Abstract
AbstractIf genome sequencing is performed in health care, in theory the opportunity arises to take a further look at the data: opportunistic genomic screening (OGS). The European Society of Human Genetics (ESHG) in 2013 recommended that genome analysis should be restricted to the original health problem at least for the time being. Other organizations have argued that ‘actionable’ genetic variants should or could be reported (including American College of Medical Genetics and Genomics, French Society of Predictive and Personalized Medicine, Genomics England). They argue that the opportunity should be used to routinely and systematically look for secondary findings—so-called opportunistic screening. From a normative perspective, the distinguishing characteristic of screening is not so much its context (whether public health or health care), but the lack of an indication for having this specific test or investigation in those to whom screening is offered. Screening entails a more precarious benefits-to-risks balance. The ESHG continues to recommend a cautious approach to opportunistic screening. Proportionality and autonomy must be guaranteed, and in collectively funded health-care systems the potential benefits must be balanced against health care expenditures. With regard to genome sequencing in pediatrics, ESHG argues that it is premature to look for later-onset conditions in children. Counseling should be offered and informed consent is and should be a central ethical norm. Depending on developing evidence on penetrance, actionability, and available resources, OGS pilots may be justified to generate data for a future, informed, comparative analysis of OGS and its main alternatives, such as cascade testing.
Publisher
Springer Science and Business Media LLC
Subject
Genetics (clinical),Genetics
Reference75 articles.
1. Van El, CG, Cornel MC, Borry P, Hastings RJ, Fellmann F, Hodgson SV, et al. Public and Professional Policy Committee (2013). Whole-genome sequencing in health care: recommendations of the European Society of Human Genetics. Eur J Hum Genet. 2013;21:580–4.
2. German Society of Human Genetics. Deutsche Gesellschaft für Humangenetik (GfH). Stellungnahme der Deutschen Gesellschaft für Humangenetik zu genetischen Zusatzbefunden in Diagnostik und Forschung. Med Gen. 2013;25:284–6.
3. Health Council of the Netherlands. The Hague: Health Council of the Netherlands, 2015; publication no. 2015/01. [Executive Summary in English https://www.gezondheidsraad.nl/documenten/adviezen/2015/02/04/next-generation-sequencing-in-diagnostiek].
4. Boycott K, Hartley T, Adam S, Bernier F, Chong K, Fernandez BA, et al. The clinical application of genome-wide sequencing for monogenic diseases in Canada: Position Statement of the Canadian College of Medical Geneticists. J Med Genet. 2015;52:431–7. https://doi.org/10.1136/jmedgenet-2015-103144.
5. French Agency of Biomedicine. Projet de recommandations de bonnes pratiques professionnelles en matière de gestion des résultats d’un examen de séquençage pangénomique sans relation directe avec l’indication initiale dans le cadre du soin. https://www.agence-biomedecine.fr/IMG/pdf/20200107_rbp_donnees_additionnelles_dv.pdf. Accessed 18 Apr 2020.