Correlation Dimension 相关维度 |
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Roschke, et al. 1992 [21] 罗施克等人。 1992年[21] | 12 healthy males, 20-31 y; sleep under lorazepam versus placebo 12名健康男性,20-31岁;服用劳拉西泮与安慰剂相比睡眠 | SWS depicts a much smaller dimensionality than light or REM sleep; lorazepam does not alter the EEG's dimensionality except in stage 2 and REM sleep. SWS 描述的维度比浅睡眠或快速眼动睡眠小得多;除第二阶段和快速眼动睡眠外,劳拉西泮不会改变脑电图的维度。 |
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Roschke, et al. 1994 [30] 罗施克等人。 1994年[30] | 9 depressive and 11 schizophrenic inpatients compared to healthy controls 9 名抑郁症住院患者和 11 名精神分裂症住院患者与健康对照者相比 | Altered nonlinear brain dynamics mainly during slow wave sleep in depression and during REM sleep in schizophrenia. 非线性大脑动力学的改变主要发生在抑郁症的慢波睡眠期间和精神分裂症的快速眼动睡眠期间。 |
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Achermann, et al. 1994 [24] 阿赫曼等人。 1994年[24] | 11 healthy males, 23-32 y 11名健康男性,23-32岁 | CD was high in REM sleep, declined progressively within each NREM sleep episode, and reached a low level at times when SWS was dominant. CD 在 REM 睡眠中较高,在每次 NREM 睡眠期间逐渐下降,并在 SWS 占主导地位时达到较低水平。 |
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Fell, et al. 1996 [22] 菲尔等人。 1996年[22] | 12 healthy males, 23-36 y 12名健康男性,23-36岁 | Nonlinear measures yield additional information, which improves the ability to discriminate sleep stages and which may in general improve the ability to distinguish different psychophysiological states. 非线性测量产生额外的信息,这提高了区分睡眠阶段的能力,并且通常可以提高区分不同心理生理状态的能力。 |
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Pereda, et al. 1998 [20] 佩雷达等人。 1998年[20] | 9 healthy males and females, mean age 27.3 y 健康男女各9名,平均年龄27.3岁 | EEG exhibits random fractal structure with 1/f -β (1 < β < 3) and a negative linear correlation between CD and fractal exponent (β) in all states except during SWS. EEG 表现出具有 1/f -β (1 < β < 3) 的随机分形结构,并且在除 SWS 期间之外的所有状态下 CD 和分形指数 (β) 之间呈负线性相关。 |
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Ferri, et al. 1999 [32] 费里等人。 1999 [32] | 9 narcoleptic patients, male and female, 20–55 y 9 名发作性睡病患者,男性和女性,20-55 岁 | CD was higher in normal controls than in narcoleptic patients. 正常对照者的 CD 高于发作性睡病患者。 |
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Kobayashi, et al. 2000 [27] 小林等人。 2000年[27] | 1 healthy male, 22 y 1名健康男性,22岁 | CD decreased from wake to sleep stage 1 to 3, and increased for REM sleep. CD 从清醒到睡眠阶段 1 至 3 下降,而在快速眼动睡眠阶段则增加。 |
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Kobayashi, et al. 2000 [26] 小林等人。 2000年[26] | 10 healthy males, mean age 23.6 y 10名健康男性,平均年龄23.6岁 | CD significantly decreased from wake to sleep stage 1, 2, 3 and increased during REM sleep. The mean CD of the sleep EEG in the second half of the night was significantly higher than those in the first half of the night. CD 从清醒到睡眠阶段 1、2、3 显着下降,而在 REM 睡眠期间增加。后半夜睡眠脑电图平均CD显着高于前半夜。 |
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Jeong, et al. 2001 [28] 郑等人。 2001年[28] | 20 healthy male volunteers, 23.4±1.9 y. A 24-hour schedule of sleep deprivation began on morning awakening following a normal sleep night. 20名健康男性志愿者,23.4±1.9岁。 24小时睡眠剥夺计划从正常睡眠后早上醒来开始。 | The sleep-deprived states had lower CD values at three channels (P4, O2, and C3) than normal states. 睡眠剥夺状态下三个通道(P4、O2 和 C3)的 CD 值低于正常状态。 |
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Kobayashi, et al. 2001 [90] 小林等人。 2001年[90] | 9 male subjects, 21–24 y, in good health and with no history of alcoholism. PSG was recorded on baseline night (no ethanol) and on study night when ethanol (0.8 g/kg) was given 15 minutes prior to sleep study. 9 名男性受试者,21-24 岁,身体健康,无酗酒史。在基线晚上(无乙醇)和研究晚上(在睡眠研究前 15 分钟给予乙醇(0.8 g/kg))记录 PSG。 | The mean CD of EEG during sleep stage 2 and those for the second sleep cycle on the ethanol night were significantly higher than those on the baseline night (no ethanol). The changes in CD between sleep cycles were reduced on ethanol night as compared to baseline night. 第 2 阶段睡眠期间的脑电图平均 CD 以及乙醇夜间第二个睡眠周期的脑电图平均 CD 显着高于基线夜间(无乙醇)的脑电图平均 CD。与基线夜间相比,乙醇夜间睡眠周期之间 CD 的变化减少。 |
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Ferri, et al. 2001 [89] 费里等人。 2001年[89] | 5 children with ESES, males and female, 6.5-10 y 5 名 ESES 儿童,男性和女性,6.5-10 岁 | In NREM sleep, the possible presence of low-dimensional chaos could be suspected. EEG without ESES could not be distinguished from linearly filtered noise. 在非快速眼动睡眠中,可以怀疑可能存在低维混沌。没有 ESES 的 EEG 无法与线性过滤的噪声区分开来。 |
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Acharya, et al. 2005 [15] 阿查里亚等人。 2005年[15] | 8 healthy Caucasian, males and females, 21-35 y 8 名健康白人,男性和女性,21-35 岁 | CD decreases from wake to sleep stages 1-4 and then increases during REM sleep. CD 从清醒到睡眠阶段 1-4 降低,然后在快速眼动睡眠期间增加。 |
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Scher, et al. 2005 [91] 谢尔等人。 2005年[91] | 116 EEG recordings in 55 neonatal subjects (28-43 wk gestational age) 55 名新生儿受试者(胎龄 28-43 周)的 116 条脑电图记录 | For full-term infants, CD between AS and QS was significantly different. A positive correlation between CD and increasing conceptional age was noted. 对于足月婴儿,AS 和 QS 之间的 CD 显着不同。注意到 CD 与受孕年龄增加之间呈正相关。 |
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Janjarasjitt, et al. 2008 [25] Janjarasjit等人。 2008年[25] | 50 healthy neonates (22 male) with postmenstrual age of 28-42 wk. 50 名健康新生儿(22 名男性),月经后年龄为 28-42 周。 | CD during AS is higher than during QS, and CD during indeterminate sleep is virtually at the midpoint between them. The birth status (preterm or full-term) of the neonate has an influence on CD. AS 期间的 CD 高于 QS 期间的 CD,而不确定睡眠期间的 CD 实际上处于两者之间的中点。新生儿的出生状态(早产或足月)对 CD 有影响。 |
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Bell, et al. 2012 [88] 贝尔等人。 2012年[88] | 54 subjects with histories of coffee-induced insomnia, male and female, mean age 20 y 54 名有咖啡引起失眠史的受试者,男性和女性,平均年龄 20 岁 | Both Coffea cruda 30c and Nux vomic 30c increased CD in SWS in the post-remedy night. Coffea cruda 30c 和Nux vomic 30c 都增加了治疗后晚上 SWS 中的 CD。 |
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Hurst Exponent 赫斯特指数 |
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Acharya, et al. 2005 [15] 阿查里亚等人。 2005年[15] | 8 healthy Caucasian, males and females, 21-35 y 8 名健康白人,男性和女性,21-35 岁 | H values were higher in wake and REM sleep, indicating higher self-similarity, but were lowest in stage 3 and 4. H值在清醒和快速眼动睡眠中较高,表明自相似性较高,但在第 3 和第 4 阶段最低。 |
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Weiss, et al. 2009 [36] 韦斯等人。 2009年[36] | 10 healthy subjects, male and female, 17–53 y 10 名健康受试者,男性和女性,17-53 岁 | Higher H values during stage 4 compared to stage 2 and REM sleep in all electrodes. 与所有电极中的第 2 阶段和 REM 睡眠相比,第 4 阶段的H值更高。 |
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Weiss, et al. 2011 [37] 韦斯等人。 2011年[37] | 22 healthy subjects 22名健康受试者 | Highest H values emerged frontally during all sleep stages, while the minimum was found during REM in the central zone. 最高的H值出现在所有睡眠阶段的正面,而最低的 H 值出现在中央区域的快速眼动期间。 |
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Detrended Fluctuation Analysis 去趋势波动分析 |
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Lee, et al. 2002 [43] 李等人。 2002年[43] | 17 PSG data in MIT/BIH database 17 MIT/BIH 数据库中的 PSG 数据 | The mean scaling exponents of EEG is discriminated according to NREM, REM and wake, and gradually increased from stage 1 to stage 2, 3 and 4. 脑电图的平均标度指数根据 NREM、REM 和唤醒进行区分,并从阶段 1 逐渐增加到阶段 2、3 和 4。 |
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Lee, et al. 2004 [39] 李等人。 2004年[39] | The sleep EEGs of six healthy males (30–35 y) and six sleep apnea EEGs (slp02a, slp14, slp16, slp37, slp61, and slp66; aged 32–39 years; all of them were males) from MIT/BIH PSG database. 来自 MIT/BIH PSG 数据库的 6 名健康男性(30-35 岁)的睡眠脑电图和 6 名睡眠呼吸暂停脑电图(slp02a、slp14、slp16、slp37、slp61 和 slp66;年龄 32-39 岁;均为男性) 。 | The mean scaling exponents increased from wake to sleep stage 1, 2, 3 and 4, but decreased during REM sleep. The scaling exponents of the apnea were lower than those of the healthy subjects for all the stages. 从清醒到睡眠第 1、2、3 和 4 阶段,平均标度指数增加,但在快速眼动睡眠期间减少。在所有阶段,呼吸暂停的标度指数均低于健康受试者。 |
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Ferri, et al. 2005 [95] 费里等人。 2005年[95] | 5 healthy subjects, male and female, 20–32 y 5 名健康受试者,男性和女性,20-32 岁 | Higher levels of interregional synchronization during CAP sleep than during non-CAP with a small but significant difference between its A and B phases. Only the first DFA exponent showed different values during the different sleep stages. CAP 睡眠期间的区域间同步水平高于非 CAP 期间,其 A 阶段和 B 阶段之间存在微小但显着的差异。只有第一个 DFA 指数在不同睡眠阶段表现出不同的值。 |
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Lee, et al. 2007 [40] 李等人。 2007年[40] | 11 unmedicated unipolar depressed patients and 11 non-depressed, age-matched controls. 11 名未接受药物治疗的单相抑郁症患者和 11 名年龄匹配的非抑郁症对照者。 | All the scaling exponents in depressed patients and healthy controls were between 0.5 and 1.0. The scaling exponents of depressed patients have relatively higher values in whole brain regions compared to healthy controls, with significant differences at F3, C3, T3, T4 and O1 channels. A significant linear correlation was observed between the severity of depression and the scaling exponent over most of the channels, except O2. 抑郁症患者和健康对照者的所有标度指数均在 0.5 至 1.0 之间。与健康对照相比,抑郁症患者整个大脑区域的标度指数值相对较高,其中F3、C3、T3、T4和O1通道差异显着。在除 O2 之外的大多数通道上,抑郁症的严重程度与标度指数之间都观察到显着的线性相关性。 |
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Leistedt, et al. 2007 [41] 莱斯特等人。 2007年[41] | 10 unmedicated inpatients with acute major depression, and 14 normal controls 10 名未接受药物治疗的急性重度抑郁症住院患者和 14 名正常对照 | The median values of alpha were lower in patients during sleep stage 2 and SWS. 睡眠阶段 2 和 SWS 期间患者的 α 中位值较低。 |
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Leistedt, et al. 2007 [94] 莱斯特等人。 2007年[94] | 10 untreated depressed men in full to partial remission (42.43+/-5.62 y) and 14 healthy subjects (42.8+/-8.55 y) 10 名未经治疗的抑郁症男性完全缓解至部分缓解 (42.43+/-5.62 岁) 和 14 名健康受试者 (42.8+/-8.55 岁) | Significant difference and deviation of the scaling exponents between the two groups were not observed during targeted three sleep stages (stage 2, SWS and REM). 在目标三个睡眠阶段(第 2 阶段、SWS 和 REM)期间,未观察到两组间标度指数的显着差异和偏差。 |
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Dumont, et al. 2007 [93] 杜蒙等人。 2007年[93] | 24 patients with sleep apnea-hypopnea syndrome (12 moderate-to-severe and 12 severe subjects respectively), and 12 normal controls; mean age 44 y 24名睡眠呼吸暂停低通气综合征患者(分别为12名中重度和12名重度受试者)和12名正常对照;平均年龄 44 岁 | For all sleep bands, the fluctuations of the synchronization between sleep EEG and heart activity appear scale free and the scaling exponent is close to one as for 1/f noise. We could not detect any effect due to sleep apnea-hypopnea syndrome. 对于所有睡眠带,睡眠脑电图和心脏活动之间的同步波动似乎是无标度的,并且对于 1/f 噪声来说,标度指数接近于 1。我们无法检测到睡眠呼吸暂停低通气综合征造成的任何影响。 |
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D'Rozario, et al. 2013 [92] 德罗萨里奥等人。 2013年[92] | 8 untreated OSA patients and 13 non-OSA controls 8 名未经治疗的 OSA 患者和 13 名非 OSA 对照 | DFA scaling exponent and power spectra biomarkers significantly correlated with simultaneously tested performance and self-rated sleepiness across the testing period in OSA patients and controls. Baseline DFA scaling exponent were markers of impaired simulated driving after 24-h extended wakefulness in OSA. OSA patients had a higher scaling exponent and delta power during wakefulness than controls. DFA 标度指数和功率谱生物标志物与 OSA 患者和对照测试期间同时测试的表现和自评困倦显着相关。基线 DFA 缩放指数是 OSA 中 24 小时长时间清醒后模拟驾驶受损的标志。 OSA 患者在清醒期间比对照组具有更高的标度指数和增量功率。 |