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Perspective écologique sur les déterminants de la vitalité cognitive des aînés

Published online by Cambridge University Press:  13 August 2013

Anne-Marie Belley
Affiliation:
CSSS Cavendish–Centre affilié universitaire, Centre de recherche et d’expertise en gérontologie sociale (CREGÉS)
Manon Parisien*
Affiliation:
CSSS Cavendish–Centre affilié universitaire, Centre de recherche et d’expertise en gérontologie sociale (CREGÉS) Université de Montréal, École de réadaptation
Kareen Nour
Affiliation:
Direction de santé publique de la Montérégie
Nathalie Bier
Affiliation:
Université de Montréal, École de réadaptation
Guylaine Ferland
Affiliation:
Université de Montréal, Département de nutrition Centre de recherche, Institut universitaire de gériatrie de Montréal et Hôpital du Sacré-Cœur de Montréal
Danielle Guay
Affiliation:
CSSS Cavendish–Centre affilié universitaire, Centre de recherche et d’expertise en gérontologie sociale (CREGÉS)
Petre Popov
Affiliation:
CSSS Cavendish–Centre affilié universitaire, Centre de recherche et d’expertise en gérontologie sociale (CREGÉS)
Sophie Laforest
Affiliation:
CSSS Cavendish–Centre affilié universitaire, Centre de recherche et d’expertise en gérontologie sociale (CREGÉS) Département de kinésiologie, Université de Montréal Institut de recherche en santé publique de l’Université de Montréal (IRSPUM) et Centre de recherche et d’expertise en gérontologie sociale (CREGÉS)
*
*La correspondance et les demandes de tirés-à-part doivent être adressées à : Correspondence and requests for offprints should be sent to: Manon Parisien, erg., M.Sc. Agente de planification CSSS Cavendish–Centre affilié universitaire 5800, Cavendish, Suite 600 Côte St-Luc, QC H4W 2T5 (manon.parisien.cvd@ssss.gouv.qc.ca)

Abstract

Cognitive aging is a heterogeneous reality among the senior population. Studies have recently identified certain factors that may contribute to maintaining the cognitive health of seniors. To date, these research studies have primarily focused on individual determinants, namely: health conditions and lifestyle habits. A review of the literature was conducted in order to explore the socio-environmental factors that may influence the cognitive vitality of seniors. This review demonstrates that studies that have examined this potential link are very rare. Only the type and socioeconomic level of the neighbourhood of the residence, as well as the size of the social network, were identified as influential factors. However, studies have shown that the environment could modulate certain lifestyle habits which, in turn, can influence cognition. This article uses an ecological approach to illustrate individual and socio-environmental targets for the promotion of the cognitive health of seniors.

Résumé

Le vieillissement cognitif demeure une réalité très hétérogène chez la population aînée. Des études ont récemment identifié certains facteurs pouvant contribuer à maintenir la santé cognitive des aînés. À ce jour, ces recherches ont principalement porté sur des déterminants individuels, notamment : les conditions de santé et les habitudes de vie. Une recension des écrits a été réalisée afin d’explorer les facteurs socio-environnementaux qui peuvent influencer la vitalité cognitive des aînés. Cette recension montre que les études qui ont examiné ce lien potentiel sont très rares. Seuls le type et le niveau socio-économique du quartier de résidence, ainsi que la taille du réseau social ont été identifiés comme facteurs d’influence. Par contre, des études ont montré que l’environnement pouvait moduler certaines habitudes de vie qui, à leur tour, peuvent influencer la cognition. Le présent article s’inspire d’une approche écologique afin d’illustrer des cibles individuelles et socio-environnementales de la promotion de la santé cognitive des aînés.

Remerciements

Cet article fait suite à un projet réalisé dans le cadre de la 62ième session de la Commission permanente de Coopération Franco-Québécoise 2009–2010, financée par le Ministère des Relations internationales du Québec.

Type
Articles
Copyright
Copyright © Canadian Association on Gerontology 2013 

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References

Références

Alzheimer’s Australia. (2010). Towards a national dementia preventative health strategy. Canberra: Author.Google Scholar
American Society on Aging (2007). Attitudes and awareness of brain health pool. Consulté le 13 février 2010, à partir dehttp://asaging.org/asav2/mindalert/brainhealthpoll.cfm.Google Scholar
Amieva, H., Le Goff, M., Millet, X., Orgogozo, J.M., Peres, K., Barberger-Gateau, P., et al. . (2008). Prodromal Alzheimer’s disease: Successive emergence of the clinical symptoms. Annals of Neurology, 64, 492498.Google Scholar
Andel, R., Crowe, M., Pedersen, N.L., Fratiglioni, L., Johansson, B., et Gatz, M. (2008). Physical exercise at midlife and risk of dementia three decades later: A population-based study of Swedish twins. The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences, 63A, 6266.Google Scholar
Anstey, K.J., von Sanden, C., Salim, A., et O’Kearney, R. (2007). Smoking as a risk factor for dementia and cognitive decline: A meta-analysis of prospective studies. American Journal of Epidemiology, 166, 367378.Google Scholar
Bassuk, S.S., Glass, T.A., et Berkman, L.F. (1999). Social disengagement and incident cognitive decline in community-dwelling elderly persons. Annals of Internal Medicine, 131(3), 165173.Google Scholar
Buchman, A.S., Wilson, R.S., et Bennett, D.A. (2008). Total daily activity is associated with cognition in older persons. American Journal of Geriatric Psychiatry, 16(8), 697701.Google Scholar
Carlson, M.C., Helms, M.J., Steffens, D.C., Burke, J.R., Potter, G.G., et Plassman, B.L. (2008). Midlife activity predicts risk of dementia in older male twin pairs. Alzheimers & Dementia, 4, 324331.Google Scholar
Celsis, P. (2000). Age-related cognitive decline, mild cognitive impairment or preclinical Alzheimer’s disease? Annuls of Medicine, 32(1), 614.Google Scholar
Christensen, H. (2001). What cognitive changes can be expected with normal ageing? The Australian and New Zealand Journal of Psychiatry, 35(6), 768775.Google Scholar
Colcombe, S., et Kramer, A.F. (2003). Fitness effects on the cognitive function of older adults: A meta-analytic study. Psychological Science, 14(2), 125130.Google Scholar
Crowe, M., Andel, R., Pederson, N.L., Johansson, B., et Gatz, M. (2003). Does participation in leisure activities lead to reduced risk of Alzheimer’s disease? A prospective study of Swedish twins. The Journals of Gerontology. Series B, Psychological Sciences and Social Sciences, 58, 249255.Google Scholar
Desjardins, N., D’Amours, G., Poissant, J., et Manseau, S. (2008). Avis scientifique sur les interventions efficaces en promotion de la santé mentale et en prévention des troubles mentaux. Montréal: Institut national de santé publique du Québec. Retrieved fromhttp://www.inspq.qc.ca/pdf/publications/789_Avis_sante_mentale.pdf.Google Scholar
Dik, M.G., Jonker, C., Comijs, H.C., Bouter, L.M., Twisk, J. W.R., van Kamp, G.J., et al. . (2001). Memory complaints and APOE-epsilon4 accelerate cognitive decline in cognitively normal elderly. Neurology, 57(12), 22172222.CrossRefGoogle ScholarPubMed
Espino, D.V., Lichtenstein, M.J., Palmer, R.F., et Hazuda, H.P. (2001). Ethnic differences in mini-mental state examination (MMSE) scores: Where you live makes a difference. Journal of the American Geriatrics Society, 49(5), 538548.Google Scholar
Fillit, H.M., Butler, R.N., O’Connell, A.W., Albert, M.S., Birren, J.E., Cotman, C.W., et al. . (2002). Achieving and maintaining cognitive vitality with aging. Mayo Clinic Proceedings, 77(7), 681696.Google Scholar
Foley, D., Monjan, A., Masaki, K., Ross, W., Havlik, R., et Launer, L. (2001). Daytime sleepiness is associated with 3-year incident dementia and cognitive decline in older Japanese-American men. Journal of the American Geriatrics Society, 49, 16281632.Google Scholar
Forette, F., Seux, M.-L., Staessen, J.A., Thijs, L., Bikhenhäger, W.H., Babarskiene, M.R., et al. . (1998). Prevention of dementia in randomised double-blind placebo-controlled Systolic Hypertension in Europe (Syst-Eur) trial. Lancet, 352(9137), 13471351.Google Scholar
Fratiglioni, L., Wang, H.X., Ericsson, K., Maytan, M., et Winblad, B. (2000). Influence of social network on occurrence of dementia: A community-based longitudinal study. The Lancet, 355(9212), 13151319.Google Scholar
Fritsch, T., Smyth, K.A., Debanne, S.M., et Friedland, R.P. (2005). Participation in novelty-seeking leisure activities and Alzheimer’s disease. Journal of Geriatric Psychiatry and Neurology, 18, 134–41.Google Scholar
Galvin, J.A., Benson, H., Deckro, G.R., Fricchione, G.L., et Dusek, J.A. (2006). The relaxation response: Reducing stress and improving cognition in healthy aging adults. Complementary Therapies in Clinical Practice, 12, 186191.Google Scholar
Ganguli, M., Snitz, B., Bilt, J.V., et Chang, H.C.-C. (2009). How much do depressive symptoms affect cognition at the population level? The Monongahela–Youghiogheny Healthy Aging Team (MYHAT) study, International Journal of Geriatric Psychiatry, 24, 12771284.CrossRefGoogle ScholarPubMed
Gauvin, L., Riva, M., Barnett, T., Richard, L., Craig, C.L., Spivock, M.I., et al. . (2008). Association between neighborhood active living potential and walking. American Journal of Epidemiology, 167(8), 944953.CrossRefGoogle ScholarPubMed
Gillette-Guyonnet, S., et Vellas, B. (2007). Alimentation et prévention du déclin cognitif et de la démence. Revue Canadienne de la maladie d’Alzheimer et autres démences, Septembre 18–27.Google Scholar
Hendrie, H.C., Albert, M.S., Butters, M.A., Gao, S., Knopman, D.S., Launer, L.J., et al. . (2006). The NIH Cognitive and Emotional Health Project. Report of the Critical Evaluation Study Committee. Alzheimer’s & Dementia, 2(1), 1232.Google Scholar
Hughes, T.F., Andel, R., Small, B.J., Borenstein, A.A., et Mortimer, J.A. (2008). The association between social resources and cognitive change in older adults: Evidence from the Charlotte County Healthy Aging Study. The Journals of Gerontology. Series B, Psychological Sciences and Social Sciences, 4, 241244.CrossRefGoogle Scholar
Hughes, T., et Ganguli, M. (2009). Modifiable midlife risk factors for late-life cognitive impairment and dementia. Current Psychiatry Reviews, 5(2), 7392.Google Scholar
Hughes, S.L., Seymour, R.B., Campbell, R.T., Whitelaw, N., et Bazzarre, T. (2009). Best-practice physical activity programs for older adults: Findings from the National Impact Study. American Journal of Public Health, 99(2), 362368.Google Scholar
Hultsch, D.F., Hertzog, C., Small, B.G., et Dixon, R.A., (1999). Use it or lose it: Engaged lifestyle as a buffer against cognitive decline in aging. Psychology and Aging, 14, 245263.CrossRefGoogle ScholarPubMed
Kalpouzos, G., Eustache, F., et Desgranges, B. (2008). Réserve cognitive et fonctionnement cérébral au cours du vieillissement normal et de la maladie d’Alzheimer. Psychologie & Neuropsychiatrie du Vieillissement, 6(2), 97105.Google Scholar
Karp, A., Paillard-Borg, S., Wang, H.X., Silverstein, M., Winblad, B., et Fratiglioni, L. (2006). Mental, physical and social components in leisure activities equally contribute to decrease dementia risk. Dementia and Geriatric Cognitive Disorders, 21(2), 6573.Google Scholar
Katzman, R., Terry, R., DeTeresa, R., Brown, T., Davies, P., Fuld, P., et al. . (1988). Clinical pathological, and neurochemical changes in dementia: a subgroup with preserved mental status and numerous neocortical plaques. Annals of Neurology, 23(2), 138144.Google Scholar
Kino-Québec (2004). Les stratégies éprouvées ou prometteuses pour promouvoir la pratique régulière d’activités physiques au Québec. Avis du comité scientifique de Kino-Québec. Québec: Ministère des Affaires municipales, du Sport et du Loisir. Gouvernement du Québec.Google Scholar
Kramer, A.F., Bherer, L., Colcombe, S.J., Dong, W., et Greenough, W.T. (2004). Environmental influences on cognitive and brain plasticity during aging. The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences, 59(9), M940M957.Google Scholar
Kubzansky, L.D., Subramanian, S.V., Kawachi, I., Fay, M.E., Soobader, M.J., et Berkman, L.F. (2005). Neighborhood contextual influences on depressive symptoms in the elderly. American Journal of Epidemiology, 162(3), 253260.Google Scholar
Laitinen, M.H., Ngandu, T., Rovio, S., Helkala, E.L., Uusitalo, U., Viitanen, M., et al. . (2006). Fat intake at midlife and risk of dementia and Alzheimer’s disease: A population-based study. Dementia and Geriatric Cognitive Disorders, 22, 99107.Google Scholar
Lang, I.A., Llewellyn, D.J., Langa, K.M., Wallace, R.B., Huppert, F.A., et Melzer, D. (2008). Neighborhood deprivation, individual socioeconomic status, and cognitive function in older people: Analyses from the English Longitudinal Study of Ageing. Journal of the American Geriatrics Society , 56(2), 191198.Google Scholar
Li, F.Z., Fisher, K.J., Bauman, A., Ory, M.G., Chodzko-Zajko, W., Harmer, P., et al. . (2005). Neighborhood influences on physical activity in middle-aged and older adults: A multilevel perspective. Journal of Aging and Physical Activity, 13(1), 87114.Google Scholar
Li, F.Z., Harmer, P., Cardinal, B.J., Bosworth, M., et Johnson-Shelton, D. (2009). Obesity and the built environment: Does the density of neighborhood fast-food outlets matter? American Journal of Health Promotion, 23(3), 203209.Google Scholar
Middleton, L.E., Mitnitski, A., Fallah, N., Kirkland, S.A., et Rockwood, K. (2008). Changes in cognition and mortality in relation to exercise in late life: A population based study. PLoS One, 3(9), e3124.Google Scholar
Organisation mondiale de la santé, (2003). Les déterminants sociaux de la santé: Les Faits. Genève: Organisation mondiale de la Santé.Google Scholar
Parrott, M., et Greenwood, C.E. (2007). Dietary influences on cognitive function with aging. From high-fat diets to healthful eating. Annals of the New York Academy of Sciences, 1114, 389397.Google Scholar
Payette, H., et Shatenstein, B. (2005). Les déterminants de la saine alimentation des personnes âgées vivant dans les collectivités. Revue canadienne de santé publique, 96(3), S30S35.Google Scholar
Peila, R., White, L., Masaki, K., Petrovitch, H., et Launer, L.J. (2006). Reducing the risk of dementia: Efficacy of long-term treatment of hypertension. Stroke 37, 11651170.Google Scholar
Perren, K., Arber, S., et Davidson, K. (2003). Men’s organisational affiliations in later life: The influence of social class and marital status on informal group membership. Ageing and Society, 23, 6982.CrossRefGoogle Scholar
Peters-Davis, N.D., Burant, C.L., et Braunschweig, H.M. (2001). Factors associated with volunteer behavior among community dwelling older persons. Activity, Adaptation & Aging, 26(2), 2944.Google Scholar
Rapp, M.A., Schnaider-Beeri, M., Wysocki, M., Guerrero-Berroa, E., Grossman, H.T., et Haroutunian, V. (2011). Cognitive decline in patients with dementia as a function of depression. The American Journal of Geriatric Psychiatry, 19(4), 357363.Google Scholar
Richard, L., Gauvin, L., et Raine, K. (2010). Ecological models revisited: Their uses and evolution in health promotion over two decades. Annual Review of Public Health, 32, 307326. doi: 10.1146/annurev-publhealth-031210-101141.Google Scholar
Satariano, W.A. (2006). Epidemiology of aging: An ecological approach. Sudbury, Ontario: Jones and Bartlett Publishers.Google Scholar
Seeman, T., Lusignolo, T., Albert, M., et Berkman, L. (2001). Social relationships, social support, and patterns of cognitive aging in healthy, high-functioning older adults: MacArthur studies of successful aging. Health Psychology, 20(4), 243255.Google Scholar
Seeman, T., McAvay, G., Merrill, S., Albert, M., et Rodin, J. (1996). Self-efficacy beliefs and change in cognitive performance: MacArthur studies of successful aging. Psychology and Aging, 11(3), 538551.Google Scholar
Solfrizzi, V., Colacicco, A.M., Introno, A.D., Capurso, C., Torres, F., Rizzo, C., et al. . (2006). Dietary intake of unsaturated fatty acids and age-related cognitive decline: A 8.5-year follow-up of the Italian Longitudinal Study on Aging. Neurobiology of Aging, 27(11), 16941704.Google Scholar
Stern, Y. (2009). Cognitive reserve. Neuropsychologia, 47, 20152028.Google Scholar
Veninga, J. (2006). Capital social et sain vieillissement. Recherche sur les politiques de santé. Bulletin de Santé Canada, 12, 2124.Google Scholar
Verghese, J., Lipton, R.B., Katz, M.J., Hall, C.B., Derby, C.A., Kuslansky, G., et al. . (2003). Leisure activities and the risk of dementia in the elderly. New England Journal of Medicine, 348(25), 25082516.Google Scholar
Warburton, J. (2007). Factors affecting volunteering among older rural and city dwelling adults in Australia. Educational Gerontology, 33, 2343.Google Scholar
Wight, R.G., Aneshensel, C.S., Miller-Martinez, D., Botticello, A.L., Cummings, J.R., Karlamangla, A.S., et al. . (2006). Urban neighborhood context, educational attainment, and cognitive function among older adults. American Journal of Epidemiology, 163(12), 10711078.Google Scholar
Wilson, R.S., Barnes, L.L., et Bennett, D.A. (2003). Assessment of lifetime participation in cognitively stimulating activities. Journal of Clinical and Experimental Neuropsychology, 25(5), 634642.Google Scholar
Wilson, R.S., Krueger, K.R., Arnold, S.E., Schneider, J.A., Kelly, J.F., Barnes, L.L., et al. . (2007). Loneliness and risk of Alzheimer’s disease. Archives of General Psychiatry, 64, 234240.Google Scholar
Woodward, M. (2007). Dementia risk reduction: The evidence. Canberra: Alzheimer’s Australia.Google Scholar
Zunzunegui, M.V., Alvarado, B.E., Del Ser, T., et Otero, A. (2003). Social networks, social integration and social engagement determine cognitive decline in community-dwelling Spanish older adults. Journal of Gerontology, 58(2), 93100.Google Scholar