetic disorders linked to aHUS. Molecular diagnoses, in particular in genes associated with alternative complement pathway regulation, make it possible to identify patients that suffer from this condition as well as informing on possible therapeutic options for TMA/aHUS.

“It is clear that a cost effective, rapid technology that can sequence long fragments of DNA, such as those provided by Oxford Nanopore and a robust interpretation solution such as SeqOne are necessary to extract the full potential of third generation sequencing technology in nephrology and aHUS” said Pr. Laurent Mesnard, the PI heading the study.

In order to support the program, SeqOne implemented an Oxford Nanopore compatible long-read support capable of managing adaptive sampling data. SeqOne is a CE-IVD compliant platform that simplifies the analysis and interpretation of the data enabling the rapid interpretation of patient files which in turn maximizes efficiencies and enables management of higher caseloads.

“SeqOne is convinced both of the clinical potential of Oxford Nanopore’s technology as well as the benefits of bedside sequencing enabled by Oxford Nanopore’s hyper-cost-effective sequencing solutions” said Nicolas Philippe, CEO of SeqOne. “We are investing heavily to provide the best interpretation solution for the data provided in support of this exciting initiative”.

“We are delighted to be part of this research project and to see the potential of nanopore sequencing in nephrology and TMA/aHUS. The technology offers the chance to improve outcomes with significantly faster turnaround times and the ability to identify complex variants.” Commented Dr Emma Stanton, VP Clinical, Oxford Nanopore Technologies.

On the basis of this successful program, SeqOne and CNR-MAT now plan to extend its investigation of the use of nanopore sequencing technology to qualify further patients eligible to actionable (Vitamin B12, Eculizumab) therapy as well as to investigate the impact of other variant types in patient prognosis during TMA/aHUS.

– Ends –

About SeqOne Genomics

SeqOne Genomics offers high-performance genomic analysis solutions for healthcare providers treating patients suffering from cancer, rare and hereditary diseases as well as pharmaceutical companies developing new therapies. The solution supports both short read and long-read nanopore sequencing and leverages advanced machine learning coupled with the company’s proprietary genomics operating system to dramatically reduce turnaround times and costs while delivering comprehensive and actionable insights for personalized medicine. The company has won numerous awards including the iLab award and the ARC cancer foundation’s Hélène Stark prize. Investors include Elaia, IRDI Capital Investissement, Merieux Equity Partners, Omnes and Software Club.

Web: https://seqone.com

SeqOne Contacts:

Annie-Florence Loyer – afloyer@newcap.fr / +33 6 88 20 3559
Jean-Marc Holder – jm.holder@seqone.com / + 33 6 03 24 5756

About the French Thrombotic Microangiopathies National reference centre (CNR-MAT)

The Thrombotic Microangiopathies National reference centre (CNR-MAT) is a research network focused on the study of thrombotic microangiopathies (MAT) and associated rare diseases. It was recognized 2006 as a national reference center for France under the stewardship of Paul Coppo (Hematology department, Saint-Antoine Hospital and Sorbonne-University) in Paris. The missions of the CNR-MAT are to promote clinical and basic research in the field of thrombotic microangiopathies through innovative medical approaches, as well as to inform practitioners, patients and all actors involved in the management of these diseases. The CNR-MAT coordinates the healthcare establishments treating patients suffering from these pathologies in France.

Web: https://www.cnr-mat.fr

CNR-MAT Contact:

Raida Bouzid Saadaoui – raida.bouzid-saadaoui@aphp.fr

About Oxford Nanopore Technologies

Oxford Nanopore Technologies’ goal is to bring the widest benefits to society through enabling the analysis of anything, by anyone, anywhere. The company has developed a new generation of nanopore-based sensing technology for real-time, high-performance, accessible and scalable analysis of DNA and RNA. The technology is used in more than 120 countries to understand the biology of humans and diseases such as cancer, plants, animals, bacteria, viruses and whole environments. Oxford Nanopore Technologies products are intended for molecular biology applications and are not intended for diagnostic purposes. https://www.nanopore.com

Oxford Nanopore Technologies contact: media@nanoporetech.com

Forward-looking statements
This announcement contains certain forward-looking statements. Phrases such as “potential”, “expect”, “intend”, “believe we can”, “working to”, “anticipate”, “when validated”, and similar expressions of a future or forward-looking nature should also be considered forward-looking statements. Forward-looking statements address our expected future business, and by definition address matters that are, to different degrees, uncertain and may involve factors beyond our control.

Michael Blum joins SeqOne Genomics to head the company’s Research and Development

12 October 202321 October 2022 by Jean-Marc Holder

Renowned specialist in healthcare data science, he will focus on developing A.I. driven genomic analysis solutions to facilitate personalised medicine in oncology and rare diseases

Montpellier, October 20, 2022 – SeqOne Genomics, today announced that Michael Blum, Ph.D. is joining the company to lead its research and development department. He is tasked with driving SeqOne’s R&D strategy notably in the area of rare diseases and oncology through the use of machine learning and data science.

Michael started his career as a biostatistician and bioinformatician at the CNRS where he developed software solutions that enabled complex genomic data analysis for biologists and clinicians. He then set up the Grenoble Data Institute, a cross-disciplinary research group, to study how digital technology and data could be harnessed to benefit science and society. In 2019, he joined Owkin where, for the past three years, he has developed AI-based solutions to optimize clinical trials.

At SeqOne, Michael will lead scientific research and the development of new genomic analysis solutions to improve the clinical interpretation and diagnosis of cancer and hereditary diseases. Michael Blum has co-authored over 50 scientific publications, many of which are the fruit of international collaborations in the fields of population genomics and genomic medicine.

Michael holds an engineering degree from Grenoble INP, a PhD in applied mathematics, and completed a post-doctorate in bioinformatics at the University of Michigan.

“SeqOne has developed an impressive set of ground-breaking technologies built on hard science”, said Michael Blum. “We share the same vision that aims to advance personalised medicine by creating a tight interaction between technology and medicine. I am honoured to be part of SeqOne’s management team, leading research initiatives to develop ever more effective diagnostic solutions that will accelerate access to personalized medicine for all patients.”

“Our whole team is delighted that Michael is joining us”, commented Nicolas Philippe, CEO and co-founder of SeqOne Genomics. “His vast expertise in data science and biology represents an extraordinary asset for the development of our international program to develop clinical genomic analysis solutions. His commitment to advancing and spreading knowledge will help extend our leadership among the key players in personalized genomic medicine.”

About SeqOne Genomics:

SeqOne Genomics offers high-performance genomic analysis solutions for healthcare providers treating patients suffering from cancer, rare and hereditary diseases as well as pharmaceutical companies developing new therapies. The solution leverages advanced machine learning coupled with the company’s proprietary genomics operating system to dramatically reduce turnaround times and costs while delivering comprehensive and actionable insights for personalized medicine. The company has won numerous awards including the iLab award and the ARC cancer foundation’s Hélène Stark prize. Investors include Elaia, IRDI Capital Investissement, Merieux Equity Partners, Omnes and Software Club. More information at: https://seqone.com

SeqOne Genomics media relations:

Annie-Florence Loyer – afloyer@newcap.fr / +33 (6) 88 20 35 59
Juliette Milleret – jmilleret@newcap.fr /+33 (6) 98 50 21 93

SeqOne Genomics announces Portuguese distribution partnership

12 October 202320 October 2022 by Jean-Marc Holder

SeqOne has appointed ILC Instrumentos de Laboratório to distribute its genomic analysis software platform in Portugal, and to accelerate the availability of its advanced genomic analysis solutions.

Montpellier, France – Lisboa, Portugal – September 30th 2022 – SeqOne Genomics, provider of next-generation genomic analysis solutions for personalized medicine is proud to announce a new strategic partnership with ILC Instrumentos de Laboratório Científicos to facilitate access to its genomic analysis solutions in Portugal. Through this partnership, ILC Instrumentos de Laboratório Científicos has been appointed as a value added distributor in Portugal.

Nicolas Philippe, CEO co-founder of SeqOne Genomics, said “We were impressed with the capabilities of ILC to provide the high levels of qualified support and customer service that we feel are essential to medical teams performing genomic analysis in clinical environments. Having a strong local partner in Portugal is key in our European expansion to make genomic testing available to all who need it.”

The new distribution partnership signals SeqOne’s intention to capitalize on the fast-growing personalized medicine market in Portugal.

“As the Portuguese market embraces personalized medicine, the market for genomic analysis solutions is expanding rapidly. SeqOne’s high performance genomic analysis platform gives us the confidence that we can address the needs of the market and thus capitalize on this growth. We were impressed by SeqOne’s ability to support the full range of genomic analysis requirements, from simple analyses of small gene panels to the entire genome in both cancer and inherited diseases. This means that we can offer a complete solution that addresses our customers’ needs.” said Cristina Iglésias da Costa CEO of ILC.

About SeqOne Genomics:

SeqOne Genomics offers high-performance genomic analysis solutions for healthcare providers treating patients suffering from cancer, rare and hereditary diseases as well as pharmaceutical companies developing new therapies. The solution leverages advanced machine learning coupled with the company’s proprietary genomics operating system to dramatically reduce turnaround times and costs while delivering comprehensive and actionable insights for personalized medicine. The company has won numerous awards including the iLab award and the ARC cancer foundation’s Hélène Stark prize. Investors include Elaia, IRDI Capital Investissement, Merieux Equity Partners, Omnes and Software Club. More information at: https://seqone.com

SeqOne Genomics media relations

Annie-Florence Loyer – afloyer@newcap.fr / +33 (6) 88 20 35 59
Juliette Milleret – jmilleret@newcap.fr /+33 (6) 98 50 21 93

About ILC Instrumentos de Laboratório Científicos :

ILC has been in the Portuguese market since 1977 and has since been supporting the scientific community in the pursuit of knowledge and excellence. ILC has since partnered with some of the best companies in the world of Chemistry, Biology and Industry, in order to bring to Portugal the right technology and knowledge to allow its customers to reach their goals in the search of a better world.

We are hiring a VP of Platform Sales

19 May 202218 May 2022 by JM Holder

VP of Platform Sales:

SeqOne is a well-funded company developing state-of-the-art genomic analysis tools for clinical applications in the fields of cancer and rare disease. The company’s vision is to develop a genomic analysis software solutions that dramatically reduce the resources needed to provide accurate genomic analysis while accelerating turnaround time. Our aim is to make genetic testing easier and more accessible in order to accelerate the adoption of personalized medicine. SeqOne addresses the operational challenges facing Diagnostic labs in delivering NGS analysis at scale by offering applications to analyze a single-patient or an entire family to diagnose hereditary family disorders or to recommend the best therapeutic options in cancer and other somatic diseases

Job Description

As the VP of Platform Sales, you will define the international sales and marketing strategy to support the company’s ambitious international growth targets. You will recruit and manage a global sales and marketing team capable of executing your strategy. In close and direct collaboration with the exec team and the board, you will execute on the commercial and marketing plan and provide reporting on progress.

Missions :

Build the optimum structure for our business with the best leadership in place
Drive sales strategy
Manage and grow existing customers by sustaining revenue growth both in existing franchises and from new application and channels
Relay market requirements to product owner and provide feedback on product roadmap to ensure platform fit with local market requirements
Participate in development of sales materials and trainings to ensure optimal effectiveness of sales team
Implement local marketing including events, seminars, and other local events, working closely with strategy, customer success and technical team
Manage sales process and provide regular reporting
Define and structure sales process implementing required tools, such as CRM, where necessary
Explore and evaluate potential of new markets
Define international sales team structure and co-manage recruitments working with HR, operations and recruiters as deemed necessary
Define and participate in onboarding process for new salespeople.

Experience and skills:

Minimum 8 – 10 years of sales experience across Europe with proven track record of achievement gained in the leading and working on/in similar markets IVD companies, preferably in Genomics
Must have demonstrated outstanding people leadership capabilities
Strong vision for the future growth
Excels in communication up, down and across the to peers in the organization

Corporate culture:

We are a fast growing, international and start-up based in Montpellier in the south of France. You will be joining a highly collaborative and agile company with a demonstrated track record in delivering best-in-class medical solutions that enjoy significant market traction. We have a work-hard-play-hard approach to challenges in both business and technical arenas. The company recently closed a €20M funding round brining the total funding raised to €25M.

SeqOne Genomics and Global Diagnostic Solutions Limited (GDS) extend their collaboration in MENA

19 May 202218 May 2022 by JM Holder

The companies will participate at the Precision Med Expo Dubai 24th and 25th of May 2022

Montpellier, France – Dubai, May 18, 2022 – SeqOne Genomics, provider of next genomic analysis solutions for personalized medicine and Global Diagnostic Solutions Ltd (GDS) today announced their participation in Precision Med Expo Dubai 24^th and 25^th of May at Conrad Dubai, booth A02.

Precision Medicine Expo has become a major catalyst in the development of personalized medicine in the MENA region. The decision to participate in the event is driven by the belief that huge advances in improving access to personalized medicine in the region can be made given the right solutions. The objective of the two partners at the event is to meet the geneticists, bioinformaticians, biopharma companies and researchers in the region to explore how SeqOne Genomics platform together with GDS support can accelerate the implementation of innovative new personalized medicine programs.

“The MENA region is increasingly committed to personalized medicine with a growing number of national and private sector initiatives,” said Nicolas Phillipe, CEO of SeqOne. “Having a strong local partner like GDS is essential in expanding our presence in the region through collaboration with local healthcare innovators to make genomic testing available to all who need it”.

“We were impressed with SeqOne’s high-performance genomic analysis platform and are proud to represent them in the MENA market” Dr. Mohamed Ramadan, Regional Marketing Head of GDS. “We look forward to supporting local healthcare providers in delivering fast, accurate genomic tests that improve the accessibility of personalized medicine. We look forward to meeting you at Booth: A02.”

About Precision Med Expo.

The Middle East’s Dedicated Precision Medicine Exhibition & Summit provides a vital opportunity for health tech and tech service providers to meet and do business and meet with key decision-makers in healthcare from across the Gulf / Middle East Region. Growing populations, rising life expectancy and changes in lifestyle are leaving a healthcare burden for governments in the Gulf region, they have an urgent need to find smart approaches to tackle the medical needs of their populations.

The Exhibition will take place at the Conrad Hotel Dubai on 24th and 25th of May 2022.

About SeqOne Genomics:

SeqOne Genomics offers high-performance genomic analysis solutions for healthcare providers treating patients suffering from cancer, rare and hereditary diseases as well as pharmaceutical companies developing new therapies. The solution leverages advanced machine learning coupled with the company’s proprietary GeniOS™ genomics operating system to dramatically reduce turnaround times and costs while delivering comprehensive and actionable insights for personalized medicine. The company has won numerous awards including the iLab award and the ARC cancer foundation’s Hélène Stark prize. Investors include Elaia, IRDI Capital Investissement, Merieux Equity Partners, Omnes and Software Club. More information at: https://seqone.com

SeqOne Genomics media relations

Annie-Florence Loyer – afloyer@newcap.fr / +33 (6) 88 20 35 59
Juliette Milleret – jmilleret@newcap.fr /+33 (6) 98 50 21 93

About Global diagnostic solutions Ltd.:

A company with the objective of representing the Molecular Genetics of tomorrow, mapping today’s healthcare through personalized medicines and bioinformatics diagnostics tools with leading European diagnostic companies throughout the MENA Region. We communicate and represent the technology, leading the transformation.

SeqOne posters at the ESHG: using ML and big data to improve variant interpretation

19 May 20226 May 2022 by JM Holder

SeqOne will be at the ESHG show in Vienna in hall X4 booth 664. We will be presenting four posters high-lighting various projects by SeqOne’s R&D team focussing on the use of Machine Learning and Big Data to better prioritize variants to improve accuracy and efficiency in interpreting genomic data. Stop by our booth to meet the authors and discuss your specific needs.

Automated prioritization of copy number variants with ACMG/ClinGen standards

Poster Presentation No.	P18.056.D
Session No. & Title	PV04 – Poster Viewing with Authors (Group D)
Session Date & Time	13/06/2022 15:45:00 – 13/06/2022 16:45:00 CEST
Location	Poster Hall X3

Authors

Jiri Ruzicka, Kévin Yauy, Nicolas Duforet-Frebourg, Laure Raymond, Mélanie Broutin, Jérôme Audoux, Sacha Beaumeunier, Nicolas Philippe, Denis Bertrand

Background: With the rising adoption of long-read sequencing technologies, previously undetected and numerous CNVs (Copy-number variants) are accessible and their prioritization becomes necessary for the clinical evaluation. ACMG and ClinGen published guidelines for clinical interpretation of such variations, which allow more consistent prioritization of CNVs.

Methods: We present an original implementation of the recommendations of the ACMG/ClinGen framework, adapted to both small and large CNVs. Classifications were processed using dosage map sensitivity, general population frequency, phenotype matching and disease inheritance patterns. The performance of the model was compared with the published ACMG/ClinGen dataset consisting of 114 CNVs evaluated by two independent experts.

Results: Our classification tool achieved 96.7% specificity for pathogenic variant identification, identifying correctly 15 of 23 CNV assessed as pathogenic by the two evaluators. 2 additional CNV could be classified as pathogenic when phenotypes were available. In 84.2% of CNVs, the prediction was the same as the prediction of at least one evaluator. For the 15.8% of predictions in disagreement, no variants classified as benign were predicted pathogenic and vice-versa.

Conclusion: This implementation of ACMG/ClinGen standards provides an automated and confident classification of CNVs which accelerates the clinical interpretation of structural variants.

Clinically-driven, multi-layered, and interpretable machine learning model for assisted variant interpretation

Poster Presentation No.	P18.070.B
Session No. & Title	PV02 – Poster Viewing with Authors (Group B)
Session Date & Time	12/06/2022 16:00:00 – 17:00:00 CEST
Location	Poster Hall X3

Authors

Jiri Ruzicka, Nicolas Duforet-Frebourg, Laure Raymond, Jérôme Audoux, Sacha Beaumeunier, Denis Bertrand, Laurent Mesnard, Nicolas Philippe, Julien Thevenon, Kévin Yauy

Background: With the great expansion of sequencing technologies and artificial intelligence tools, the demand for interpretable classification of variants rises rapidly and highlights the need for a personalized approach based on the clinical context. Unfortunately, the low interpretability of machine learning black-box models limits their adoption in the community.

Methods: We created a multi-layered machine learning model called ClassifyML which scores the pathogenicity of genomic variants and prioritizes their importance for the clinical context. ClassifyML gathers multi-level annotations based on ACMG-AMP evidence criteria, disease heritability patterns, and phenotype matching. The model was trained firstly on the ClinVar variant classification dataset, followed by a second training on a cohort of 316 deep-phenotyped patients recruited from a French consortium.

Results: The model proposes an interpretable output in the form of a continuous importance scale for each criterion, which assists the clinical interpretation of variants. We evaluated our method with a multi-centric cohort consisting of 310 patients. The causing variant was classified as having pathogenic evidence in 291 of 310 cases by the model, with an improvement of the median rank of 39 fold compared to Exomiser (3 against 118).

Conclusion: ClassifyML is an interpretable machine learning model for pathogenicity prediction and variant prioritization. It allows variant classification prediction, patient context integration, and yields human-explainable classifications.

A phenotype-gene based graph for symptoms description harmonization and clinically-driven genomic analysis

Poster Presentation No.	P18.011.C
Session No. & Title	PV03 – Poster Viewing with Authors (Group C)
Session Date & Time	13/06/2022 12:45:00 – 13:45:00 CEST
Location:	Poster Hall X3

Authors

Kévin Yauy, Nicolas Duforet-Frebourg, Jérôme Audoux, Sacha Beaumeunier, Denis Bertrand, Laurent Mesnard, Nicolas Philippe, Julien Thevenon

Background: Identical symptoms observed in patients may heterogeneously be described by physicians, even though relying on the same Human Phenotype Ontology (HPO). Several tools explore the accuracy of generating diagnostic hypotheses based on HPO terms associations and vicinity in the ontology, although bearing common methodological limitations.

Methods: We build a phenotype-gene graph weighted by consensus of associations identified on both structured and free-text databases extracted by ElasticSearch. To manage the diversity of physicians’ descriptions, dimensionality reduction of HPO terms was obtained through Non-Negative Matrix Factorization. Based on this graph, we developed a phenotype-gene matching algorithm called PhenoGenius. We evaluated our approach on a multicentric cohort of 316 patients recruited from a French consortium and 444 patients from literature.

Results: The graph presents more than 2 million phenotype-gene associations, covering 4,974 genes and 9,687 symptoms, whereas the Monarch database contains nearly 640,000 associations. PhenoGenius performance allows a median diagnostic gene rank of 68 (whereas others algorithms range from 144-355). Reducing 9,687 symptoms into 650 groups leads to the reduction of the diagnostic rank dispersion (reducing the standard deviation of 48%) without compromising the ranking performances. Focusing on 650 groups achieve complete coverage of the medical observations and expanded matchings to every medical observation, gaining 24 diagnostics.

Conclusion: This work explored a weighted phenotype-gene association graph, dissociated from the HPO developmental-based hierarchy used to describe patients’ phenotypes. PhenoGenius presents an original method that harmonizes and maximizes the usage of clinical symptoms in bioinformatic processes, outperforming currently published approaches.

Automated identification of a cancer patient treatment: from sequencing to treatment prioritisation

Poster Presentation No.	P19.020.C
Session No & Title	PV03 – Poster Viewing with Authors (Group C)
Session Date & Time	13/06/2022 12:45:00 – 13:45:00 CEST
Location	Poster Hall X3

Authors

Nicolas Soirat, Denis Bertrand, Sacha Beaumeunier, Nicolas Philippe, Dominique Vaur, Sophie Krieger, Anne-Laure Bougé, Laurent Castera

Background/Objectives: The emergence of sequencing allowed the scientific community to gather a tremendous amount of cancer genomic data, characterising biomarkers responsible for tumorigenesis that might indicate potential treatments. The use of short-read sequencing to identify cancer patient treatment is becoming a more common practice in hospitals. To standardise the treatment identification some prediction frameworks have been developed, but they mostly focus on a single alteration type and very few have been implemented.

Methods: We design a targeted DNA and RNA panel covering 639 cancer genes and 57 fusion genes to obtain a comprehensive patient genomic landscape. We developed a decisional algorithm which prioritises all known variant-therapy associations. Several rules give a score for each association based on more than 20 variant features indicating the variant impact in cancer, the patient indication and similarity of patient variant with variant in therapeutic databases.

Result: We generated a thousand simulated tumours, each containing passenger mutations and a targetable mutation from the Civic database. Our method correctly classifies the targetable mutation in its top predictions (average rank 2.19). Furthermore, on a cohort of 12 patients, we obtain similar results as 2 clinical routine approaches using our fully automated protocol. Currently, we are expanding our validation to a pan-cancer cohort of 500 patients.

Conclusion: We design a complete framework for multiple variant drug association identification in order to make easier therapeutic choices for a clinician. We succeed to integrate it into our variant calling workflow and show good performance of our method to prioritise targetable variants.

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