Genetic Testing for Familial Hypercholesterolemia: Health Technology Assessment.

Q1 Medicine Ontario Health Technology Assessment Series Pub Date : 2022-08-23 eCollection Date: 2022-01-01
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It reduced the number of FH diagnoses, led to fewer cardiovascular events, and improved QALYs. For first-degree relatives of genetically confirmed cases, all cascade screening strategies (genetic testing, sequential testing, and lipid testing) were cost-effective when compared with no cascade screening in a pairwise fashion. The ICERs of cascade screening with genetic, sequential, and lipid testing compared with no cascade screening were $58,390, $50,220, and $45,754 per QALY gained, respectively. When comparing all screening strategies together, cascade screening with lipid testing was the most cost-effective strategy. At commonly used willingness-to-pay values of $50,000 and $100,000 per QALY gained, the probability of lipid cascade screening being cost-effective was 53.5% and 71.5%, respectively.The annual budget impact of publicly funding genetic testing for individuals with a clinical FH diagnosis in Ontario ranged from a cost saving of $2 million in year 1 to $64 million in year 5, for a total of $141 million saved over the next 5 years, assuming the cost of genetic testing remains at $490 per person. If only testing-related costs were considered, the budget impact was estimated to be an additional cost of $7 million in year 1, increasing to $20 million in year 5, for a total cost of $64 million over the next 5 years. For relatives of genetically confirmed cases, publicly funding genetic cascade screening would lead to an additional cost of $5 million in year 1, increasing to $27 million in year 5, for a total cost of $73 million over the next 5 years. 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Abstract

Background: Familial hypercholesterolemia (FH) is an inherited disorder characterized by abnormally elevated low-density lipoprotein (LDL) cholesterol serum levels from birth, which increases the risk of premature atherosclerotic cardiovascular disease. Genetic testing is a type of a medical test that looks for changes in genes or chromosome structure to discover genetic differences, anomalies, or mutations that may prove pathological. It is regarded as the gold standard for screening and diagnosing FH. We conducted a health technology assessment on genetic testing for people with FH and their relatives (i.e., cascade screening). The assessment included an evaluation of clinical utility (the ability of a test to improve health outcomes), the diagnostic yield (ability of a test to identify people with FH), cost-effectiveness, the budget impact of publicly funding genetic testing for FH, and patient preferences and values.

Methods: We performed a systematic literature search of the clinical evidence. For evaluation of clinical utility, we assessed the risk of bias of each included study using the ROBINS-I tool and the quality of the body of evidence according to the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) Working Group criteria.We performed a systematic economic literature search and conducted a cost-effectiveness and cost-utility analysis with a lifetime horizon from a public payer perspective. We assessed the cost-effectiveness of using genetic testing both for confirming a FH clinical diagnosis and for cascade screening in relatives of genetically confirmed cases. We evaluated the cost effectiveness of cascade screening strategies with genetic testing, sequential testing, and lipid testing approaches. We also analyzed the budget impact of publicly funding genetic testing in Ontario.

Results: We included 11 studies in the clinical evidence review. Overall, our review found that genetic testing to diagnose FH improves several health outcomes (GRADE: Moderate) compared with clinical evaluation without a genetic test. We also found that genetic cascade screening leads to a high diagnostic yield of FH.According to our primary economic evaluation, genetic testing is a dominant strategy (more effective and less costly) compared with no genetic testing for individuals with a FH clinical diagnosis. It reduced the number of FH diagnoses, led to fewer cardiovascular events, and improved QALYs. For first-degree relatives of genetically confirmed cases, all cascade screening strategies (genetic testing, sequential testing, and lipid testing) were cost-effective when compared with no cascade screening in a pairwise fashion. The ICERs of cascade screening with genetic, sequential, and lipid testing compared with no cascade screening were $58,390, $50,220, and $45,754 per QALY gained, respectively. When comparing all screening strategies together, cascade screening with lipid testing was the most cost-effective strategy. At commonly used willingness-to-pay values of $50,000 and $100,000 per QALY gained, the probability of lipid cascade screening being cost-effective was 53.5% and 71.5%, respectively.The annual budget impact of publicly funding genetic testing for individuals with a clinical FH diagnosis in Ontario ranged from a cost saving of $2 million in year 1 to $64 million in year 5, for a total of $141 million saved over the next 5 years, assuming the cost of genetic testing remains at $490 per person. If only testing-related costs were considered, the budget impact was estimated to be an additional cost of $7 million in year 1, increasing to $20 million in year 5, for a total cost of $64 million over the next 5 years. For relatives of genetically confirmed cases, publicly funding genetic cascade screening would lead to an additional cost of $5 million in year 1, increasing to $27 million in year 5, for a total cost of $73 million over the next 5 years. If only testing-related costs were considered, the budget impact was estimated to be an additional of $66 million.

Conclusions: Genetic testing for FH has a higher clinical utility than clinical evaluation without a genetic test. It also results in a high diagnostic yield of FH through cascade screening. For individuals with a clinical diagnosis of FH, genetic testing would be a cost-saving and more effective diagnostic strategy. For relatives of index cases confirmed through genetic testing, genetic and lipid cascade screening are both cost-effective compared with no screening, but genetic cascade screening is less cost-effective than lipid cascade screening. We estimated that publicly funding genetic testing for individuals with a clinical diagnosis of FH in Ontario would save $141 million, and publicly funding genetic testing in a cascade screening program for relatives would cost an additional $73 million over the next five years.Most people with a positive genetic test perceived the screening, diagnosis, and treatment for FH more positively. The discovery of the condition can lead people to adhere to relevant treatments in an effort to control their cholesterol levels. People we spoke with felt that greater awareness and education would allow for more efficient uptake of cascade screening.

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家族性高胆固醇血症的基因检测:健康技术评估。
背景:家族性高胆固醇血症(FH)是一种遗传性疾病,其特征是出生时血清低密度脂蛋白(LDL)胆固醇水平异常升高,可增加过早动脉粥样硬化性心血管疾病的风险。基因检测是一种医学检测,它通过寻找基因或染色体结构的变化来发现可能证明是病理的遗传差异、异常或突变。它被认为是筛查和诊断FH的金标准。我们对FH患者及其亲属的基因检测(即级联筛查)进行了卫生技术评估。评估包括对临床效用(检测改善健康结果的能力)、诊断率(检测识别FH患者的能力)、成本效益、公共资助FH基因检测的预算影响以及患者偏好和价值观的评估。方法:对临床证据进行系统的文献检索。为了评估临床效用,我们使用ROBINS-I工具评估了每个纳入研究的偏倚风险,并根据建议评估、发展和评估分级(GRADE)工作组标准评估了证据体的质量。我们进行了系统的经济文献检索,并从公共付款人的角度进行了成本效益和成本效用分析。我们评估了使用基因检测来确认FH临床诊断和在基因确诊病例的亲属中进行级联筛查的成本效益。我们评估了基因检测、序列检测和脂质检测方法的级联筛查策略的成本效益。我们还分析了安大略省公共资助基因检测对预算的影响。结果:我们纳入了11项临床证据综述。总的来说,我们的综述发现,与不进行基因检测的临床评估相比,通过基因检测诊断FH改善了一些健康结果(GRADE: Moderate)。我们还发现遗传级联筛选导致FH的高诊断率。根据我们的初步经济评估,与不进行基因检测相比,基因检测是FH临床诊断患者的主要策略(更有效,成本更低)。它减少了FH诊断的数量,导致更少的心血管事件,并改善了qaly。对于遗传确诊病例的一级亲属,所有级联筛查策略(基因检测、序列检测和脂质检测)与没有级联筛查的两两比较都具有成本效益。与不进行级联筛查相比,采用遗传、序列和脂质检测进行级联筛查获得的ICERs分别为58390美元、50220美元和45754美元/ QALY。当将所有筛查策略一起比较时,级联筛查与脂质检测是最具成本效益的策略。在通常使用的支付意愿值为每个QALY获得5万美元和10万美元时,脂质级联筛查的成本效益概率分别为53.5%和71.5%。在安大略省,对临床诊断为FH的个人进行基因检测的公共资助的年度预算影响从第一年节省200万美元到第五年节省6400万美元不等,假设基因检测的费用保持在每人490美元,那么在未来5年总共节省1.41亿美元。如果只考虑与测试有关的费用,预算影响估计是第一年增加700万美元的费用,第五年增加到2 000万美元,今后5年的总费用为6 400万美元。对于基因确诊病例的亲属,公共资助基因级联筛查将导致第一年的额外费用为500万美元,第五年增加到2700万美元,未来5年的总费用为7300万美元。如果只考虑与检测有关的费用,预算影响估计为6 600万美元。结论:FH基因检测比不进行基因检测的临床评价具有更高的临床效用。通过级联筛选,FH的诊断率也很高。对于临床诊断为FH的个人,基因检测将是一种节省成本和更有效的诊断策略。对于经基因检测确诊的指标病例亲属,遗传级联筛查和脂质级联筛查均比不筛查具有成本效益,但遗传级联筛查的成本效益低于脂质级联筛查。我们估计,在安大略省,为临床诊断为FH的个人提供公共资助的基因检测将节省1.41亿美元,而在亲属级联筛查项目中提供公共资助的基因检测将在未来五年内额外花费7300万美元。 大多数基因检测呈阳性的人对FH的筛查、诊断和治疗更为积极。这种情况的发现可以引导人们坚持相关治疗,努力控制他们的胆固醇水平。与我们交谈的人认为,提高认识和教育将允许更有效地采用级联筛查。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Ontario Health Technology Assessment Series
Ontario Health Technology Assessment Series Medicine-Medicine (miscellaneous)
CiteScore
4.60
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