癫痫和智障成人的静息-活动节律表型

Nandani Adhyapak, Mark A Abboud, Grace E Cardenas, Vaishnav Krishnan
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Caregivers were also asked to ensure that subjects wore an Actiwatch-2 device continuously on their nondominant wrist for at least ten days. From recorded actograms, we calculated RAR amplitude, acrophase, robustness, intradaily variability (IV), interdaily stability (IS) and estimates of sleep quantity and timing. We compared these RAR metrics against those from (i) a previously published cohort of adults with epilepsy without ID (EID), and (ii) a cohort of age- and sex-matched intellectually able subjects measured within the Study of Latinos (SOL) Ancillary actigraphy study (SOL). Within E+ID subjects, we applied k-means analysis to divide subjects into three actigraphically distinct clusters. Results: 46 E+ID subjects (median age 26 [20-68], 47% female) provided a median recording duration of 11 days [range 6-27]. 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引用次数: 0

摘要

目的:睡眠和休息-活动节律(RAR)在多种神经精神疾病中都会受到干扰。在这项研究中,我们采用腕部活动记录仪来描述患有癫痫和智力障碍(E+ID)的成年人的 RAR 干扰程度。我们研究了横截面获得的 RAR 表型是否与癫痫严重程度、适应功能缺陷和/或合并精神病理学相关。研究方法E+ID成人的主要照护者在常规门诊就诊时提供知情同意,并被要求完成有关总体癫痫严重程度(GASE,癫痫严重程度全球评估)、适应功能(ABAS-3,适应行为评估系统-3)和精神病理学(ABCL,成人行为核对表)的标准化调查。我们还要求护理人员确保受试者在至少十天的时间里在非支配腕部持续佩戴 Actiwatch-2 设备。根据记录的动图,我们计算了 RAR 振幅、快相、稳健性、日内变异性 (IV)、日间稳定性 (IS) 以及睡眠量和睡眠时间的估计值。我们将这些 RAR 指标与 (i) 以前发表的无 ID(EID)成人癫痫患者队列和 (ii) 拉丁人研究(SOL)辅助动图研究(SOL)中测量的年龄和性别匹配的智力健全受试者队列中的指标进行了比较。在 E+ID 受试者中,我们应用 k-means 分析法将受试者分为三个不同的动图群组。结果如下46 名 E+ID 受试者(中位年龄 26 [20-68],47% 为女性)提供了 11 天 [6-27] 的中位记录时间。调查显示,受试者的适应功能处于较低至极低水平(ABAS3 一般适应综合评分:中位数 50 [49-75]),精神病理学处于较低/亚临床水平(ABCL 总分:中位数 54.5 [25-67])。与E-ID(57人)和SOL(156人)队列相比,E+ID受试者的RAR振幅、稳健性和IS显著较低,IV和每日睡眠总量显著较高。对 E+ID 受试者进行 K-means 聚类后发现了一个中间聚类 B,其 RAR 值与 E-ID 无异。A群组的受试者表现出明显的低活跃性和嗜睡症,节律破碎率高,而C群组的受试者则表现出超强和高振幅的RAR。所有三个群组在年龄、体重指数、抗癫痫药物(ASM)多重治疗、ABAS3 和 ABCL 评分方面都很相似。我们对所有三个群组的 RAR 示例进行了定性描述。解释:我们的研究表明,患有癫痫和智障的成年人显示出广泛的 RAR 表型,这些表型与适应功能或癫痫严重程度的测量结果并不完全相关。有必要进行前瞻性研究,以确定持续的动图监测能否灵敏地捕捉到随着疾病进展、先天因素(如 ASM 毒性)或急性健康恶化(如癫痫发作加重、肺炎)而可能出现的时间生物学健康变化。有必要提供类似的长期数据,以确认针对 RARs 正常化的行为干预是否会促进适应功能和治疗参与度的改善。
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Rest-Activity Rhythm Phenotypes in Adults with Epilepsy and Intellectual Disability
Objective: Sleep and rest-activity rhythms (RARs) are perturbed in many forms of neuropsychiatric illness. In this study, we applied wrist actigraphy to describe the extent of RAR perturbations in adults with epilepsy and intellectual disability (E+ID). We examined whether RAR phenotypes obtained cross-sectionally correlate with epilepsy severity, deficits in adaptive function and/or comorbid psychopathology. Methods: Primary caregivers of E+ID adults provided informed consent during routine ambulatory clinic visits and were asked to complete standardized surveys of overall epilepsy severity (GASE, Global Assessment of Severity of Epilepsy), adaptive function (ABAS-3, Adaptive Behavior Assessment System-3) and psychopathology (ABCL, Adult Behavior Checklist). Caregivers were also asked to ensure that subjects wore an Actiwatch-2 device continuously on their nondominant wrist for at least ten days. From recorded actograms, we calculated RAR amplitude, acrophase, robustness, intradaily variability (IV), interdaily stability (IS) and estimates of sleep quantity and timing. We compared these RAR metrics against those from (i) a previously published cohort of adults with epilepsy without ID (EID), and (ii) a cohort of age- and sex-matched intellectually able subjects measured within the Study of Latinos (SOL) Ancillary actigraphy study (SOL). Within E+ID subjects, we applied k-means analysis to divide subjects into three actigraphically distinct clusters. Results: 46 E+ID subjects (median age 26 [20-68], 47% female) provided a median recording duration of 11 days [range 6-27]. Surveys reflected low to extremely low levels of adaptive function (ABAS3 General Adaptive Composite score: median 50 [49-75]), and low/subclinical levels of psychopathology (ABCL total score: median 54.5 [25-67]). Compared with E-ID (n=57) and SOL (n=156) cohorts, E+ID subjects displayed significantly lower RAR amplitude, robustness and IS, with significantly higher IV and total daily sleep. K-means clustering of E+ID subjects recognized an intermediate cluster B, with RAR values indistinguishable to E-ID. Cluster A subjects displayed pronounced hypoactivity and hypersomnia with high rates of rhythm fragmentation, while cluster C subjects featured hyper-robust and high amplitude RARs. All three clusters were similar in age, body mass index, antiseizure medication (ASM) polytherapy, ABAS3 and ABCL scores. We qualitatively describe RAR examples from all three clusters. Interpretation: We show that adults with epilepsy and intellectual disability display a wide spectrum of RAR phenotypes that do not neatly correlate with measures of adaptive function or epilepsy severity. Prospective studies are necessary to determine whether continuous actigraphic monitoring can sensitively capture changes in chronobiological health that may arise with disease progression, iatrogenesis (e.g., ASM toxicity) or acute health deteriorations (e.g., seizure exacerbation, pneumonia). Similar long-term data is necessary to recognize whether behavioral interventions targeted to normalize RARs may promote improvements in adaptive function and therapy engagement.
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