Karine Sénécal

Return of genetic testing results in the era of whole-genome sequencing

Genetic testing based on whole-genome sequencing (WGS) often returns results that are not directly clinically actionable as well as raising the possibility of incidental (secondary) findings. In this article, we first survey the laws and policies guiding both researchers and clinicians in the return of results for WGS-based genetic testing. We then provide an overview of the landscape of international legislation and policies for return of these results, including considerations for return of incidental findings. Finally, we consider a range of approaches for the return of results.

Whole-Genome Sequencing in Newborn Screening Programs

The possible introduction of whole-genome sequencing into newborn screening programs should proceed with caution. The availability of whole-genome sequencing (WGS) is likely to change the practice of population screening programs such as newborn screening (NBS). This Commentary raises key ethical, legal, and social issues surrounding WGS in NBS and suggests a need for deliberation regarding the policy challenges of introducing sequencing in such programs. Any change in the goals of NBS programs should be discussed carefully and should represent the best interests of the child.

Whole-genome sequencing in newborn screening? A statement on the continued importance of targeted approaches in newborn screening programmes

The advent and refinement of sequencing technologies has resulted in a decrease in both the cost and time needed to generate data on the entire sequence of the human genome. This has increased the accessibility of using whole-genome sequencing and whole-exome sequencing approaches for analysis in both the research and clinical contexts. The expectation is that more services based on these and other high-throughput technologies will become available to patients and the wider population. Some authors predict that sequencing will be performed once in a lifetime, namely, shortly after birth. The Public and Professional Policy Committee of the European Society of Human Genetics, the Human Genome Organisation Committee on Ethics, Law and Society, the PHG Foundation and the P3G International Paediatric Platform address herein the important issues and challenges surrounding the potential use of sequencing technologies in publicly funded newborn screening (NBS) programmes. This statement presents the relevant issues and culminates in a set of recommendations to help inform and guide scientists and clinicians, as well as policy makers regarding the necessary considerations for the use of genome sequencing technologies and approaches in NBS programmes. The primary objective of NBS should be the targeted analysis and identification of gene variants conferring a high risk of preventable or treatable conditions, for which treatment has to start in the newborn period or in early childhood.

Pediatric research and the return of individual research results.

The return of individual research results to participants raises many socio-ethical issues and is even more challenging when the participant is a child. The objective of this article is to present an overview of the few ethical guidelines and relevant literature addressing the return of individual results in pediatric research. By reviewing policies and the literature, we present some overarching considerations and delineate contextual issues in order to propose a framework.

Genomic newborn screening: public health policy considerations and recommendations

BackgroundThe use of genome-wide (whole genome or exome) sequencing for population-based newborn screening presents an opportunity to detect and treat or prevent many more serious early-onset health conditions than is possible today.MethodsThe Paediatric Task Team of the Global Alliance for Genomics and Health’s Regulatory and Ethics Working Group reviewed current understanding and concerns regarding the use of genomic technologies for population-based newborn screening and developed, by consensus, eight recommendations for clinicians, clinical laboratory scientists, and policy makers.ResultsBefore genome-wide sequencing can be implemented in newborn screening programs, its clinical utility and cost-effectiveness must be demonstrated, and the ability to distinguish disease-causing and benign variants of all genes screened must be established. In addition, each jurisdiction needs to resolve ethical and policy issues regarding the disclosure of incidental or secondary findings to families and ownership, appropriate storage and sharing of genomic data.ConclusionThe best interests of children should be the basis for all decisions regarding the implementation of genomic newborn screening.

To disclose, or not to disclose? Context matters

Progress in understanding childhood disease using next-generation sequencing (NGS) portends vast improvements in the nature and quality of patient care. However, ethical questions surrounding the disclosure of incidental findings (IFs) persist, as NGS and other novel genomic technologies become the preferred tool for clinical genetic testing. Thus, the need for comprehensive management plans and multidisciplinary discussion on the return of IFs in pediatric research has never been more immediate. The aim of this study is to explore the views of investigators concerning the return of IFs in the pediatric oncology research context. Our findings reveal at least four contextual themes underlying the ethics of when, and how, IFs could be disclosed to participants and their families: clinical significance of the result, respect for individual, scope of professional responsibilities, and implications for the healthcare/research system. Moreover, the study proposes two action items toward anticipatory governance of IF in genetic research with children. The need to recognize the multiplicity of contextual factors in determining IF disclosure practices, particularly as NGS increasingly becomes a centerpiece in genetic research broadly, is heightened when children are involved. Sober thought should be given to the possibility of discovering IF, and to proactive discussions about disclosure considering the realities of young participants, their families, and the investigators who recruit them.

Reporting practices for unsolicited and secondary findings from next‐generation sequencing technologies: Perspectives of laboratory personnel

While next‐generation sequencing (NGS) has enormous potential to identify genetic causes of disease, the nature of the technology means that it can also identify additional information about the individual receiving sequencing that is unrelated to the original rationale for testing. Reporting these unsolicited findings (UF) to clinicians, and subsequently to patients, could lead to potentially lifesaving interventions. Most international guidelines provide limited specific recommendations as to whether these UF should be reported. Little research has been conducted exploring which of these variants are reported in practice. Twenty‐six interviews were conducted with 27 laboratory personnel, representing 24 laboratories in Europe (12), Canada (five), and Australasia (Seven) to explore their reporting practices. There is considerable variation between laboratories in the reporting of UF. While some limit their reporting to findings that are relevant to the clinical question, others report UF to varying degrees. In addition, most laboratory personnel interviewed said that their laboratories do not actively search for secondary findings in disease‐causing genes unrelated to the clinical question, such as those suggested by the American College of Medical Genetics and Genomics. Our study highlights that laboratories are still grappling with decisions about which UF to report from NGS and are calling for more guidance.

Statement of principles on the return of research results and incidental findings in paediatric research: a multi-site consultative process.

This paper proposes a set of recommendations for the return of research results and incidental findings in paediatrics. The Network of Applied Genetic Medicine of Quebec spearheaded the initiative to develop the Statement of Principles on the Return of Research Results and Incidental Findings, which was the result of a consultation process with clinical and research experts in the field. To formulate the Statement of Principles, the authors (i) reviewed empirical and grey literature on the return of research results and incidental findings in Europe and Canada, (ii) conducted a qualitative study of stakeholder groups, (iii) developed, and (iv) validated the recommendations through consultations with the stakeholder groups. The Statement of Principles provides a useful disclosure tool for deciding when, and under what circumstances to return research results and incidental findings. It addresses the issue of return of results in genetic research generally, and has also specific principles for various research contexts, including paediatric research. It delineates ethical issues unique to paediatric research, and provides a framework to guide research ethics committees as well as the research community in addressing these issues.

Reporting practices for variants of uncertain significance from next generation sequencing technologies

The nature of next generation sequencing technologies (NGS) results in the generation of large amounts of data and the identification of numerous variants, for some of which the clinical significance may be difficult to ascertain based on our current knowledge. These Variants of Uncertain Significance (VUS) may be identified in genes in which the function is known or unknown and which may or may not be related to the original rationale for sequencing the patient. Little is known about whether laboratories report VUS to clinicians and current guidelines issued by some of the most notable professional bodies do not provide specific recommendations on this point. To address this, 26 interviews were conducted with 27 laboratory personnel, representing 24 laboratories in Europe (12), Canada (5) and Australasia (7) in order to explore their reporting practices. Participants highlighted that the classification of variants is a real challenge despite the presence of classification guidelines. We identified variation in the reporting practices of VUS across the laboratories within the study. While some laboratories limit their reporting to variants that are pathogenic and thought to be causative of the phenotype, more commonly laboratories report VUS when they are identified in genes related to the clinical question. Some laboratories will also report VUS in candidate genes. VUS that are secondary findings are generally not reported. While it is unclear whether uniformity in reporting is desirable, exploring the perspectives of laboratory personnel undertaking these analyses are critical to ensure the feasibility of any future reporting recommendations.

Unsolved challenges in pediatric whole-exome sequencing: A literature analysis

Abstract Whole-exome sequencing (WES) has been instrumental in the discovery of novel genes and mechanisms causing Mendelian diseases. While this technology is now being successfully applied in a number of clinics, particularly to diagnose patients with rare diseases, it also raises a number of ethical, legal and social issues. In order to identify what challenges were directly foreseen by technology users, we performed a systematic review of the literature. In this paper, we focus on recent publications related to the use of WES in the pediatric context and analyze the most prominent challenges raised by technology users. This is particularly relevant considering that a) most patients currently undergoing testing using WES to identify the genetic basis for rare diseases are children and b) their lack of capacity to consent for themselves makes them a vulnerable population and generates the need for specific ethical, legal and regulatory procedures. We identified key challenges that related to four main categories: (1) intake; (2) sequence production and analysis; (3) reporting of results and counseling considerations and (4) collaborative data interpretation and data sharing. We then contextualize these challenges in light of the recent recommendations and guidelines, published by professional societies that have significant potential to impact the field.