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6 results on '"Russnes HG"'

2. High-throughput molecular assays for inclusion in personalised oncology trials - State-of-the-art and beyond.

Author

Edsjö A, Russnes HG, Lehtiö J, Tamborero D, Hovig E, Stenzinger A, and Rosenquist R

Subjects
Humans, High-Throughput Nucleotide Sequencing, Clinical Trials as Topic, Medical Oncology methods, Medical Oncology trends, Precision Medicine methods, Neoplasms genetics, Neoplasms therapy, Neoplasms diagnosis, Neoplasms drug therapy, Biomarkers, Tumor
Abstract

In the last decades, the development of high-throughput molecular assays has revolutionised cancer diagnostics, paving the way for the concept of personalised cancer medicine. This progress has been driven by the introduction of such technologies through biomarker-driven oncology trials. In this review, strengths and limitations of various state-of-the-art sequencing technologies, including gene panel sequencing (DNA and RNA), whole-exome/whole-genome sequencing and whole-transcriptome sequencing, are explored, focusing on their ability to identify clinically relevant biomarkers with diagnostic, prognostic and/or predictive impact. This includes the need to assess complex biomarkers, for example microsatellite instability, tumour mutation burden and homologous recombination deficiency, to identify patients suitable for specific therapies, including immunotherapy. Furthermore, the crucial role of biomarker analysis and multidisciplinary molecular tumour boards in selecting patients for trial inclusion is discussed in relation to various trial concepts, including drug repurposing. Recognising that today's exploratory techniques will evolve into tomorrow's routine diagnostics and clinical study inclusion assays, the importance of emerging technologies for multimodal diagnostics, such as proteomics and in vivo drug sensitivity testing, is also discussed. In addition, key regulatory aspects and the importance of patient engagement in all phases of a clinical trial are described. Finally, we propose a set of recommendations for consideration when planning a new precision cancer medicine trial., (© 2024 The Authors. Journal of Internal Medicine published by John Wiley & Sons Ltd on behalf of Association for Publication of The Journal of Internal Medicine.)

Published
2024
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3. PCM4EU and PRIME-ROSE: Collaboration for implementation of precision cancer medicine in Europe.

Author

Taskén K, F Haj Mohammad S, Fagereng GL, Sørum Falk R, Helland Å, Barjesteh van Waalwijk van Doorn-Khosrovani S, Steen Carlsson K, Ryll B, Jalkanen K, Edsjö A, Russnes HG, Lassen U, Hallersjö Hult E, Lugowska I, Blay JY, Verlingue L, Abel E, Lowery MA, Krebs MG, Staal Rohrberg K, Ojamaa K, Oliveira J, Verheul HMW, Voest EE, and Gelderblom H

Subjects
Humans, Europe, European Union, Drug Repositioning, Clinical Trials as Topic organization & administration, Precision Medicine methods, Neoplasms therapy
Abstract

Background: In the two European Union (EU)-funded projects, PCM4EU (Personalized Cancer Medicine for all EU citizens) and PRIME-ROSE (Precision Cancer Medicine Repurposing System Using Pragmatic Clinical Trials), we aim to facilitate implementation of precision cancer medicine (PCM) in Europe by leveraging the experience from ongoing national initiatives that have already been particularly successful., Patients and Methods: PCM4EU and PRIME-ROSE gather 17 and 24 partners, respectively, from 19 European countries. The projects are based on a network of Drug Rediscovery Protocol (DRUP)-like clinical trials that are currently ongoing or soon to start in 11 different countries, and with more trials expected to be established soon. The main aims of both the projects are to improve implementation pathways from molecular diagnostics to treatment, and reimbursement of diagnostics and tumour-tailored therapies to provide examples of best practices for PCM in Europe., Results: PCM4EU and PRIME-ROSE were launched in January and July 2023, respectively. Educational materials, including a podcast series, are already available from the PCM4EU website (http://www.pcm4eu.eu). The first reports, including an overview of requirements for the reimbursement systems in participating countries and a guide on patient involvement, are expected to be published in 2024., Conclusion: PCM4EU and PRIME-ROSE were launched in January and July 2023, respectively. Educational materials, including a podcast series, are already available from the PCM4EU website (http://www.pcm4eu.eu). The first reports, including an overview of requirements for the reimbursement systems in participating countries and a guide on patient involvement, are expected to be published in 2024., Conclusion: European collaboration can facilitate the implementation of PCM and thereby provide affordable and equitable access to precision diagnostics and matched therapies for more patients.

Published
2024
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4. Functional precision cancer medicine: drug sensitivity screening enabled by cell culture models.

Author

Flobak Å, Skånland SS, Hovig E, Taskén K, and Russnes HG

Subjects
Artificial Intelligence, Biomarkers, Tumor, Cell Culture Techniques, Early Detection of Cancer, Humans, Neoplasms drug therapy, Precision Medicine
Abstract

Functional precision medicine is a new, emerging area that can guide cancer treatment by capturing information from direct perturbations of tumor-derived, living cells, such as by drug sensitivity screening. Precision cancer medicine as currently implemented in clinical practice has been driven by genomics, and current molecular tumor boards rely extensively on genomic characterization to advise on therapeutic interventions. However, genomic biomarkers can only guide treatment decisions for a fraction of the patients. In this review we provide an overview of the current state of functional precision medicine, highlight advances for drug-sensitivity screening enabled by cell culture models, and discuss how artificial intelligence (AI) can be coupled to functional precision medicine to guide patient stratification., Competing Interests: Declaration of interests S.S.S. has received honoraria from AbbVie and AstraZeneca, and research support from BeiGene and TG Therapeutics. Å.F. has received honoraria from Bayer, Novartis, Pierre Fabre, Amgen, and Pfizer. The other authors declare no conflicts of interest., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2022
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5. Cost-effectiveness of molecularly matched off-label therapies for end-stage cancer - the MetAction precision medicine study.

Author

Ree AH, Mælandsmo GM, Flatmark K, Russnes HG, Gómez Castañeda M, and Aas E

Subjects
Cost-Benefit Analysis, Health Care Costs, Humans, Off-Label Use, Quality-Adjusted Life Years, Randomized Controlled Trials as Topic, Neoplasms drug therapy, Neoplasms genetics, Precision Medicine
Abstract

Background: Precision cancer medicine (PCM), frequently used for the expensive and often modestly efficacious off-label treatment with medications matched to the tumour genome of end-stage cancer, challenges healthcare resources. We compared the health effects, costs and cost-effectiveness of our MetAction PCM study with corresponding data from comparator populations given best supportive care (BSC) in two external randomised controlled trials., Methods: We designed three partitioned survival models to evaluate the healthcare costs and quality-adjusted life years (QALYs) as the main outcomes. Cost-effectiveness was calculated as the incremental cost-effectiveness ratio (ICER) of PCM relative to BSC with an annual willingness-to-pay (WTP) threshold of EUR 56,384 (NOK 605,000). One-way and probabilistic sensitivity analyses addressed uncertainty., Results: We estimated total healthcare costs (relating to next-generation sequencing (NGS) equipment and personnel wages, molecularly matched medications to the patients with an actionable tumour target and follow-up of the responding patients) and the health outcomes for the MetAction patients versus costs (relating to estimated hospital admission) and outcomes for the BSC cases. The ICERs for incremental QALYs were twice or more as high as the WTP threshold and relatively insensitive to cost decrease of the NGS procedures, while reduction of medication prices would contribute significantly towards a cost-effective PCM strategy., Conclusions: The models suggested that the high ICERs of PCM were driven by costs of the NGS diagnostics and molecularly matched medications, with a likelihood for the strategy to be cost-effective defying WTP constraints. Reducing drug expenses to half the list price would likely result in an ICER at the WTP threshold. This can be an incentive for a public-private partnership for sharing drug costs in PCM, exemplified by ongoing European initiatives., Clinicaltrials.gov, Identifier: NCT02142036.

Published
2022
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