Diagnosing Monogenic Stroke at Younger Age.

IF 7.8 1区医学 Q1 CLINICAL NEUROLOGY

Stroke Pub Date : 2024-11-05 DOI:10.1161/STROKEAHA.124.048044

Andreea Ilinca, Efthymia Kafantari, Joel Wallenius, Ulf Kristoffersson, Elisabet Englund, Andreas Puschmann, Arne G Lindgren

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引用次数: 0

Abstract

Background: An increasing number of monogenic conditions underlying stroke are being identified. We explored the possibilities of increasing the diagnostic yield of monogenic stroke in a population under 56 years of age.

Methods: Fifty probands ≤55 years at their first stroke episode were characterized clinically and investigated by whole genome sequencing. Probands had one or more of: (1) one or more first to second degree relatives with stroke under 60 years or same stroke-causing condition/disease; (2) no hypertension, hypercholesterolemia, diabetes, heart disease, or smoking; or (3) either multiple stroke episodes or multiple arterial dissections. Variants with minor allele frequency under 0.01, identified by using our stroke gene panels, were assessed. The stroke subtypes, including large artery atherosclerotic, large artery nonatherosclerotic (tortuosity, dolichoectasia, aneurysm, nonatherosclerotic dissection, or occlusion), cerebral small vessel disease, cardioembolic (arrhythmia, heart defect, or cardiomyopathy), coagulation dysfunctions (venous thrombosis, arterial thrombosis, or bleeding tendency), intracerebral hemorrhage, vascular malformations (cavernoma or arteriovenous malformations), metabolic disorders, or cryptogenic embolic, were used for genotype-phenotype correlation. In a final step, we combined genetic and clinical information to determine if the genetic variant likely was the cause of stroke in the patients.

Results: Whole genome sequencing of younger patients with stroke identified 17 clinically matching genetic variants in 15 of 50 (30%) patients, while a stronger clinical correlation with stroke was established in only 6 (12%) of them. Stroke-related genetic variants were identified in 4 of 5 (80%) patients with cardioembolic stroke subtype, 3 of 4 (75%) with intracerebral hemorrhage, 7 of 18 (39%) with cryptogenic embolic stroke, 1 of 6 (17%) with small vessel disease, and 3 of 15 (20%) of patients with nonatherosclerotic large artery stroke, including 1 of 11 (9%) with cervical dissection stroke.

Conclusions: Careful clinical interpretation of whole genome data using stroke gene panels can detect monogenic causes of early stroke, allowing individualized follow-up and opening new possibilities for potential treatment.

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在年轻时诊断单基因中风。

背景：越来越多的单基因脑卒中正在被发现。我们探讨了在 56 岁以下人群中提高单基因中风诊断率的可能性：方法：我们对首次中风发病时年龄小于 55 岁的 50 名疑似患者进行了临床特征描述和全基因组测序调查。受试者有一个或多个条件：(1) 有一个或多个一级至二级亲属在 60 岁以下中风或有相同的中风致病条件/疾病；(2) 无高血压、高胆固醇血症、糖尿病、心脏病或吸烟；或 (3) 多次中风发作或多次动脉交叉。通过使用我们的中风基因面板，对小等位基因频率低于 0.01 的变异进行了评估。中风亚型包括大动脉粥样硬化性中风、大动脉非动脉粥样硬化性中风（迂曲、动脉瘤、非动脉粥样硬化性动脉夹层或闭塞）、脑小血管疾病、心栓塞性中风（心律失常、心脏缺陷或心肌病）、凝血功能障碍（静脉血栓形成、动脉血栓形成或出血倾向）、脑内出血、血管畸形（海绵状瘤或动静脉畸形）、代谢紊乱或隐源性栓塞则用于基因型与表型的相关性分析。最后，我们结合基因和临床信息，确定基因变异是否可能是患者中风的原因：对较年轻的中风患者进行全基因组测序，在 50 名患者中的 15 人（30%）中发现了 17 个与临床匹配的基因变异，而其中只有 6 人（12%）与中风有较强的临床相关性。5名心源性栓塞性中风亚型患者中有4名（80%）、4名脑出血患者中有3名（75%）、18名隐源性栓塞性中风患者中有7名（39%）、6名小血管疾病患者中有1名（17%）、15名非动脉粥样硬化性大动脉中风患者中有3名（20%）（包括11名颈椎夹层中风患者中有1名（9%））发现了与中风相关的基因变异：结论：使用中风基因检测板对全基因组数据进行仔细的临床解读可检测出早期中风的单基因病因，从而进行个体化随访并为潜在治疗提供新的可能性。

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

Stroke 医学-临床神经学

CiteScore

13.40

自引率

6.00%

发文量

2021

审稿时长

3 months

期刊介绍： Stroke is a monthly publication that collates reports of clinical and basic investigation of any aspect of the cerebral circulation and its diseases. The publication covers a wide range of disciplines including anesthesiology, critical care medicine, epidemiology, internal medicine, neurology, neuro-ophthalmology, neuropathology, neuropsychology, neurosurgery, nuclear medicine, nursing, radiology, rehabilitation, speech pathology, vascular physiology, and vascular surgery. The audience of Stroke includes neurologists, basic scientists, cardiologists, vascular surgeons, internists, interventionalists, neurosurgeons, nurses, and physiatrists. Stroke is indexed in Biological Abstracts, BIOSIS, CAB Abstracts, Chemical Abstracts, CINAHL, Current Contents, Embase, MEDLINE, and Science Citation Index Expanded.