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Ann Rehabil Med.  2017 Aug;41(4):564-572. 10.5535/arm.2017.41.4.564.

Relationship Between Cognitive Function and Dysphagia After Stroke

Affiliations
  • 1Department of Physical Medicine and Rehabilitation, Korea University College of Medicine, Seoul, Korea. rmpyun@korea.ac.kr

Abstract


OBJECTIVE
To investigate the characteristics of cognitive deficits in patients with post-stroke dysphagia, and to analyze the relationships between cognitive dysfunction and severity of dysphagia in supratentorial stroke.
METHODS
A total of 55 patients with first-ever supratentorial lesion stroke were enrolled retrospectively, within 3 months of onset. We rated dysphagia from 0 (normal) to 4 (severe) using the dysphagia severity scale (DSS) through clinical examinations and videofluoroscopic swallowing studies (VFSS). The subjects were classified either as non-dysphagic (scale 0) or dysphagic (scale 1 to 4). We compared general characteristics, stroke severity and the functional scores of the two groups. We then performed comprehensive cognitive function tests and investigated the differences in cognitive performance between the two groups, and analyzed the correlation between cognitive test scores, DSS, and parameters of oral and pharyngeal phase.
RESULTS
Fugl-Meyer motor assessment, the Berg Balance Scale, and the Korean version of the Modified Barthel Index showed significant differences between the two groups. Cognitive test scores for the dysphagia group were significantly lower than the non-dysphagia group. Significant correlations were shown between dysphagia severity and certain cognitive subtest scores: visual span backward (p=0.039), trail making tests A (p=0.042) and B (p=0.002), and Raven progressive matrices (p=0.002). The presence of dysphagia was also significantly correlated with cognitive subtests, in particular for visual attention and executive attention (odds ratio [OR]=1.009; 95% confidence interval [CI], 1.002-1.016; p=0.017). Parameters of premature loss were also significantly correlated with the same subtests (OR=1.009; 95% CI, 1.002-1.016; p=0.017).
CONCLUSION
Our results suggest that cognitive function is associated with the presence and severity of post-stroke dysphagia. Above all, visual attention and executive functions may have meaningful influence on the oral phase of swallowing in stroke patients with supratentorial lesions.

Keyword

Deglutition disorders; Stroke; Cognition; Attention; Executive function

MeSH Terms

Cognition Disorders
Cognition*
Crows
Deglutition
Deglutition Disorders*
Executive Function
Humans
Retrospective Studies
Stroke*
Trail Making Test

Reference

1. Gordon C, Hewer RL, Wade DT. Dysphagia in acute stroke. Br Med J (Clin Res Ed). 1987; 295:411–414.
Article
2. Splaingard ML, Hutchins B, Sulton LD, Chaudhuri G. Aspiration in rehabilitation patients: videofluoroscopy vs bedside clinical assessment. Arch Phys Med Rehabil. 1988; 69:637–640. PMID: 3408337.
3. Robbins J, Levin RL. Swallowing after unilateral stroke of the cerebral cortex: preliminary experience. Dysphagia. 1988; 3:11–17. PMID: 3248391.
Article
4. Alberts MJ, Horner J, Gray L, Brazer SR. Aspiration after stroke: lesion analysis by brain MRI. Dysphagia. 1992; 7:170–173. PMID: 1499361.
Article
5. Robbins J, Levine RL, Maser A, Rosenbek JC, Kempster GB. Swallowing after unilateral stroke of the cerebral cortex. Arch Phys Med Rehabil. 1993; 74:1295–1300. PMID: 8259895.
Article
6. Daniels SK, Corey DM, Fraychinaud A, DePolo A, Foundas AL. Swallowing lateralization: the effects of modified dual-task interference. Dysphagia. 2006; 21:21–27. PMID: 16544089.
Article
7. Daniels SK, Foundas AL. Lesion localization in acute stroke patients with risk of aspiration. J Neuroimaging. 1999; 9:91–98. PMID: 10208106.
8. Smithard DG, O’Neill PA, Martin DF, England R. Aspiration following stroke: is it related to the side of the stroke? Clin Rehabil. 1997; 11:73–76. PMID: 9065363.
Article
9. Yamamoto K, Koh H, Shimada H, Takeuchi J, Yamakawa Y, Kawamura M, et al. Cerebral infarction in the left hemisphere compared with the right hemisphere increases the risk of aspiration pneumonia. Osaka City Med J. 2014; 60:81–86. PMID: 25803883.
10. Schroeder MF, Daniels SK, McClain M, Corey DM, Foundas AL. Clinical and cognitive predictors of swallowing recovery in stroke. J Rehabil Res Dev. 2006; 43:301–310. PMID: 17041816.
Article
11. Moon HI, Pyun SB, Kwon HK. Correlation between location of brain lesion and cognitive function and findings of videofluoroscopic swallowing study. Ann Rehabil Med. 2012; 36:347–355. PMID: 22837970.
Article
12. Tombaugh TN, McIntyre NJ. The mini-mental state examination: a comprehensive review. J Am Geriatr Soc. 1992; 40:922–935. PMID: 1512391.
Article
13. Aggarwal A, Kean E. Comparison of the Folstein Mini Mental State Examination (MMSE) to the Montreal Cognitive Assessment (MoCA) as a cognitive screening tool in an inpatient rehabilitation setting. Neurosci Med. 2010; 1:39–42.
Article
14. Feher EP, Mahurin RK, Doody RS, Cooke N, Sims J, Pirozzolo FJ. Establishing the limits of the Mini-Mental State: examination of ‘subtests’. Arch Neurol. 1992; 49:87–92. PMID: 1728269.
15. Daniels SK, Brailey K, Priestly DH, Herrington LR, Weisberg LA, Foundas AL. Aspiration in patients with acute stroke. Arch Phys Med Rehabil. 1998; 79:14–19. PMID: 9440410.
Article
16. Daniels SK, McAdam CP, Brailey K, Foundas AL. Clinical assessment of swallowing and prediction of dysphagia severity. Am J Speech Lang Pathol. 1997; 6:17–24.
Article
17. Unterrainer JM, Rahm B, Kaller CP, Leonhart R, Quiske K, Hoppe-Seyler K, et al. Planning abilities and the Tower of London: is this task measuring a discrete cognitive function? J Clin Exp Neuropsychol. 2004; 26:846–856. PMID: 15370380.
Article
18. Tinius TP. The Integrated Visual and Auditory Continuous Performance Test as a neuropsychological measure. Arch Clin Neuropsychol. 2003; 18:439–454. PMID: 14591441.
Article
19. Salthouse TA. What cognitive abilities are involved in trail-making performance? Intelligence. 2011; 39:222–232. PMID: 21789028.
Article
20. Monchi O, Petrides M, Petre V, Worsley K, Dagher A. Wisconsin Card Sorting revisited: distinct neural circuits participating in different stages of the task identified by event-related functional magnetic resonance imaging. J Neurosci. 2001; 21:7733–7741. PMID: 11567063.
Article
21. Shin MS, Park SY, Park SR, Seol SH, Kwon JS. Clinical and empirical applications of the Rey-Osterrieth Complex Figure Test. Nat Protoc. 2006; 1:892–899. PMID: 17406322.
Article
22. Schoenberg MR, Dawson KA, Duff K, Patton D, Scott JG, Adams RL. Test performance and classification statistics for the Rey Auditory Verbal Learning Test in selected clinical samples. Arch Clin Neuropsychol. 2006; 21:693–703. PMID: 16987634.
Article
23. Kidd D, Lawson J, Nesbitt R, MacMahon J. Aspiration in acute stroke: a clinical study with videofluoroscopy. Q J Med. 1993; 86:825–829. PMID: 8108539.
24. Nilsson H, Ekberg O, Olsson R, Hindfelt B. Dysphagia in stroke: a prospective study of quantitative aspects of swallowing in dysphagic patients. Dysphagia. 1998; 13:32–38. PMID: 9391228.
Article
25. Gonzalez-Fernandez M, Kleinman JT, Ky PK, Palmer JB, Hillis AE. Supratentorial regions of acute ischemia associated with clinically important swallowing disorders: a pilot study. Stroke. 2008; 39:3022–3028. PMID: 18688014.
26. Martin RE, Goodyear BG, Gati JS, Menon RS. Cerebral cortical representation of automatic and volitional swallowing in humans. J Neurophysiol. 2001; 85:938–950. PMID: 11160524.
Article
27. Hamdy S, Aziz Q, Rothwell JC, Crone R, Hughes D, Tallis RC, et al. Explaining oropharyngeal dysphagia after unilateral hemispheric stroke. Lancet. 1997; 350:686–692. PMID: 9291902.
Article
28. Patti F, Emmi N, Restivo DA, Liberto A, Pappalardo A, Torre LM, et al. Neurogenic dysphagia: physiology, physiopathology and rehabilitative treatment. Clin Ter. 2002; 153:403–419. PMID: 12645398.
29. Brodsky MB, McNeil MR, Martin-Harris B, Palmer CV, Grayhack JP, Abbott KV. Effects of divided attention on swallowing in healthy participants. Dysphagia. 2012; 27:307–317. PMID: 21892783.
Article
30. Kim JS, Youn J, Suh MK, Kim TE, Chin J, Park S, et al. Cognitive and motor aspects of parkinson’s disease associated with dysphagia. Can J Neurol Sci. 2015; 42:395–400. PMID: 26551089.
Article
31. Secil Y, Arici S, Incesu TK, Gurgor N, Beckmann Y, Ertekin C. Dysphagia in Alzheimer’s disease. Neurophysiol Clin. 2016; 46:171–178. PMID: 26924307.
32. Chouinard J. Dysphagia in Alzheimer disease: a review. J Nutr Health Aging. 2000; 4:214–217. PMID: 11115803.
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