商业性先天性前节异常基因检测面板:它们都一样吗?
Commercial Gene Panels for Congenital Anterior Segment Anomalies: Are They All the Same?
机构信息
From the Bascom Palmer Eye Institute (M.F.V., T.C.P.C.), University of Miami Miller School of Medicine, Miami, Florida, USA; John P. Hussmann Institute for Human Genomics (M.F.V., G.B.), University of Miami Miller School of Medicine, Miami, Florida, USA; University of Miami Miller School of Medicine (M.F.V., C.M.L., P.P.), Miami, Florida, USA.
University of Miami Miller School of Medicine (M.F.V., C.M.L., P.P.), Miami, Florida, USA.
出版信息
Am J Ophthalmol. 2023 Jul;251:90-103. doi: 10.1016/j.ajo.2023.02.025. Epub 2023 Mar 10.
PURPOSE
We compared next generation sequencing multigene panels (NGS-MGP) from 5 commercial laboratories to inform ophthalmologists' decision making in diagnostic genetic testing for congenital anterior segment anomalies (CASAs).
DESIGN
Comparison of commercial genetic testing panels.
METHODS
This observational study gathered publicly available information on NGS-MGP from 5 commercial laboratories for the following: cataracts, glaucoma, anterior segment dysgenesis (ASD), microphthalmia-anophthalmia-coloboma (MAC), corneal dystrophies, and Axenfeld-Rieger syndrome (ARS). We compared gene panel composition, consensus rate (genes covered by all the panels per condition, "concurrent"), dissensus rate (genes covered by only 1 panel per condition, "standalone"), and intronic variant coverage. For individual genes, we compared publication history and association with systemic conditions.
RESULTS
Altogether, cataract, glaucoma, corneal dystrophies, MAC, ASD, and ARS panels tested 239, 60, 36, 292, and 10 discrete genes, respectively. The consensus rate varied between 16% and 50%, and the dissensus rate varied between 14% and 74%. After pooling concurrent genes from all conditions, 20% of these genes were concurrent in 2 or more conditions. For both cataract and glaucoma, concurrent genes had significantly stronger correlation with the condition than standalone genes.
CONCLUSIONS
The genetic testing of CASAs using NGS-MGPs is complicated, owing to their number, variety, and phenotypic and genetic overlap. Although the inclusion of additional genes, such as the standalone ones, might increase diagnostic yield, these genes are also less well studied, indicating uncertainty over their role in CASA pathogenesis. Rigorous prospective diagnostic yield studies of NGS-MGPs will aid in making decisions of panel selection for the diagnosis of CASAs.
目的
我们比较了 5 家商业实验室的下一代测序多基因组合(NGS-MGP),以帮助眼科医生在先天性前节异常(CASAs)的诊断性遗传检测中做出决策。
设计
商业基因检测面板的比较。
方法
本观察性研究从 5 家商业实验室收集了公开的 NGS-MGP 信息,用于以下情况:白内障、青光眼、前节发育不良(ASD)、小眼球-无眼-并指畸形(MAC)、角膜营养不良和 Axenfeld-Rieger 综合征(ARS)。我们比较了基因面板组成、共识率(每个条件下所有面板覆盖的基因,“共同”)、分歧率(每个条件下仅一个面板覆盖的基因,“独立”)和内含子变异覆盖率。对于个别基因,我们比较了其发表历史和与全身疾病的关系。
结果
白内障、青光眼、角膜营养不良、MAC、ASD 和 ARS 面板分别测试了 239、60、36、292 和 10 个离散基因。共识率在 16%至 50%之间,分歧率在 14%至 74%之间。将所有条件的共同基因合并后,这些基因中有 20%在 2 种或以上条件下是共同的。对于白内障和青光眼,共同基因与疾病的相关性明显强于独立基因。
结论
由于数量、种类、表型和遗传重叠,使用 NGS-MGPs 对 CASAs 进行遗传检测很复杂。尽管增加如独立基因等其他基因可能会提高诊断率,但这些基因也研究得较少,表明其在 CASA 发病机制中的作用存在不确定性。对 NGS-MGPs 的严格前瞻性诊断性产量研究将有助于做出选择 CASAs 诊断的面板选择决策。
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