Bibliografía del artículo
1. Freeman R, Abuzinadah AR, Gibbons C, Jones P, Miglis MG, Sinn DI. Orthostatic Hypotension: JACC State-of-the-Art Review. J Am Coll Cardiol 72(11):1294-1309, 2018. doi: 10.1016/j.jacc.2018.05.079.
2. Bengtsson-Lindberg M, Larsson V, Minthon L, Wattmo C, Londos E. Lack of orthostatic symptoms in dementia patients with orthostatic hypotension. Clin Auton Res 25(2):87-94, 2015.
3. Freidenberg DL, Shaffer LE, Macalester S, Fannin EA. Orthostatic hypotension in patients with dementia: clinical features and response to treatment.Cogn Behav Neurol 26(3):105-120, 2013.
4. Saedon NI, Tan MP, Frith J. The prevalence of orthostatic hypotension: a systematic review and meta-analysis. J Gerontol A Biol Sci Med Sci, 2018. doi: 10.1093/gerona/gly188.
5. McKeith IG, Boeve BF, Dickson DW, Halliday G, Taylor JP, Weintraub D, et al. Diagnosis and management of dementia with Lewy bodies: Fourth consensus report of the DLB Consortium. Neurology 89(1):88-100, 2017.
6. Udow SJ, Robertson AD, MacIntosh BJ, Espay AJ, Rowe JB, Lang AE, Masellis M. 'Under pressure': is there a link between orthostatic hypotension and cognitive impairment in alpha-synucleinopathies? J Neurol Neurosurg Psychiatry 87(12):1311-1321, 2016.
7. Postuma RB, Gagnon JF, Pelletier A, Montplaisir J. Prodromal autonomic symptoms and signs in Parkinson's disease and dementia with Lewy bodies. Mov Disord 28(5):597-604, 2013.
8. Claassen D, Adler C, Hewitt L, Gibbons C. Characterization of the symptoms of neurogenic orthostatic hypotension and their impact from a survey of patients and caregivers. BMC Neurol 18(1):125, 2018. doi: 10.1186/s12883-018-1129-x.
9. Juraschek SP, Daya N, Appel LJ, Miller ER, McEvoy JW, Matsushita K, et al. Orthostatic Hypotension and Risk of Clinical and Subclinical Cardiovascular Disease in Middle-Aged Adults. J Am Heart Assoc 7(10):e008884, 2018. doi:10.1161/JAHA.118.008884.
10. Mol A, Reijnierse EM, Hoang PTSB, van Wezel RJ, Meskers CG, Maier AB. Orthostatic hypotension and physical functioning in older adults: A systematic review and meta-analysis. Ageing Res Rev 48:122-144, 2018.
11. Ricci F, Fedorowski A, Radico F, Romanello M, Tatasciore A, Di Nicola M, et al. Cardiovascular morbidity and mortality related to orthostatic hypotension: a meta-analysis of prospective observational studies. Eur Heart J 36(25):1609-1617, 2015.
12. Oishi E, Sakata S, Tsuchihashi T, Tominaga M, Fujii K. Orthostatic Hypotension Predicts a Poor Prognosis in Elderly People with Dementia. Intern Med 55(15):1947-1952, 2016.
13. Kario K. Orthostatic hypertension-a new haemodynamic cardiovascular risk factor. Nat Rev Nephrol 9(12):726-738, 2013.
14. Frewen J, Savva G, Boyle G, Finucane C, Kenny R. Cognitive performance in orthostatic hypotension: findings from a nationally representative sample. J Am Geriatr Soc 62(1):117-122, 2014.
15. Torres R, Elias M, Crichton G, Dore G, Davey A. Systolic orthostatic hypotension is related to lowered cognitive function: Findings from the Maine-Syracuse Longitudinal Study. J Clin Hypertens 19(12):1357-1365, 2017.
16. Suemoto C, Baena C, Mill J, Santos I, Lotufo P, Benseñor I. Orthostatic hypotension and cognitive function: cross-sectional results from the ELSA-Brasil study. J Gerontol A Biol Sci Med Sci 74(3):358-365, 2019.
17. Guaraldi P, Poda R, Calandra-Buonaura G, Solieri L, Sambati L, Gallassi R, Cortelli P. Executive Functions Worsen during Orthostatic Challenge in Patients with Neurogenic Orthostatic Hypotension. Neurology 80(7):03-035, 2013.
18. Frewen J, Finucane C, Savv G, Boyle G, Kenny R. Orthostatic hypotension is associated with lower cognitive performance in adults aged 50 plus with supine hypertension. J Gerontol A Biol Sci Med Sci 69(7):878-885, 2013.
19. Foster-Dingley JC, Moonen JE, de Ruijter W, van der Mast RC, van der Grond J. Orthostatic hypotension in older persons is not associated with cognitive functioning, features of cerebral damage or cerebral blood flow. J Hypertens 36(5):1201-1206, 2018.
20. Peters R, Anstey K, Booth A, Beckett N, Warwick J, Antikainen R, et al. Orthostatic hypotension and symptomatic subclinical orthostatic hypotension increase risk of cognitive impairment: an integrated evidence review and analysis of a large older adult hypertensive cohort. Eur Heart J 39(33):3135-3143, 2018.
21. Huang H, Zheng T, Liu F, Wu Z, Liang H, Wang S. Orthostatic Hypotension Predicts Cognitive Impairment in the Elderly: Findings from a Cohort Study. Front Neurol 8:121, 2017.
22. McNicholas T, Tobin K, Carey D, O'Callaghan S, Kenny R. Is Baseline Orthostatic Hypotension Associated with a Decline in Global Cognitive Performance at 4-Year Follow-Up? Data from TILDA (The Irish Longitudinal Study on Ageing). J Am Heart Assoc 7(19):e008976, 2018.
23. Curreri C, Giantin V, Veronese N, Trevisan C, Sartori L, Musacchio E, et al. Orthostatic changes in blood pressure and cognitive status in the elderly: the Progetto Veneto Anziani Study. Hypertension 68(2):427-435, 2016.
24. Feeney J, Leary N, Kenny RA. Impaired orthostatic blood pressure recovery and cognitive performance at two-year follow up in older adults: The Irish Longitudinal Study on Ageing. Clin Auton Res 26(2):127-133, 2016.
25. Elmståhl S, Widerström E. Orthostatic intolerance predicts mild cognitive impairment: incidence of mild cognitive impairment and dementia from the Swedish general population cohort Good Aging in Skåne. Clin Interv Aging 9:1993-2002, 2014.
26. Bocti C, Pépin F, Tétreault M, Cossette P, Langlois F, Imbeault H, et al. Orthostatic hypotension associated with executive dysfunction in mild cognitive impairment. J Neurol Sci 382:79-83, 2017.
27. Hayakawa T, McGarrigle C, Coen R, Soraghan C, Foran T, Lawlor B, Kenny R. Orthostatic Blood Pressure Behavior in People with Mild Cognitive Impairment Predicts Conversion to Dementia. J Am Geriatr Soc 63(9):1868-1873, 2015.
28. Rawlings A, Juraschek S, Heiss G, Hughes T, Meyer M, Selvin E, et al. Association of orthostatic hypotension with incident dementia, stroke, and cognitive decline. Neurology 91(8):e759-e768, 2018.
29. Holm H, Nägga K, Nilsson E, Melander O, Minthon L, Bachus E, et al. Longitudinal and postural changes of blood pressure predict dementia: the Malmö Preventive Project. Eur J Epidemiol 32(4):327-336, 2017.
30. O'Hare C, Kenny RA, Aizenstein H, Boudreau R, Newman A, Launer L, et al. Cognitive Status, Gray Matter Atrophy, and Lower Orthostatic Blood Pressure in Older Adults. J Alzheimer's Dis 57(4):1239-1250, 2017.
31. Cremer A, Soumaré A, Berr C, Dartigues J, Gabelle A, Gosse P, Tzourio C. Orthostatic Hypotension and Risk of Incident Dementia: Results From a 12-Year Follow-Up of the Three-City Study Cohort. Hypertension 70(1):44-49, 2018.
32. Wolters FJ, Mattace-Raso FU, Koudstaal PJ, Hofman A, Ikram MA, & Heart Brain Connection Collaborative Research Group. Orthostatic Hypotension and the Long-Term Risk of Dementia: A Population-Based Study. PLoS Med 13(10):e1002143, 2016.
33. Ong H, Abdin E, Seow E, Pang S, Sagayadevan V, Chang S, et al. Prevalence and associative factors of orthostatic hypotension in older adults: Results from the Well-being of the Singapore Elderly (WiSE) study. Arch Gerontol Geriatr 72:146-152, 2017.
34. Soennesyn H, Dalen I, Aarsland D. Persistence and Prognostic Implications of Orthostatic Hypotension in Older Individuals with Mild-to-Moderate Dementia. Dement Geriatr Cogn Dis Extra 4(2):283-296, 2014.
35. Robertson AD, Messner MA, Shirzadi Z, Kleiner-Fisman G, Lee J, Hopyan J, et al. Orthostatic hypotension, cerebral hypoperfusion, and visuospatial deficits in Lewy body disorders. Parkinsonism Relat Disord 22:80-86, 2016.
36. Kimmerly DS, O'leary DD, Menon RS, Gati JS, Shoemaker JK. Cortical regions associated with autonomic cardiovascular regulation during lower body negative pressure in humans. J Physiol 569(1):331-345, 2005.