Evidence‐based consensus guidelines for ALS genetic testing and counseling

Abstract Objective Advances in amyotrophic lateral sclerosis (ALS) gene discovery, ongoing gene therapy trials, and patient demand have driven increased use of ALS genetic testing. Despite this progress, the offer of genetic testing to persons with ALS is not yet “standard of care.” Our primary goal is to develop clinical ALS genetic counseling and testing guidelines to improve and standardize genetic counseling and testing practice among neurologists, genetic counselors or any provider caring for persons with ALS. Methods Core clinical questions were identified and a rapid review performed according to Preferred Reporting Items for Systematic Reviews and Meta‐Analyses (PRISMA‐P) 2015 method. Guideline recommendations were drafted and the strength of evidence for each recommendation was assessed by combining two systems: the Grading of Recommendations, Assessment, Development and Evaluation (GRADE) System and the Evaluation of Genomic Applications in Practice and Prevention (EGAPP). A modified Delphi approach was used to reach consensus among a group of content experts for each guideline statement. Results A total of 35 guideline statements were developed. In summary, all persons with ALS should be offered single‐step genetic testing, consisting of a C9orf72 assay, along with sequencing of SOD1, FUS, and TARDBP, at a minimum. The key education and genetic risk assessments that should be provided before and after testing are delineated. Specific guidance regarding testing methods and reporting for C9orf72 and other genes is provided for commercial laboratories. Interpretation These evidence‐based, consensus guidelines will support all stakeholders in the ALS community in navigating benefits and challenges of genetic testing.


Background
Rapid progress in the discovery of amyotrophic lateral sclerosis (ALS)-associated genes, and a growing recognition of the genetic basis of clinically sporadic ALS, has opened the door to an era of gene-targeted therapies for persons with ALS.Despite the progress in ALS gene discovery, and a wide array of clinical gene testing options, the offer of genetic testing to people with ALS is not yet broadly considered "standard of care" and many people with ALS who desire access to genetic testing are not offered it.
2][3][4][5] Persons with ALS value the utility of genetic testing as part of ALS clinical management, regardless of the presence or absence of family history. 6,7Surveys of those who have had ALS genetic testing have identified a need for more complete genetic counseling and risk assessment, such as information pertaining to the implications of test results for relatives. 6,8,9][12] Despite these challenges, recently reaffirmed US care guidelines do not address the offer of genetic testing 13 (reaffirmed February 25, 2023), and European guidelines specify that ALS genetic testing should be offered only to patients with familial ALS or the SOD1 D90A phenotype. 14The development of evidence-based, consensus guidelines will provide clinicians with a framework for the offer of genetic testing and outline the information that should be provided to patients before and after testing.In addition, these guidelines will provide specific recommendations regarding test methods and reporting, thus providing guidance to both clinicians and testing laboratories in navigating the challenges of this technology and supporting equitable patient access to genetic diagnosis and gene-targeted therapies.
The first gene-targeted treatment for ALS, an antisense oligonucleotide therapy for SOD1 ALS, was recently granted accelerated approval by the FDA. 15The need for consistent genetic testing practices and patient access to testing and counseling is particularly acute as genetargeted clinical trials are ongoing and in development for many other ALS-associated genes. 16Identification of relatively rare genetic forms of ALS is dependent upon widespread genetic characterization of patient populations, which has been successfully applied in large scale research and clinical testing efforts, 17,18 but yet to be incorporated into routine clinical practice nationwide.

Core clinical questions
We identified core clinical questions to be addressed by the guidelines using the AGREE II instrument, an international tool routinely employed in medical guideline development and evaluation by professional organizations.The AGREE II (Appraisal of Guidelines, Research and Evaluation) instrument is an international system created to advance guideline development in healthcare. 19The AGREE II reporting checklist was created in 2016 to "assist guideline developers to improve the completeness and transparency of reporting in their practice guidelines". 19his checklist provides guideline authors or reviewers with a step-by-step structure to develop and/or evaluate a highquality practice guideline.The checklist reflects the AGREE II's structure of six quality domains and 23 key items, providing a systematic and logical process for reporting essential information.Since its publication in 2010, the AGREE II instrument has been applied and/or cited in over 900 publications creating or evaluating practice guidelines.
Each of the core clinical questions we identified covers a content domain relevant for the development of ALS genetic testing guidelines: a clinical testing domain, a genetic counseling domain, and a laboratory methods domain.These questions formed the foundation for the rapid review (defined below): 1 What genetic testing should be offered to persons with ALS? (clinical testing domain) 2 What information should be provided to persons with ALS before and after testing?(genetic counseling domain) 3 What test methodologies, reporting, and interpretation standards should be used?(laboratory methods domain)

Clinical scope
The target patient population to which the guidelines are intended to apply are persons diagnosed with ALS.That stated, we recognize that in clinical genetics, the family is often considered the unit of care, and indeed family members of a person with ALS may directly or indirectly receive care or education from the proband's neurologist, genetic counselor, or other clinician.

Author and expert groups
The author group includes a genetic counselor (JR), physician scientist (SK), and clinician researcher (MH), all with expertise and published research in ALS genetics, genetic counseling, testing approaches, outcomes, and laboratory methods, as well as a guidelines methodologist (BE), with expertise in medical guideline development using the modified Delphi approach.Expert Panel participants were purposely recruited to represent each stakeholder group and a range of disciplines, expertise, and geographic representation across the United States.Experts were chosen to represent academic neurologists, community neurologists, genetic counselors, physician scientists, laboratory experts, ALS advocates, and persons with ALS.[22][23] Rapid review

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hnRNPA2B1, hnRNPA1, CHCHD10, DCTN1, PRPH, TAF15, TIA1 (or written out version of gene names, synonyms), and "Amyotrophic lateral sclerosis" or "ALS".The search strategy is presented in the Evidence Summary Document, available in Supplementary Materials.A total of 9541 potentially relevant articles were identified in the initial search.After 1794 duplicates were removed, 7743 citations underwent title and abstract review by JR, MH, and SK.After applying inclusion and exclusion criteria to the title and corresponding abstracts and resolving any nonunanimous decisions, 936 were selected for full-text review.After a full-text article review, 263 articles were selected for inclusion, and key data extracted and summarized (Figs. 1 and 2).

Initial ALS guideline development and the modified Delphi consensus
The evidence retrieved from the rapid review was summarized, used to draft initial guideline recommendations, and mapped to each domain: 7 recommendations concerning clinical genetic testing; 19 recommendations concerning genetic counseling; and 9 recommendations concerning laboratory methods and reporting.See Evidence Summary Document, Table S1.Each recommendation was evaluated for strength of evidence by adapting two systems: (1) the Grading of Recommendations, Assessment, Development and Evaluation (GRADE) System, 19 and (2) the Evaluation of Genomic Applications in Practice and Prevention (EGAPP). 24GRADE is a method for assessing the quality of evidence when developing health care guidelines and determining whether an intervention is justified.It is considered the gold standard for assessing evidence in medicine and relies on randomized control trials (RCTs) for weighing quality; wherein recommendations are assigned a grade of high (A), moderate (B), low (C), or very low (D) based on the strength of the supporting evidence.Given the paucity and impracticality of RCTs in genetic studies, we adapted the EGAPP criteria for determining quality and relevance to our evidence base.Each included paper was mapped to one of three evidence domains (clinical validity, analytical validity, and clinical utility) and scored for quality based on study attributes such as cohort size, case-control matching, rigor of variant interpretation, and other features.See Table 1.
A three-round modified Delphi approach was used to revise and finalize recommendations.The modified
Respondents were given the option to abstain from voting on statements by selecting "insufficient knowledge to assess."Prior to voting, consensus was defined as ≥80% of experts voting in agreement or against a statement (i.e., the summative of "yes" or "no").This level of consensus has been advocated to achieve content validity when there are at least 10 experts participating in consensus development. 26,36sults The first two rounds of voting were completed via an email link to a Research Electronic Data Capture (RED-Capâ) survey hosted at the Ohio State University. 37,38ne recommendation statement not reaching consensus after Round 1 ("All persons with ALS of European descent should be offered C9orf72 testing as the first genetic test") was revised according to written feedback provided by the expert group.The revised recommendation, "All persons with ALS should be offered testing with an ALS gene panel that includes C9orf72" reached 100% consensus.The final round (Round 3) consisted of a face-to-face meeting to discuss and vote on minor changes to the wording of 7 recommendation statements.See Figure 3.The Round 3 meeting was held on October 17, 2022 via the web-based platform Zoom Video Communications TM , version 5.10.0.At the conclusion of the modified Delphi Process, 43 recommendation statements were finalized and approved, forming our Guidelines.After related recommendation statements were merged for brevity, 35 recommendations remained, encompassing the domains of clinical testing (7 recommendations, summarized in Fig. 4), genetic counseling (19 recommendations, summarized in Fig. 5), and laboratory methods and reporting (9 recommendations, summarized in Fig. 6).Each Guideline below reflects a component of our recommended practice for genetic testing and counseling in ALS.Key points summarizing the evidence and/or clinical context are provided after each Guideline, followed by the GRADE rating (quality of evidence) and corresponding Strength of the recommendation.
Guidelines for the offer of clinical genetic testing to persons with ALS Recommendation 1: All persons with ALS should be offered genetic testing.

Key points:
0][41] The frequencies of known ALS variants appear lower in other studied populations, though more data are needed. 42Persons with ALS desire access to genetic testing and perceive benefits from it, irrespective of family history status or test outcome. 6,7ecause the yield of genetic testing is sufficiently high and will lead to therapeutic intervention in some, the offer of testing should be universal.
GRADE rating: A -Strong.Strength: This recommendation is supported by at least one study of Level 1 evidence.
Recommendation 2: All persons with ALS should be offered testing with an ALS gene panel that includes C9orf72.
GRADE rating: A -Strong.Strength: This recommendation is supported by at least one study of Level 1 evidence.
Recommendation 3: All persons with ALS should be offered testing with an ALS gene panel that includes SOD1.
Key points: Pathogenic variants in SOD1 have been identified in multiple ALS cohorts around the world, and may represent the leading genetic cause of ALS in many populations. 43,44,48,49The recent FDA approval of tofersen, an antisense oligonucleotide therapy to SOD1, underscores the importance of universal access to SOD1 testing. 15RADE rating: A -Strong.Strength: This recommendation is supported by at least one study of Level 1 evidence.
Recommendation 4: All persons with ALS should be offered testing with an ALS gene panel that includes FUS.
Key points: Pathogenic variants in FUS have been identified in multiple ALS cohorts around the world, and have been reported to occur de novo in juvenile ALS. 43,44,48,48,49Identification of a pathogenic variant in FUS may lead to eligibility for ongoing clinical trials.
GRADE rating: A -Strong.Strength: This recommendation is supported by at least one study of Level 1 evidence.
Recommendation 5: All persons with ALS should be offered testing with an ALS gene panel that includes TARDBP.follows a standardized approach for reviewing genetic and experimental evidence in assigning gene-disease validity in ALS.Genes classified with "definitive" disease validity are appropriate to include in clinical testing.GRADE rating: D -Expert.Strength: This recommendation is supported by Expert Opinion.
Recommendation 7: In the event of an FDA-approved gene-targeted therapy, all persons with ALS should be offered testing for that gene.
Key points: The opportunity for FDA-approved genetargeted treatment warrants the offer of genetic testing for the corresponding gene.The first gene-targeted therapy for ALS was recently granted accelerated approval by the FDA.
GRADE rating: D -Expert.Strength: This recommendation is supported by Expert Opinion.

Guidelines for genetic counseling in persons with ALS
Recommendation 8: Genetic counseling and education should be provided to all persons with ALS.
Key points: Genetic counseling promotes adaptation to the occurrence or risk for disease that may be hereditary, including the nature of inheritance, understanding of genetic testing options, and implications for family members.4][55] Sporadic ALS demonstrates high heritability in twin studies 56 and pathogenic genetic variants may be identified in at least 10%. 42While ideally provided by a board-certified genetic counselor, other health professionals, such as neurologists and nurse practitioners, may provide this counseling when genetic counselors are not available.
GRADE rating: C -Weak.Strength: This recommendation is supported by at least one study of Level 3 evidence.
Recommendation 9. Genetic counseling should precede the offer of testing.
Key points: Genetic counseling should be provided before testing, to empower persons with ALS to weigh the potential benefits, risks and limitations of testing, and anticipate the possible impact of testing on themselves and their family members. 54,55,57A variety of potential harms to both affected persons and family members can arise from the use of genetic testing without pretest counseling, including those related to uncertainties around incomplete penetrance, limitations of laboratory methods, variants of unknown significance, and genetic discrimination as well as legal, social, and psychological sequalae. 8,42ADE rating: C -Weak.Strength: This recommendation is supported by at least one study of Level 3 evidence.
Recommendation 10.A pedigree going back three generations at minimum should be documented.
4][55] Pedigree data will also inform genetic risk assessment prior to genetic testing or when genetic testing is negative or inconclusive. 55RADE rating: B -Moderate.Key points: This recommendation is supported by at least one study of Level 2 evidence.
Key points: Studies of clinic-based ALS cohorts and defined patient populations have consistently shown that the incidence of pathogenic ALS variants is higher in probands who have a family history of ALS. 40,41,58,591][62] Additionally, given the challenge of discerning dementia types, the presence of unspecified or other dementia types should also be documented in the pedigree. 40,59,63RADE rating: B -Moderate.Strength: This recommendation is supported by at least one study of Level 2 evidence.
Recommendation 12: Genetic counseling should include personalized risk assessments for the likelihood of a genetic etiology, and the likelihood of positive results on testing of currently known genes.
Key points: The likelihood of a genetic etiology in a person or family with ALS varies with clinical features such as family history, age of onset of symptoms, and the presence of additional phenotypes such as FTD. 58,64For those who have one or more first-or second-degree relatives affected with ALS or FTD, the possibility of dominant transmission should be considered and discussed. 55,65The likelihood of a positive result with genetic testing is higher in those with close and/or multiple affected relatives. 65,66For those with no known family history, earlier onset of symptoms indicates a somewhat ª 2023 The Authors.Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.

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higher likelihood of an identifiable genetic etiology, 40,67 as does concomitant FTD. 64RADE rating: B -Moderate.Strength: This recommendation is supported with at least one study of Level 2 evidence.
Recommendation 13: Genetic counseling should include discussion of genetic heterogeneity.
Key points: Pathogenic variants in growing number of genes have been shown to cause or increase the risk for ALS; variant frequencies differ by geoancestry. 58,68,69Education regarding the genetic heterogeneity of ALS prepares probands and their families for the uncertainty that may arise in risk assessment and genetic testing. 42,70RADE rating: B -Moderate.Strength: This recommendation is supported by at least one study of Level 2 evidence.
Recommendation 14: Genetic counseling should include a discussion of inheritance patterns.
Key points: Although ALS variants can be transmitted in an autosomal dominant, autosomal recessive or Xlinked manner, 71 the overwhelming majority are dominant.Possible or suspected inheritance patterns should be discussed with persons with ALS, even in the absence of a positive family history. 53,55Persons with a genetic form of ALS may or may not have a recognized family history of affected relatives and may transmit the variant and associated disease risk to children. 42,58RADE rating: B -Moderate.Strength of recommendation: This recommendation is supported with at least one study of Level 2 evidence.
Recommendation 15: Genetic counseling should include a discussion of penetrance.
Key points: Many ALS variants are incompletely penetrant, meaning that not all carriers of the variant will develop disease.3][74][75][76][77] Genetic counseling should convey the variable and uncertain penetrance of most ALS variants, helping persons with ALS appreciate the limitations of genetic testing in predicting disease in family members. 5,8,53,55,78RADE rating: C -Weak.Strength of recommendation: This recommendation is supported with at least one study of Level 3 evidence.
Recommendation 16: Genetic counseling should include personalized risk assessment for recurrence in relatives.
Key points: For persons with ALS who have no known family history of ALS or FTD, empiric data may be used to estimate the risk that relatives would develop ALS.0][81] For those who have a first-or second-degree relative affected with ALS or FTD, genetic risk assessment for family members should be informed by pedigree analysis. 55Discussion of personalized risks based on family history serves to introduce and contextualize the implications of genetic risk. 42RADE rating: B -Moderate.Strength of recommendation: This recommendation is supported with at least one study of Level 2 evidence.
Recommendation 17: Pretest counseling should prepare individuals for possible personal, psychological, and economic impacts of testing on themselves and their family members.
Key points: Pretest communication of the potential psychosocial impact of testing helps persons with ALS anticipate possible outcomes and prepare for uncertainty.Individual motivations for testing should be discussed. 9,53,57Studies have shown that persons with ALS weigh the implications for relatives in their testing decision; family communication and support should be explored in pretest counseling. 9Persons with ALS should be encouraged to reflect on whether results will be shared with family members and anticipate the ways that various test outcomes may impact their family with respect to genetic risk, genetic privacy, and discrimination. 9,53,57,78,82RADE rating: C -Weak.Strength: This recommendation is supported with at least one study of Level 3 evidence.
Recommendation 18: Persons with ALS should be informed of the range of possible testing outcomes: positive, negative, or uncertain.
Key points: Outcomes for clinical ALS genetic testing may include positive, negative, uncertain, and/or indeterminate result interpretations. 11,40,41All potential outcomes should be discussed prior to testing, with particular care to prepare individuals for the challenge of an uncertain result. 8,9,55,70RADE rating: C -Weak.Strength of recommendation: This recommendation is supported with at least one study of Level 3 evidence.
Recommendation 19: Persons with ALS and their families should be informed that all testing methodologies have limitations.
Key points: Technical limitations in ALS genetic testing may produce false-negative or false-positive results.Persons considering ALS genetic testing should understand that current technologies may in some cases fail. 5,8,9,42,57,70,72,83Assays to detect the C9orf72 expansion may fail to identify expanded allele.There is no validated cutoff that differentiates between pathogenic and nonpathogenic alleles, and the clinical significance of intermediate size alleles is unknown.Multigene sequencing panels may fail to detect, erroneously identify, or misinterpret a genetic variant for a variety of reasons.Recommendations for assay use and reporting to address these issues can be found below.
GRADE rating: C -Weak.Strength: This recommendation is supported with at least one study of Level 3 evidence.
Recommendation 20: All persons with ALS who have genetic testing should receive posttest counseling.
Key points: Posttest counseling provides persons with ALS the opportunity to discuss their result and understand the implications in the context of their specific personal and family circumstances. 6,7,9,54,55,57,84RADE rating: C -Weak.Strength: This recommendation is supported with at least one study of Level 3 evidence.
Recommendation 21: Posttest counseling should inform persons with ALS with a pathogenic or likely pathogenic test outcome that result may or may not allow prediction of disease course.
Key points: Genotype-phenotype correlations in ALS are generally limited to trends in grouped data and have low predictive value in individual cases, with some notable exceptions.3,85 GRADE rating: B -Moderate.Strength of recommendation: This recommendation is supported with at least one study of Level 2 evidence.
Recommendation 22. Posttest counseling should inform persons with ALS with a pathogenic or likely pathogenic test outcome of the genetic risks and implications for specific family members, including the availability of presymptomatic testing.
Key points: When a pathogenic or likely pathogenic variant is identified in a person with ALS, the family history should be reviewed in the context of the likely inheritance pattern of the variant, and implications and genetic risks for close and extended family members should be discussed.Adult relatives are candidates for presymptomatic testing, which is a personal choice and should be performed with appropriate genetic counseling. 6,9,55,57,71,82,83RADE rating: C -Weak.Strength of recommendation: This recommendation is supported with at least one study of Level 3 evidence.
Recommendation 23.Posttest counseling should inform persons with ALS with a pathogenic or likely pathogenic test outcome of the availability of relevant observational studies, FDA-approved therapies, and clinical trials.
Key points: Persons with ALS identified to have a pathogenic or likely pathogenic variant should be informed of FDA-approved or investigational therapies which are targeted to their particular gene; opportunities for genetargeted interventions are likely to increase in coming years. 41,42,84Likewise, the availability of observational studies (gene-specific and otherwise) should be reviewed. 57,70Clinical trial and other research opportunities can be identified via clinicaltrials.govand other resources.
GRADE rating: C -Weak.Strength: This recommendation is supported with at least one study of Level 3 evidence.
Recommendation 24.Posttest counseling should inform persons with ALS with a negative outcome that the result does not exclude a genetic form of ALS.
Key points: Current genetic testing fails to identify a genetic etiology in a significant proportion of familial cases, indicating that additional, unknown genetic mechanisms contribute to the etiology of ALS.First-degree relatives of individuals with familial or sporadic ALS without an identifiable genetic basis remain at increased risk of developing ALS compared with the general population. 86osttest counseling should convey and help families adapt to the uncertainty that may remain after clinical genetic testing, particularly for those with a positive family history.DNA banking or referral to gene-discovery studies may be offered in such cases.
GRADE rating: D -Expert.Strength: This recommendation is supported with at least one study of Level 5 evidence and expert opinion.
Recommendation 25.Posttest counseling should inform persons with ALS with an uncertain result that the variant(s) may or may not be contributing to their ALS.
Key points: A significant proportion of patients who undergo ALS genetic testing will receive an uncertain result. 12,40,41Many variants of uncertain significance are likely to be incidental, and avenues for further investigation may be limited.In such cases, posttest counseling should emphasize the unknown clinical significance of the result, acknowledging the potential harms of misinterpreting a variant. 5,18,40,42,55RADE rating: C -Weak.Strength: This recommendation is supported with at least one study of Level 3 evidence.
Recommendation 26.Posttest counseling should inform persons with ALS that periodic reevaluation of genetic results may be appropriate, and that the interpretation of their results could change over time.
Key points: As new evidence emerges, commercial laboratories and/or clinical teams may change their interpretation of specific genetic variants, and persons with ALS should be informed that reinterpretation of clinical testing may occur. 42Additional genetic testing may be appropriate as new ALS-associated genes are identified.2083 methods for detecting the presence of the C9orf72 repeat expansion are unable to accurately determine the number of repeats.The upper boundary of the expansion size should be documented on test reports, given the possibility that expansions of a particular size could be shown in the future to confer specific disease risks or other clinical significance.For example, if we learn that pathogenicity begins at 90 repeats, a report designating a boundary of >55 repeats will allow clinicians to determine that retesting should be performed to determine if the patient has >90 repeats.
GRADE rating: D -Expert.Strength: There are no studies addressing this recommendation.
6][97][98] This recommendation may not apply in special situations (e.g., a familial variant is already known and can be assessed with Sanger sequencing of a single exon or where a patient's clinical phenotype is highly suggestive of a single gene).
GRADE rating: B -Moderate.Strength: This recommendation is supported by at least one study with Level 2 evidence.
Recommendation 34.Based on ClinGen classifications, ALS gene panel reports should clearly differentiate between genes that are causal for ALS and those genes where the evidence is sparse, conflicting or insufficient.
Key points: The strength of genetic evidence supporting the ability of specific genes to cause ALS varies widely and changes as additional studies are conducted.This evidence often shifts faster than the disease-specific panels offered at testing laboratories and results in variants being reported for genes that are no longer considered monogenic causes of ALS.Laboratories should consider dropping these genes from their panels or at least designate the gene-disease validity of tested genes, as classified by the Amyotrophic Lateral Sclerosis Spectrum Disorders Gene Curation Expert Panel of ClinGen (https:// clinicalgenome.org/affiliation/40096/).In particular, genes classified as "Limited" or "Refuted" or not curated should be clearly differentiated on the report.GRADE rating: D -Expert.Strength: There are no studies supporting this recommendation.
Recommendation 35.When targeted-capture, wholeexome, or whole-genome methods are used, gene regions that were not adequately assessed should be interrogated further or highlighted in the report.
Key points: Due to difficulties generating adequate sequencing coverage or challenges with mapping and alignment, most current sequencing technologies have reduced sensitivity for variants in some genomic regions (e.g., exons 1 and 2 of CHCHD10).It is recommended that laboratories use additional methods to fill these gaps whenever possible.In the event that this is not performed, laboratory reports should clearly identify regions of genes where inadequate sequencing coverage or known issues may have decreased sensitivity for specific types of mutations.These specifications should aim to be interpretable by clinicians without genomic training (e.g., which amino acid stretches were missed rather than genomic coordinates or a percentage of base pairs for the entire exon or gene).This will enable ordering clinicians can accurately assess the likelihood of missed finding in their patients.
GRADE rating: D -Expert.Strength: There are no studies supporting this recommendation.

Discussion
These evidence-based, consensus guidelines for ALS genetic testing, counseling and methodologies are meant to establish a standard of care in clinical practice for individuals with ALS.Currently, persons with ALS in the United States have variable access to tertiary, academic, multidisciplinary ALS clinics staffed by genetic counselors.And while there has been improvement in access to multidisciplinary care clinics worldwide, the majority of people with ALS do not have access to such clinics. 99,100These practice guidelines can be adopted by neurologists in private practice, in academic settings, and by other providers such as nurse practitioners and general practitioners when neurologists are not available.These guidelines will also serve these providers when genetic counselors are not available.Separate recommendations have been published for presymptomatic genetic counseling and testing. 57enetic counselors in the United States are board certified by the American Board of Genetic Counseling and offer unique value in the care of individuals with ALS.They provide a perspective and training that neurologists and other medical providers do not typically have, including the treatment of family as the unit of care.These guidelines will support neurologists and other clinicians in providing genetic counseling when a board-certified genetic counselor is not available and are intended to provide uniformity to the genetic counseling and testing approach of a person with ALS, regardless of clinical setting.Access to board-certified genetic counselors is scarce, and the ideal scenario of an integrated genetic counselor within the multidisciplinary ALS care team is currently scarcer still.Given the rapidly increasing importance and need for genetic counselors in ALS, and in neurogenetics in general, research into alternative service delivery models is needed.Possible models to expand access to genetic counseling and patient education include telemedicine modalities, patient webinars with follow-up genetic counseling, and online decision tools.101,102 Nonetheless, genetic counselors will become increasingly required as part of multidisciplinary teams in neurology as the technological advances in our understanding of genetic risk and association progresses.In particular, the analysis and complexity of genetic testing results will necessitate expert interpretation and the ability to communicate complexity and uncertainty to patients and clinicians alike.The need for these specialized clinical skills will become ever more acute as gene-targeted therapies are approved and patient eligibility is determined.
Our review of the literature on laboratory practices in commercial ALS genetic testing revealed a lack of consistency in methodologies and clinical reporting of results.It also revealed a paucity of published evidence for the interpretation and reporting of results.Commercial genetic testing laboratories establish their own workflows; however, the guidelines presented here are meant to serve as standards to harmonize the methodologies and reporting for these stakeholders.
These guidelines reflect current genomic technology, which will evolve along with our scientific understanding of the genetics of ALS.It is expected that genetic associations with ALS and related disorders will continue expand, and with it, the complexity of results that must be communicated.In the future, associations with the nonprotein coding genome are expected to advance for example, which will require increased genetics sophistication of ALS providers.We view these guidelines as a first step toward a uniform and equitable approach to ALS genetic testing that will require revision periodically as new genetic discoveries and new genetic therapies, both experimental and FDA-approved, move forward for people living with ALS.

Figure 1 .
Figure 1.Summary of methods for guidelines development.GRADE; Grading of Recommendations, Assessment, Development and Evaluation 19 ; EGAPP, Evaluation of Genomic Applications in Practice and Prevention.24

Figure 2 .
Figure 2. PRISMA-P flow diagram of the identified studies (263 articles were included in the rapid review).

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2023 The Authors.Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.
24apted from Teutsch et al.24ª 2023 The Authors.Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.