Register      Login
Brain Impairment Brain Impairment Society
Journal of the Australasian Society for the Study of Brain Impairment
Shopping Cart: ( empty )
You are here: Home > Journals > IB > IB23004 > Fulltext
RESEARCH ARTICLE
Contents Vol 24(1)

Working Memory Impairment in Transient Ischaemic Attack: N-back as a Sensitive Measure for Detection

Laura J. Smith https://orcid.org/0000-0003-3275-1530 A B , Polly Gregory A , Philip Clatworthy https://orcid.org/0000-0002-1206-3573 C , Lucy Gallop A and George Stothart https://orcid.org/0000-0003-1323-1580 A *
+ Author Affiliations
- Author Affiliations

A Department of Psychology, University of Bath, Bath, UK

B School of Psychology, University of Kent, Kent, UK

C Department of Neurology, North Bristol NHS Trust, Bristol, UK

* Correspondence to: G.Stothart@bath.ac.uk

Brain Impairment 24(1) 124-131 https://doi.org/10.1017/BrImp.2021.25
Submitted: 9 March 2021  Accepted: 18 October 2021  Published: 15 December 2021

© The Author(s), 2021. Published by Cambridge University Press on behalf of Australasian Society for the Study of Brain Impairment

Abstract

Background:

Transient ischaemic attack (TIA) can lead to lasting changes in brain structure and function resulting in cognitive impairment. Cognitive screening tools may lack sensitivity for detecting cognitive impairments, particularly executive function, which tends to be the earliest affected domain in vascular cognitive impairment.

Aim:

In this preliminary study, we examine a working memory (WMem) task as a sensitive measure of cognitive impairment in TIA.

Method:

Patients referred to a TIA clinic for transient neurological symptoms completed a general cognitive screening tool (Montreal Cognitive Assessment; MoCA), and a WMem task (2-N-back) in a cross-sectional design.

Results:

TIA patients (n = 12) showed significantly reduced WMem performance on the N-back compared to patients diagnosed with mimic clinical conditions with overlapping symptoms (n = 16). No group differences were observed on the MoCA.

Conclusions:

Assessing WMem may provide a sensitive measure of cognitive impairment after TIA, with implications for cognitive screening in TIA services to triage patients for further neuropsychological support, or for interventions to prevent vascular dementia.

Keywords: Working memory, transient ischaemic attack, sensitivity (d′), N-back.

References

Brandt J., Spencer M., Folstein M. (1988) The telephone interview for cognitive status. Neuropsychiatry, Neuropsychology and Behavioral Neurology 1(2), 111-117.
| Google Scholar |

Charoenkitkarn V., Kasemkitwattana S., Therrien B., Thosingha O., Vorapongsathorn T. (2009) Cognitive performance after a transient ischemic attack: Attention, working memory, and learning and memory. Pacific Rim International Journal of Nursing Research 13(3), 199-215.
| Google Scholar |

Easton J. D., Saver J. L., Albers G. W., Alberts M. J., Chaturvedi S., Feldmann E., Kidwell C. S. (2009) Definition and evaluation of transient ischemic attack: A scientific statement for healthcare professionals from the American Heart Association/American Stroke Association Stroke Council; Council on Cardiovascular Surgery and Anesthesia; Council on Cardiovascular Radiology and Intervention; Council on Cardiovascular Nursing; and the Interdisciplinary Council on Peripheral Vascular Disease: The American Academy of Neurology affirms the value of this statement as an educational tool for neurologists. Stroke 40(6), 2276-2293.
| Google Scholar |

Fitri F. I., Fithrie A., Rambe A. S. (2020) Association between working memory impairment and activities of daily living in post-stroke patients. Medicinski Glasnik 17(2), 433-438.
| Google Scholar |

Ganzer C. A., Barnes A., Uphold C., Jacobs A. R. (2016) Transient ischemic attack and cognitive impairment: A review. Journal of Neuroscience Nursing 48(6), 322-327.
| Google Scholar |

Haatveit B. C., Sundet K., Hugdahl K., Ueland T., Melle I., Andreassen O. A. (2010) The validity of d prime as a working memory index: Results from the “Bergen n-back task”. Journal of Clinical and Experimental Neuropsychology 32(8), 871-880.
| Google Scholar |

Jaillard A., Grand S., Le Bas J. F., Hommel M. (2010) Predicting cognitive dysfunctioning in nondemented patients early after stroke. Cerebrovascular Disorders 29(5), 415-423.
| Google Scholar |

Kane M. J., Conway A. R., Miura T. K., Colflesh G. J. (2007) Working memory, attention control, and the N-back task: A question of construct validity. Journal of Experimental Psychology: Learning, Memory, and Cognition 33(3), 615.
| Google Scholar |

Kjörk E., Blomstrand C., Carlsson G., Lundgren-Nilsson å., Gustafsson C. (2016) Daily life consequences, cognitive impairment, and fatigue after transient ischemic attack. Acta Neurologica Scandinavica 133(2), 103-110.
| Google Scholar |

Macmillan N. A., Creelman C. D. (1990) Response bias: Characteristics of detection theory, threshold theory, and "nonparametric" indexes. Psychological Bulletin 107(3), 401-413.
| Google Scholar |

Mioshi E., Dawson K., Mitchell J., Arnold R., Hodges J. R. (2006) The Addenbrooke’s Cognitive Examination Revised (ACE-R): A brief cognitive test battery for dementia screening. International Journal of Geriatric Psychiatry: A Journal of the Psychiatry of Late Life and Allied Sciences 21(11), 1078-1085.
| Google Scholar |

Moser D. A., Doucet G. E., Ing A., Dima D., Schumann G., Bilder R. M., Frangou S. (2018) An integrated brain-behavior model for working memory. Molecular Psychiatry 23(10), 1974-1980.
| Google Scholar |

Nadarajan V., Perry R., Johnson J., Werring D. (2014) Transient ischaemic attacks: Mimics and chameleons. Practical Neurology 14(1), 23-31.
| Google Scholar |

Nasreddine Z. S., Phillips N. A., Bédirian V., Charbonneau S., Whitehead V., Collin I., Chertkow H. (2005) The Montreal Cognitive Assessment, MoCA: A brief screening tool for mild cognitive impairment. Journal of the American Geriatrics Society 53(4), 695-699.
| Google Scholar |

Sachdev P., Brodaty H., Valenzuela M., Lorentz L., Koschera A. (2004) Progression of cognitive impairment in stroke patients. Neurology 63(9), 1618-1623.
| Google Scholar |

Sörös P., Harnadek M., Blake T., Hachinski V., Chan R. (2015) Executive dysfunction in patients with transient ischemic attack and minor stroke. Journal of the Neurological Sciences 354(1-2), 17-20.
| Google Scholar |

Stroke Association (2014). Not just a funny turn. The real impact of TIA. Retrieved from https://www.stroke.org.uk/sites/default/files/sa-tia-summary-6pp-sp-v2-lores.pdf.

Turner G., Calvert M., Feltham M., Ryan R., Marshall T. (2016) Ongoing impairments following transient ischaemic attack: Retrospective cohort study. European Journal of Neurology 23(11), 1642-1650.
| Google Scholar |

van Rooij F. G., Kessels R. P., Richard E., De Leeuw F.-E., van Dijk E. J. (2016) Cognitive impairment in transient ischemic attack patients: A systematic review. Cerebrovascular Diseases 42(1-2), 1-9.
| Google Scholar |

Weaver N. A., Kancheva A. K., Lim J.-S., Biesbroek J. M., Wajer I. M. C. H., Kang Y., Bae H.-J. (2021) Post-stroke cognitive impairment on the Mini-Mental State Examination primarily relates to left middle cerebral artery infarcts. International Journal of Stroke 16(8), 981-989.
| Google Scholar |

Zamboni G., Griffanti L., Jenkinson M., Mazzucco S., Li L., Küker W., Rothwell P. M. (2017) White matter imaging correlates of early cognitive impairment detected by the montreal cognitive assessment after transient ischemic attack and minor stroke. Stroke 48(6), 1539-1547.
| Google Scholar |