Мақаланы E-mail арқылы жіберу A Decrease in the Cognitive Status of Patients in the Long Term After Ischemic Stroke is Associated with the Levels of Adrenocorticotropic Hormone and Cortisol in the Hair
- Авторлар: Druzhkova T.A1, Zhanina M.Y.1,2, Vladimirova E.E3, Guekht A.B1,4, Gulyaeva N.V1,2
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Мекемелер:
- Moscow Research and Clinical Center for Neuropsychiatry
- Department of Functional Biochemistry of Nervous System, Institute of Higher Nervous Activity and Neurophysiology, RAS
- M.P. Konchalovsky City Clinical Hospital
- Department of Neurology, Neurosurgery and Medical Genetics, Pirogov Russian National Research Medical University
- Шығарылым: Том 42, № 2 (2025)
- Беттер: 295–304
- Бөлім: Regular Articles. Clinical Neurochemistry
- URL: https://ogarev-online.ru/1027-8133/article/view/357691
- DOI: https://doi.org/10.7868/S3034556125020114
- ID: 357691
Дәйексөз келтіру
Ашық рұқсат
Рұқсат берілді
Тек жазылушылар үшін
Аннотация
Post-stroke cognitive impairment (PCN) is a common complication after ischemic stroke (IS). There is evidence that their development is largely due to regulatory and structural changes in neuroendocrine systems involved in the body’s adaptation to stress. Stress-related clinical and biochemical parameters were analyzed in 14 patients with normal cognitive status after AI, in 15 patients with mild cognitive impairment after AI, and in 10 people without stroke of the appropriate age and gender. The indicators were evaluated in the first days, a month later, six months later, and a year after AI. Using the logistic regression method, it was shown that a simultaneous decrease in the level of cortisol in hair and the level of adrenocorticotropic hormone (ACTH) in blood plasma six months after AI predicts a high probability of an unfavorable prognosis for the cognitive status of patients in the long term after a stroke. The data confirm previously obtained results indicating a significant contribution of stress-realizing systems in the development of post-stroke cognitive impairment.
Негізгі сөздер
Авторлар туралы
T. Druzhkova
Moscow Research and Clinical Center for NeuropsychiatryMoscow, Russia
M. Zhanina
Moscow Research and Clinical Center for Neuropsychiatry; Department of Functional Biochemistry of Nervous System, Institute of Higher Nervous Activity and Neurophysiology, RASMoscow, Russia; Moscow, Russia
E. Vladimirova
M.P. Konchalovsky City Clinical HospitalMoscow, Russia
A. Guekht
Moscow Research and Clinical Center for Neuropsychiatry; Department of Neurology, Neurosurgery and Medical Genetics, Pirogov Russian National Research Medical UniversityMoscow, Russia; Moscow, Russia
N. Gulyaeva
Moscow Research and Clinical Center for Neuropsychiatry; Department of Functional Biochemistry of Nervous System, Institute of Higher Nervous Activity and Neurophysiology, RAS
Email: nata_gul@ihna.ru
Moscow, Russia; Moscow, Russia
Әдебиет тізімі
- Krishnamurthi R.V., Ikeda T., Feigin V.L. // Neuroepidemiology. 2020. V. 54. P. 171–179.
- El Husseini N., Katzan I.L., Rost N.S., Blake M.L., Byun E., Pendlebury S.T., Aparicio H.J., Marquine M.J., Gottesman R.F., Smith E.E. // Stroke. 2023. V. 54. P. e272–e291.
- Dros J., Segiet N., Poczatek G., Klimkowicz-Mrowiec A. // Neurol. Sci. 2024. V. 45. P. 1109–1119.
- Kim K.Y., Shin K.Y., Chang K.-A. //Int. J. Mol. Sci. 2022. V. 23. P. 602.
- AI-Qazzaz N.K., Ali S.H., Ahmad S.A., Islam S., Mohamed K. // Neuropsychiatr. Dis. Treat. 2014. V. 10. P. 1677–91.
- Gulyaeva N.V., Onufriev M.V., Moiseeva Y.V. // Front Neurosci. 2021. V. 15. P. 781964.
- Holman E.A., Cramer S.C. STRONG Study Investigators. // Stroke. 2023. V. 54. P. 2794–2803.
- Meisel C., Schwab J.M., Prass K., Meisel A., Dirnagl U. // Nat. Rev. Neurosci. 2005. V. 10. P. 775–86.
- Chen X.G., Shi S.Y., Hu L., Chen Y., Sun H.W., Zhou L., Lu Z.B., Wang H., Wang X.S., Yu J., Zhao Y.J., Lu Y.M., Ye J. // Front Neurol. 2022. V. 13. P. 946593.
- Pawluk H., Wozniak A., Tafelska-Kaczmarek A., Kosinska A., Pawluk M., Sergot K., Grochowalska R., Kolodziejska R. // Biomolecules. 2025. V. 15. P. 470.
- Gulyaeva N.V. // Biochemistry (Mosc). 2019. V. 84. P. 1306–1328.
- Shi K., Tian D.C., Li Z.G., Ducruet A.F., Lawton M.T., Shi F.D. // Lancet Neurol. 2019. V. 18. P. 1058–1066.
- Kumary S., Dhapola R., Sharma P., Nagar P., Medhi B., HariKrishnaReddy D. // Cytokine Growth Factor Rev. 2024. V. 78. P. 105–119.
- Wang T., Li X., Jia Y., Zhang Y., Meng D. // Heliyon. 2024. V. 10. P. e40278.
- Assayag E.B., Tene O., Korczyn A.D., Shopin L., Auriel E., Molad J., Hallevi H., Kirschbaum C., Bornstein N.M. Shenhar-Tsarfaty S., Kliper E., Stalder T. // Psychoneuroendocrinology. 2017. V. 82. P. 133–139.
- Tene O., Hallevi H., Korczyn A.D., Shopin L., Molad J., Kirschbaum C., Bornstein N.M., Shenhar-Tsarfaty S., Kliper E., Auriel E., Usher S., Stalder T., Assayag E.B. // J. Alzheimers Dis. 2018. V. 65. P. 1365–1375.
- Douiri A.D., McKevitt C., Emmett E.S., Rudd A.G., Wolfe C.D.A. // Circulation. 2013. V. 128. P. 1341–1348.
- Rohde D., Williams D., Gaynor E., Bennett K., Dolan E., Callaly E., Large M., Hickey A. // BMJ Open. 2017. V. 7. P. e014819.
- Lyden P. // Stroke. 2017. V. 48. P. 513–519.
- Nasreddine Z.S., Phillips N.A., Bedirian V., Charbonneau S., Whitehead V., Collin I., Cummings J.L., Chertkow H. // J. Am. Geriatr. Soc. 2005. V. 53. P. 695–699.
- Zigmond A.S., Snaith R.P. // Acta. Psychiatr. Scand. 1983. V. 67. P. 361–70.
- Cohen S., Kamarck T., Mermelstein R. // J. of Health and Social Behavior. 1983. V. 24. P. 385–396.
- Holmes T.H., Rahe R.H. // J. Psychosom. Res. 1967. V. 11. P. 213–218.
- Wang Y., Li J., Pan Y., Wang M., Lin J., Meng X., Liao X., Wang Y. // Neuropsychiatr. Dis. Treat. 2022. V. 18. P. 391–399.
- Wang Y., Wang H., Sun., Miao J., Liang W., Qiu X., Lan Y., Pan C., Li G., Zhao X., Zhu Z., Zhu S. // Clin. Interv. Aging. 2022. V. 17. P. 417–427.
- Palta P., Xue Q.L., Deal J.A., Fried L.P., Walston J.D., Carlson M.C. // J. Gerontol. A Biol. Sci. Med. Sci. 2015. V. 70. P. 873–878.
- Singh-Manoux A., Dugravot A., Brunner E., Kumari M., Shipley M., Elbaz A., Kivimaki M. // Neurology. 2014. V. 83. P. 486–493.
- Shishkina G.T., Gulyaeva N.V., Lanshakov D.A., Kalinina T.S., Onufriev M.V., Moiseeva Y.V., Sukhareva E.V., Babenko V.N., and Dygalo N.N. // Biomedicines. 2021. V. 9. P. 1840.
- Herman J.P., Ostrander M.M., Mueller N.K., Figueiredo H. // Prog. Neuropsychopharmacol. Biol. Psychiatry. 2005. V. 29. P. 1201–1213.
- Herman J.P., McKlveen J.M., Ghosal S., Kopp B., Wulsin A., Makinson R., Scheimann J., Myers B. // Compr. Physiol. 2016. V. 6. P. 603–621.
- Pochigaeva K., Druzhkova T., Yakovlev A., Onufriev M., Grishkina M., Chepelev A., Guekht A., Gulyaeva N. // Metab. Brain Dis. 2017. V. 32. P. 577–583.
- Massey A.T., Lerner D.K., Holmes G.L., Scott R.C. Hernan A.E. //Front. Neurol. 2016. V. 7. P. 65.
- Nasiri J., Sarajan A., Salari M., Sedghi M. // Iranian Journal of Child Neurology. 2017. V. 11. P. 19–26.
- Brunson K.L., Khan N., Eghbal-Ahmadi M., Baram T.Z. // Ann. Neurol. 2001. V. 49. P. 304–312.
- Hernan A.E., Alexander A., Lenck-Santini P.-P., Scott R.C., Holmes G.L. // PLoS One. 2014. V. 9. P. e89812.
- Brabec J.L., Ouardouz M., Mahoney J.M., Scott R.C., Hernan A.E. // Neurobiol. Dis. 2022. V. 174. P. 105873.
- Khalife M.R., Villarin C., Ruiz J.M., McClelland S.A., Rabbo K.A., Mahoney J.M., Scott R.C., Hernan A.E. // eNeuro. 2025. V. 12. P. 0564–24.
- Yang Y.K., Fong T.M., Dickinson C.J., Mao C., Li J.Y., Tota M.R., Mosley R., Van Der Ploeg L.H., Gantz I. // Biochemistry. 2000. V. 39. P. 14900–14911.
- Spaccapelo L., Bitto A., Galantucci M., Ottani A., Irrera N., Minutoli L., Altavilla D., Novellino E., Grieco P., Zaffe D., Squadrito F., Giuliani D., Guarini S. // Eur. J. Pharmacol. 2011. V. 670. P. 479–486.
- Giuliani D., Bitto A., Galantucci M., Zaffe D., Ottani A., Irrera N., Neri L., Cavallini G.M., Altavilla D., Botticelli A.R., Squadrito F., Guarini S. // Neurobiol. Aging. 2014. V. 35. P. 537–547.
- Shen Y., Tian M., Zheng Y., Gong F., Fu A.K.Y., Ip N.Y. // Cell Rep. 2016. V. 17. P. 1819–1831.
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