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BMC Neurology
Published in: BMC Neurology 1/2022

Open Access 01-12-2022 | Sleep Apnea | Research article

Preliminary study on brain resting-state networks and cognitive impairments of patients with obstructive sleep apnea–hypopnea syndrome

Authors: Yaqing He, Junkang Shen, Xiang Wang, Qiaozhen Wu, Jiacheng Liu, Yiding Ji

Published in: BMC Neurology | Issue 1/2022

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Abstract

Background

To investigate functional changes in brain resting-state networks (RSNs) in patients with obstructive sleep apnea–hypopnea syndrome (OSAHS) and their correlations with sleep breathing disorders and neurocognitive performance.

Methods

In this study, 18 OSAHS patients and 18 matched healthy controls underwent neurocognitive assessment and magnetic resonance imaging (MRI). Group-level independent component analysis (ICA) and statistical analyses were used to explore between-group differences in RSNs and the relationship between functional changes in RSNs, sleep breathing disorders and neurocognitive performance.

Results

The OSAHS patients performed worse on neuropsychological tests than the healthy controls. Eight RSNs were identified, and between-group analyses showed that OSAHS patients displayed significantly decreased functional connectivity in the bilateral posterior cingulate gyri (PCC) within the default mode network (DMN), the right middle frontal gyrus (MFG) within the dorsal attention network (DAN), and the left superior temporal gyrus (STG) within the ventral attention network (VAN), and increased functional connectivity in the right superior frontal gyrus (SFG) within the salience network (SN). Further correlation analyses revealed that the average ICA z-scores in the bilateral PCC were correlated with sleep breathing disorders.

Conclusions

Our findings demonstrate that the DMN, SN, DAN, and VAN are impaired during the resting state and are associated with decreased functionally distinct aspects of cognition in patients with OSAHS. Moreover, the intermittent hypoxia and sleep fragmentation caused by OSAHS are likely to be the main influencing factors.
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Literature
1.
Durgan DJ, Bryan RM. Cerebrovascular consequences of obstructive sleep apnea. J Am Heart Assoc. 2012;1:e000091.CrossRef
2.
Franklin KA, Lindberg E. Obstructive sleep apnea is a common disorder in the population -a review on the epidemiology of sleep apnea. J Thorac Dis. 2015;7:1311–22.
3.
Bodenner KA, Jambhekar SK, Com G, et al. Assessment and treatment of obstructive sleep-disordered breathing. Clin Pediatr (Phila). 2014;53:544–8.CrossRef
4.
Rosenzweig I, Glasser M, Polsek D, et al. Sleep apnoea and the brain: a complex relationship. Lancet Respir Med. 2015;3:404–14.CrossRef
5.
Alex RM, Mousavi ND, Zhang R, et al. Obstructive sleep apnea: brain hemodynamics, structure, and function. J Appl Biobehav Res. 2017;22:e12101.CrossRef
6.
Canessa N, Castronovo V, Cappa SF, et al. Obstructive sleep apnea: brain structural changes and neurocognitive function before and after treatment. Am J Respir Crit Care Med. 2011;183:1419–26.CrossRef
7.
Ayalon L, Ancoli-Israel S, Aka AA, et al. Relationship between obstructive sleep apnea severity and brain activation during a sustained attention task. Sleep. 2009;32:373–81.CrossRef
8.
O’Donoghue FJ, Wellard RM, Rochford PD, et al. Magnetic resonance spectroscopy and neurocognitive dysfunction in obstructive sleep apnea before and after CPAP treatment. Sleep. 2012;35:41–8.CrossRef
9.
Bressler SL. Large-scale cortical networks and cognition. Brain Res Brain Res Rev. 1995;20:288–304.CrossRef
10.
Biswal B, Yetkin FZ, Haughton VM, et al. Functional connectivity in the motor cortex of resting human brain using echo-planar mri. Magn Reson Med. 1995;34:537–41.CrossRef
11.
Zhang S, Chen JM, Kuang L, et al. Association between abnormal default mode network activity and suicidality in depressed adolescents. BMC Psychiatry. 2016;16:337.CrossRef
12.
Zhang Q, Wang D, Qin W, et al. Altered resting-state brain activity in obstructive sleep apnea. Sleep. 2013;36:651–9.CrossRef
13.
Li HJ, Nie X, Gong HH, et al. Abnormal resting-state functional connectivity within the default mode network subregions in male patients with obstructive sleep apnea. Neuropsychiatr Dis Treat. 2016;12:203–12.CrossRef
14.
Mary, Galea, Michael, et al. Mini-mental state examination (mmse). Aust J Physiother. 2005;51:198.
15.
Beckmann CF, DeLuca M, Devlin JT, et al. Investigations into resting-state connectivity using independent component analysis. Philos Trans R Soc Lond B Biol Sci. 2005;360:1001–13.CrossRef
16.
Fox MD, Corbetta M, Snyder AZ, et al. Spontaneous neuronal activity distinguishes human dorsal and ventral attention systems. Proc Natl Acad Sci U S A. 2006;103:10046–51.CrossRef
17.
Vincent JL, Kahn I, Snyder AZ, et al. Evidence for a frontoparietal control system revealed by intrinsic functional connectivity. J Neurophysiol. 2008;100:3328–42.CrossRef
18.
Corbetta M, Patel G, Shulman GL. The reorienting system of the human brain: from environment to theory of mind. Neuron. 2008;58:306–24.CrossRef
19.
Liao W, Wang Z, Zhang X, et al. Cerebral blood flow changes in remitted early- and late-onset depression patients. Oncotarget. 2017;8:44.CrossRef
20.
Mazza S, Pépin JL, Naëgelé B, et al. Most obstructive sleep apnoea patients exhibit vigilance and attention deficits on an extended battery of tests. Eur Respir J. 2005;25:75–80.CrossRef
21.
Beebe DW, Gozal D. Obstructive sleep apnea and the prefrontal cortex: towards a comprehensive model linking nocturnal upper airway obstruction to daytime cognitive and behavioral deficits. J Sleep Res. 2002;11:1–16.CrossRef
22.
Gagnon K, Baril A, Cary A, et al. Mild cognitive impairment in obstructive sleep apnea. Sleep Med. 2014;62:233–40.
23.
Malhotra RK, Desai AK. Healthy brain aging: what has sleep got to do with it? Clin Geriatr Med. 2010;26:45–56.CrossRef
24.
Gozal D, Daniel JM, Dohanich GP. Behavioral and anatomical correlates of chronic episodic hypoxia during sleep in the rat. J Neurosci. 2001;21:2442–50.CrossRef
25.
Giuditta A, Ambrosini MV, Montagnese P, et al. The sequential hypothesis of the function of sleep. Behav Brain Res. 1995;69:157–66.CrossRef
26.
Andrews-Hanna JR, Smallwood J, Spreng RN. The default network and self-generated thought: component processes, dynamic control, and clinical relevance. Ann N Y Acad Sci. 2014;1316:29–52.CrossRef
27.
Raichle ME. The brain’s default mode network. Annu Rev Neurosci. 2015;38:433–47.CrossRef
28.
Gusnard DA, Raichle ME, Raichle ME. Searching for a baseline: functional imaging and the resting human brain. Nat Rev Neurosci. 2001;2:685–94.CrossRef
29.
Li HJ, Dai XJ, Gong HH, et al. Aberrant spontaneous low-frequency brain activity in male patients with severe obstructive sleep apnea revealed by resting-state functional MRI. Neuropsychiatr Dis Treat. 2015;11:207–14.
30.
Farrant K, Uddin LQ. Asymmetric development of dorsal and ventral attention networks in the human brain. Dev Cogn Neurosci. 2015;12:165–74.CrossRef
31.
Corbetta M, Shulman GL. Control of goal-directed and stimulus-driven attention in the brain. Nat Rev Neurosci. 2002;3:201–15.CrossRef
32.
Tessitore A, Amboni M, Esposito F, et al. Resting-state brain connectivity in patients with Parkinson’s disease and freezing of gait. Parkinsonism Relat Disord. 2012;18:781–7.CrossRef
33.
Kucyi A, Hodaie M, Davis KD. Lateralization in intrinsic functional connectivity of the temporoparietal junction with salience- and attention-related brain networks. J Neurophysiol. 2012;108:3382–92.CrossRef
34.
Cerasa A, Gioia MC, Salsone M, et al. Neurofunctional correlates of attention rehabilitation in Parkinson’s disease: an explorative study. Neurol Sci. 2014;35:1173–80.CrossRef
Metadata
Title
Preliminary study on brain resting-state networks and cognitive impairments of patients with obstructive sleep apnea–hypopnea syndrome
Authors
Yaqing He
Junkang Shen
Xiang Wang
Qiaozhen Wu
Jiacheng Liu
Yiding Ji
Publication date
01-12-2022
Publisher
BioMed Central
Keyword
Sleep Apnea
Published in
BMC Neurology / Issue 1/2022
Electronic ISSN: 1471-2377
DOI
https://doi.org/10.1186/s12883-022-02991-w

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