The level of physical activity as an intervening factor in the cognitive state of primary care older adults

Daniel Vicentini de Oliveira Veridiane Brigato de Oliveira Géssica Aline Caruzo Áurea Gonçalves Ferreira José Roberto Andrade do Nascimento Júnior Paolo Marcello da Cunha Cláudia Regina Cavaglieri About the authors

Abstract

This study proposed to evaluate the level of physical activity and the cognitive state of elderly users of Primary Care Facilities (UBS) of the Municipality of Maringá, State of Paraná, Brazil. This is a descriptive, cross-sectional, epidemiological study with 654 elderly men and women UBS users. A sociodemographic questionnaire, the Mini Mental State Examination (MMSE) and the short version of the International Physical Activity Questionnaire (IPAQ) were employed. Data was analyzed using the Kolmogorov-Smirnov, Chi-square, Kruskal-Wallis and Mann-Whitney “U” tests, with a significance level of p<0.05. However, they evidenced a high score in temporal orientation (Md = 5.0), spatial orientation (Md = 5.0), immediate memory (Md = 3.0), recall (Md = 3.0) and language (Md = 8.0). When comparing the mental state according to the level of physical activity of the elderly, we observed that very active/active individuals had better attention and calculation (p = 0.036), recall (p = 0.001) and general cognitive status (p = 0.002) against irregularly active and sedentary elderly. Adequate levels of physical activity may be related to better scores of cognitive functions of elderly subjects.

Key words
Motor activity; Cognition; Gerontology; Health promotion

Introduction

The aging process is accompanied by various modifications, such as changes in bodily composition (reduced muscle mass and increased body fat), lower muscle strength, flexibility, functional capacity, all associated with a decline of physical activities and cognitive performance in the elderly population11 Zamboni M, Rossi AP, Fantin F, Zamboni G, Chirumbolo S, Zoico E, Mazzali G. Adipose tissue, diet and aging. Mech Ageing Dev 2014; 136-137:129-137.

2 Manini TM, Clark BC. Dynapenia and aging: an update. J Gerontol A Biol Sci Med Sci 2012; 67(1):28-40.

3 Janssen I, Heymsfield SB, Ross R. Low relative skeletal muscle mass (sarcopenia) in older persons is associated with functional impairment and physical disability. J Am Geriatr Soc 2002; 50(5):889-896.
-44 Prince M, Bryce R, Albanese E, Wimo A, Ribeiro W, Ferri CP. The global prevalence of dementia: A systematic review and metaanalysis. Alzheimer's Dement 2013; 9(1):63-75.. This adverse situation observed in aging can lead to possible complications such as physical disability, development of cardiovascular and metabolic diseases, multimorbidities or frailty syndrome44 Prince M, Bryce R, Albanese E, Wimo A, Ribeiro W, Ferri CP. The global prevalence of dementia: A systematic review and metaanalysis. Alzheimer's Dement 2013; 9(1):63-75.

5 Cruz-Jentoft AJ, Baeyens JP, Bauer JM, Boirie Y, Cederholm T, Landi F, Martin FC, Michel JP, Rolland Y, Schneider SM, Topinková E, Vandewoude M, Zamboni M; European Working Group on Sarcopenia in Older People. Sarcopenia: European consensus on definition and diagnosis: Report of the European Working Group on Sarcopenia in Older People. Age Ageing 2010; 39(4):412-423.
-66 Manini T. Development of physical disability in older adults. Curr Aging Sci 2013; 4(3):184-191..

Another important factor is cognitive impairment of the elderly during aging, leading to memory deficit and declining performance of their daily activities, such as reading, logical and abstract reasoning, spatial skills and verbal abilities77 Raichlen DA, Alexander GE. Adaptive Capacity: An Evolutionary Neuroscience Model Linking Exercise, Cognition, and Brain Health. Trends Neurosci 2017:1-14.. There are three types of cognitive changes, namely, normal cognitive aging, cognitive impairment and dementia88 Petersen RC. Mild cognitive impairment as a clinical entity and treatment target. Arch Neurol 2004; 62(7):1160-1163; [discussion, n. 1167].,99 Winblad B, Palmer K, Kivipelto M, Jelic V, Fratiglioni L. Mild cognitive impairment - beyond controversies, towards a consensus?: report of the International Working Group on Mild Cognitive Impairment. J Intern Med 2004; (Sept. 2003):240-246..

Physical activity in aging improves physical fitness and cognitive function of the elderly. The regular practice of physical exercise develops positive changes, triggering angiogenesis and increased cerebral blood flow, synaptogenesis and neurogenesis1010 Gligoroska J, Manchevska S. The Effect of Physical Activity on Cognition - Physiological Mechanisms. Mater Socio Medica 2012; 24(3):198..

Physical exercise improves cognitive performance and may increase selective attention and short-term memory. Thus, several studies evidencing that moderate or intense physical activity may be a non-pharmacological treatment for improved cognition. A study carried out in the city of Florianópolis with 875 sedentary elderly showed worse mental health and a significant increase of depressive symptoms1111 Ribeiro AS, Avelar A, Schoenfeld BJ, Ritti Dias RM, Altimari LR, Cyrino ES. Resistance training promotes increase in intracellular hydration in men and women. Eur J Sport Sci 2014; 14(6):578-585..

Regular physical exercise can prevent or even reverse frequent problems found in the elderly during aging, reducing the noxious effects of cognitive decline1212 Nagamatsu LS, Handy TC, Hsu CL, Voss M, Liu-Ambrose T. Resistance training promotes cognitive and functional brain plasticity in seniors with probable mild cognitive impairment. Arch Intern Med. 2012; 172(8):666-668.

13 Nascimento CMC, Pereira JR, Pires de Andrade L, Garuffi M, Ayan C, Kerr DS, Talib LL, Cominetti MR, Stella F. Physical exercise improves peripheral BDNF levels and cognitive functions in mild cognitive impairment elderly with different bdnf Val66Met genotypes. J Alzheimers Dis 2015; 43(1):81-91.
-1414 Coelho FM, Pereira DS, Lustosa LP, Silva JP, Dias JM, Dias RC, Queiroz BZ, Teixeira AL, Teixeira MM, Pereira LS. Physical therapy intervention (PTI) increases plasma brain-derived neurotrophic factor (BDNF) levels in non-frail and pre-frail elderly women. Arch Gerontol Geriatr 2012; 54(3):415-420.. However, the number of inactive elderly people who do not engage in any daily or physical activity is alarming, making physical inactivity the fourth leading cause of death in the world1515 Lee I-M, Shiroma EJ, Lobelo F, Puska P, Blair SN, Katzmarzyk PT. Impact of Physical Inactivity on the World's Major Non-Communicable Diseases. Lancet 2012; 380(9838):219-229.,1616 World Health Organization. Preventing Chronic Diseases: a Vital Investment. World Health 2005; 202..

Studies on regular physical activity in the elderly and the cognitive profile of this population should be investigated because of the association between levels of physical activity that may affect the cognitive functions of the elderly1212 Nagamatsu LS, Handy TC, Hsu CL, Voss M, Liu-Ambrose T. Resistance training promotes cognitive and functional brain plasticity in seniors with probable mild cognitive impairment. Arch Intern Med. 2012; 172(8):666-668.,1717 Bamidis PD, Fissler P, Papageorgiou SG, Zilidou V, Konstantinidis EI, Billis AS, Romanopoulou E, Karagianni M, Beratis I, Tsapanou A, Tsilikopoulou G, Grigoriadou E, Ladas A, Kyrillidou A, Tsolaki A, Frantzidis C, Sidiropoulos E, Siountas A, Matsi S, Papatriantafyllou J, Margioti E, Nika A, Schlee W, Elbert T, Tsolaki M, Vivas AB, Kolassa IT. Gains in cognition through combined cognitive and physical training: The role of training dosage and severity of neurocognitive disorder. Front Aging Neurosci 2015; 7(JUL):1-15.

18 Hillman CH, Erickson KI, Kramer AF. Be smart, exercise your heart: exercise effects on brain and cognition. Nat Rev Neurosci 2008; 9(1):58-65.
-1919 Erickson KI, Weinstein AM, Lopez OL. Physical activity, brain plasticity, and Alzheimer's disease. Arch Med Res 2012; 43(8):615-621.. Thus, this study proposed to evaluate the level of physical activity and cognitive state (Mini Mental State Examination) of elderly users of the Primary Health Facilities of the Municipality of Maringá, Paraná.

Methods

Participants

According to data obtained from the Health Secretariat of Maringá (PR), the target population consists of 42,258 elderly people (2016). The initial sample totaled 595 elderly people, adding 10% to provide for possible losses. The final sample consisted of 654 elderly men and women, considering a 95% confidence level and 4% error margin. The software used for calculations was StatDisk version 8.4.

The UBS in which the elderly are included were subdivided into four regions: East (7 UBS), with 21.8% of the elderly; North (8 UBS), with 34.5%; West (8 UBS), with 23.2%; and South (8 UBS), with 20.4% of the elderly population the city. Knowing the composition of the regions, three UBS were drawn to be evaluated in each of the regions.

After defining the size of the sample in each region and selecting the UBS, it was important to keep the proportion of the elderly population in the sample. Thus, calculations to obtain the final sample by UBS and gender were proportional to the population.

Included in the study were elderly people of both genders, aged 60 years and over, with preserved speech and hearing ability, which allowed the application of questionnaires. The Mini Mental State Examination (MMSE) was used to exclude elderly people with significant cognitive impairments. The MMSE consists of questions grouped into seven categories: temporal orientation (maximum score of 5), spatial orientation (maximum score of 5), registration of three words (maximum score of 3), attention and calculation (maximum score of 5), memory of the three words - recall (maximum score of 3), language (maximum score of 8) and visual construction ability (maximum score of 1). The higher the score in each realm, the better its cognitive state2020 Folstein MF, Folstein SE, McHugh PR. "Mini-mental state" A practical method for grading the cognitive state of patients for the clinician. J Psychiatr 1975; 12(3):189-198.. The cut-off scores used for exclusion by the MMSE were 17 for the illiterate; 22 for the elderly with 1-4 years schooling; 24 for those with 5-8 years schooling and 26 for those with 9 years or more schooling. These cut-off points were based on the criteria of Brucki et al2121 Brucki SMD, Nitrini R, Caramelli P, Bertolucci PHF, Okamoto IH. Sugestões para o uso do mini-exame do estado mental no Brasil. Arq Neuropsiquiatr 2003; 61(3B):777-781.. They correspond to the mean obtained by these authors for each schooling range, minus one standard deviation. Elderly classified below the cut-off point specific to their schooling were excluded.

Tools

A semi-structured questionnaire was used to characterize the sociodemographic and health profile of the elderly, consisting of information regarding age (60-69 years, 70-79 years, 80 years and over), gender (male, female), marital status (married or living with the partner, single, divorced, separated or widowed), ethnicity (white, black, other), monthly income in minimum wages (MW) of reference of the 2016 Demographic Census of the Brazilian Institute of Geography and Statistics (IBGE) (R$ 880.00) (1-2 MW, 2.1-3 MW and more than 3 MW), retirement (yes/no), schooling (did not study, incomplete elementary school, complete elementary school, complete secondary school and higher education), self-perceived health status (bad, fair, good, very good) and number of medications used (none, 1-2, more than 2).

The physical activity level of the elderly was evaluated using the short version of the International Physical Activity Questionnaire (IPAQ). It consists of seven open questions and its information allows estimating the time spent per week in different realms of physical activity (walking and moderate and vigorous and physical activities) and physical inactivity (sitting position). The level of physical activity was classified as sedentary (elderly people who did not perform any physical activity for at least 10 continuous minutes during the week.), irregularly active (elderly individuals who perform physical activity, however, insufficiently to be classified as active because they do not follow the recommendations regarding frequency or duration), active (elderly people who performed at least 3 days of vigorous activity for at least 20 minutes; or 5 days or more of moderate activity or walking for at least 30 minutes; or at least 5 days and 150 minutes per week of any type of physical activity) or very active (elderly who performed vigorous activities for at least 5 days a week, 30 minutes per session; or at least 3 days a week of vigorous activity, at least 20 minutes per session, plus moderate activities or walking, for at least 5 days a week and 30 minutes per session). Sedentary behavior was assessed by means of the mean sitting time on a weekday, and on a weekend day2222 Matsudo S, Araújo T, Matsudo V, Andrade D, Andrade E, Oliveira LC, Braggion G. Questionário Internacional De Atividade Física (Ipaq): Estudo De Validade E Reprodutibilidade No Brasil. Rev Bras Atividade Física Saúde 2012; 6(2):5-18..

Data collection procedures

The Research Ethics Committee of the University Center of Maringá (UNICESUMAR) approved this epidemiological cross-sectional, population-based study. Data were collected in 12 UBS over the four regions (North, South, East and West) from the 33 UBS of the municipality of Maringá that were selected by draw following authorization from CECAPS. The elderly volunteers were addressed by the researcher in charge or by the research team at the UBS, were informed about the justification, objectives and procedures to be carried out, according to human research guidelines set forth in Resolution Nº 466/12 of the National Health Council. Elderly in the UBS waiting room were approached. After these procedures, those who accepted to participate in the research signed the Informed Consent Form (ICF). Direct interview in the application of the questionnaires was chosen, due to the possible difficulty of reading, visual impairments and comprehension of questions. On average, questionnaires were answered within 15 minutes.

Data review

Data review used frequency and percentage for categorical variables. Regarding numerical variables, data normality was initially verified by means of the Kolmogorov-Smirnov test. As data did not show normal distribution, Median (Md) and Quartiles (Q1; Q3) were used to characterize results. In inferential statistics, the chi-square test was used to investigate the association between the level of physical activity, sociodemographic and health variables and prevalence of comorbidities of the elderly. In the comparison of the level of physical activity by number of associated comorbidities, the Kruskal-Wallis test followed by the Mann-Whitney “U” test were used for pairs of groups. A level of significance of p<0.05 was considered.

Results

There was a prevalence of female elderly (56.0%), married (61.3%), aged 60-69 years (59.2%), with a monthly income of 1-2 minimum wages (70.0%), Caucasian (81.0%) and retired (75.0%). We also observed that most elderly have incomplete elementary school education (43.0%). In relation to the health profile of primary care elderly users in the city of Maringá, we found that most have good self-perceived health (48.5%), take 1-2 medications regularly (43.9%), had no history of falls (83.7%) or almost falls in the last 6 months (79.7%) and an active/very active level of activity (60.7%).

According to findings in Table 1, the elderly do not perform vigorous physical activities and few moderate activities during the week. However, in relation to walking, the elderly showed median walking days of 3.0, as a median of 40 and 140 walking minutes per day and per week, respectively.

Table 1
Physical activity level and mental state of the elderly users of primary care in the city of Maringá (PR), Brazil.

In relation to the mental state (Table 1), the elderly showed a high score in temporal orientation (Md = 5.0), spatial orientation (Md = 5.0), immediate memory (Md = 3.0), recall (Md = 3.0) and language (Md = 8.0), with a moderate score for attention and calculation (Md = 2.0). The elderly had a median score of 25.0 in the overall cognitive state.

When comparing the mental state according to the level of physical activity of primary care elderly users in the city of Maringá (Table 2), there was a significant difference between the groups in mental state in attention and calculation (p = 0.036), mental state in recall (p = 0.001) and in the overall cognitive state (p = 0.002). This finding seems to indicate that the very active/active elderly achieved a higher score in these cognitive realms compared to those with lower level of physical activity.

Table 2
Comparison of the mental state according to the level of physical activity of elderly users of primary care in the city of Maringá (PR), Brazil.

The following significant correlations (p < 0.05) were observed when analyzing the correlation between the variables of physical activity and mental state (Table 3): temporal orientation with walking days (r = 0.13); spatial orientation with days of vigorous activity (r = -0.17), minutes of vigorous activity per day (r = -0.16) and minutes of vigorous activity per week (r = -0.16); attention and calculation with walking days (r = 0.12), minutes of walking per day (r = 0.16) and minutes of walking per week (r = 0.16); recall with walking days (r = 0.20), minutes of walking per day (r = 0.26), minutes of walking per week (r = 0.25), days of vigorous activity (r = 0.16), minutes of vigorous activity per day (r = 0.16) and minutes of vigorous activity per week (r = 0.14); language with walking days (r = 0.11); overall cognitive status with walking days (r = 0.20), walking minutes per day (r = 0.16) and walking minutes per week (r = 0.19).

Table 3
Correlation between the level of physical activity and the mental state of the elderly.

Discussion

The main results of this study show that older people with higher levels of physical activity have better scores of overall cognitive status when compared with subjects who evidenced low level of physical activity and/or sedentary lifestyle.

Some variables may negatively influence cognitive functions in aging. Among these, the schooling level of the elderly in this study may have affected the results shown here, since 43% of the subjects did not have complete elementary school level education.

Despite this, good levels of physical activity and regular exercise can be a great tool to combat such cognitive dysfunctions in this population. Literature shows that adequate amounts of physical activity and physical exercises can enhance cerebral morphological aspects, such as increased brain mass in various regions of the brain, among which we highlight the hippocampus (a region responsible for learning and memory functions). In addition, improvements can be observed in biochemical mediators that can trigger changes in the brain and its cognitive functions1818 Hillman CH, Erickson KI, Kramer AF. Be smart, exercise your heart: exercise effects on brain and cognition. Nat Rev Neurosci 2008; 9(1):58-65.,1919 Erickson KI, Weinstein AM, Lopez OL. Physical activity, brain plasticity, and Alzheimer's disease. Arch Med Res 2012; 43(8):615-621.,2323 Lai KSP, Liu CS, Rau A, Lanctôt KL, Köhler CA, Pakosh M, Carvalho AF, Herrmann N. Peripheral inflammatory markers in Alzheimer's disease: a systematic review and meta-analysis of 175 studies. J Neurol Neurosurg Psychiatry. 2017; 88(10):876-882.,2424 Dinoff A, Herrmann N, Swardfager W, Liu CS, Sherman C, Chan S, Lanctôt KL. The Effect of Exercise Training on Resting Concentrations of Peripheral Brain-Derived Neurotrophic Factor (BDNF): A Meta-Analysis. PLoS One 2016; 11(9):e0163037., and the increase of some of these mediators, such as neurotrophins, can help in the maintenance, growth of neurons, thus improving the subject’s neural plasticity.

An important factor for healthy aging is always maintaining good levels of physical activity, both for physical and mental health1919 Erickson KI, Weinstein AM, Lopez OL. Physical activity, brain plasticity, and Alzheimer's disease. Arch Med Res 2012; 43(8):615-621.,2525 Knaepen K, Goekint M, Heyman EM, Meeusen R. Neuroplasticity - exercise-induced response of peripheral brain-derived neurotrophic factor: a systematic review of experimental studies in human subjects. Sport Med 2010; 40(9):765-801.. The World Health Organization1616 World Health Organization. Preventing Chronic Diseases: a Vital Investment. World Health 2005; 202. states that regular exercise has the power to prevent, minimize and/or reverse many of the problems that often accompany the aging process.

Physical exercise can influence cognitive performance and its neurological functions for several reasons: a) due to increased neurotransmitter levels and changes in brain structures (this would be evidenced in the comparison of physically active vs. sedentary individuals); b) cognitive improvement observed in individuals with mental impairment (based on comparison with healthy individuals); c) in the limited improvement obtained by elderly individuals, due to a lower mental/attentional flexibility when compared to a young group1818 Hillman CH, Erickson KI, Kramer AF. Be smart, exercise your heart: exercise effects on brain and cognition. Nat Rev Neurosci 2008; 9(1):58-65.,2525 Knaepen K, Goekint M, Heyman EM, Meeusen R. Neuroplasticity - exercise-induced response of peripheral brain-derived neurotrophic factor: a systematic review of experimental studies in human subjects. Sport Med 2010; 40(9):765-801..

Based on this assumption, we must also emphasize that the action of physical exercise on cognitive function can be direct or indirect. Mechanisms that directly act to increase the speed of cognitive processing would be an improvement in the cerebral circulation and change in the synthesis and degradation of neurotransmitters. In addition to direct mechanisms, others, such as a decrease in blood pressure, declining LDL and triglyceride levels in the blood plasma, and inhibition of platelet aggregation appear to act indirectly, improving these functions and the overall functional capacity, thus reflecting increased quality of life2626 Antunes HKM, Santos RF, Cassilhas R, Santos RVT, Bueno OFA, Mello T. Exercício físico e função cognitiva: uma revisão. Rev Bras Med do Esporte 2006; 12(2):108-114..

Epidemiological data suggest that moderately active people are less likely to be affected by mental disorders than sedentary ones, showing that participation in physical exercise programs has physical and psychological benefits, and that physically active individuals are likely to have faster cognitive processing44 Prince M, Bryce R, Albanese E, Wimo A, Ribeiro W, Ferri CP. The global prevalence of dementia: A systematic review and metaanalysis. Alzheimer's Dement 2013; 9(1):63-75.,1919 Erickson KI, Weinstein AM, Lopez OL. Physical activity, brain plasticity, and Alzheimer's disease. Arch Med Res 2012; 43(8):615-621..

It is noteworthy that other changes occur concomitantly to these neurophysiological and cognitive changes during the aging process. Among these, we can highlight those in bodily composition, which, in turn, may be closely related to worse cognitive functions2727 Arnoldussen IAC, Kiliaan AJ, Gustafson DR. Obesity and dementia: Adipokines interact with the brain. Eur Neuropsychopharmacol 2014 ;24(12):1982-1999.,2828 Huang C, Mari DC, Whitehurst M, Slusher A, Wilson A, Shibata Y. Physiology & Behavior Brain-derived neurotrophic factor expression ex vivo in obesity. Physiol Behav 2014; 123:76-79.. This association, especially increased body fat and cognitive decline, is related to changes in inflammatory mediators caused by fat accumulation2929 Singh-Manoux A, Dugravot A, Shipley M, Brunner EJ, Elbaz A, Sabia S, Kivimaki M. Obesity trajectories and risk of dementia: 28 years of follow-up in the Whitehall II Study. Alzheimers Dement 2017; 14(2):178-186.. This increased systemic inflammation can reach central levels, causing such molecules to cross the hematopoietic barrier, which in turn, will cause inflammation in the cerebral tissue, thus ensuing tissue damage and death of neurons and, ultimately, worse cognitive functions3030 Miller AA, Spencer SJ. Obesity and neuroinflammation: a pathway to cognitive impairment. Brain Behav Immun 2014; 42:10-21..

In other words, while physical exercises and physical activity already have a positive impact on cognitive functions, adequate body weight is an ally against these aging dysfunctions.

Given the relevance of findings on the subject and due to the impact of exercise on cognition and consequently on the quality of life of the elderly, further studies are required in this field. Specifically in Brazil, where this relationship is still poorly explored, works on the subject may be relevant to the knowledge of habits related to the activities and their consequences for our population.

Conclusion

The results of this study may help professionals to prescribe physical activities and exercises, since they provide relevant information, showing that physically active elderly are more likely to sustain their cognitive functions during the aging process.

Thus, we conclude that adequate levels of physical activity (~ 150 min/week) may be related to better scores of cognitive functions of elderly subjects.

References

  • 1
    Zamboni M, Rossi AP, Fantin F, Zamboni G, Chirumbolo S, Zoico E, Mazzali G. Adipose tissue, diet and aging. Mech Ageing Dev 2014; 136-137:129-137.
  • 2
    Manini TM, Clark BC. Dynapenia and aging: an update. J Gerontol A Biol Sci Med Sci 2012; 67(1):28-40.
  • 3
    Janssen I, Heymsfield SB, Ross R. Low relative skeletal muscle mass (sarcopenia) in older persons is associated with functional impairment and physical disability. J Am Geriatr Soc 2002; 50(5):889-896.
  • 4
    Prince M, Bryce R, Albanese E, Wimo A, Ribeiro W, Ferri CP. The global prevalence of dementia: A systematic review and metaanalysis. Alzheimer's Dement 2013; 9(1):63-75.
  • 5
    Cruz-Jentoft AJ, Baeyens JP, Bauer JM, Boirie Y, Cederholm T, Landi F, Martin FC, Michel JP, Rolland Y, Schneider SM, Topinková E, Vandewoude M, Zamboni M; European Working Group on Sarcopenia in Older People. Sarcopenia: European consensus on definition and diagnosis: Report of the European Working Group on Sarcopenia in Older People. Age Ageing 2010; 39(4):412-423.
  • 6
    Manini T. Development of physical disability in older adults. Curr Aging Sci 2013; 4(3):184-191.
  • 7
    Raichlen DA, Alexander GE. Adaptive Capacity: An Evolutionary Neuroscience Model Linking Exercise, Cognition, and Brain Health. Trends Neurosci 2017:1-14.
  • 8
    Petersen RC. Mild cognitive impairment as a clinical entity and treatment target. Arch Neurol 2004; 62(7):1160-1163; [discussion, n. 1167].
  • 9
    Winblad B, Palmer K, Kivipelto M, Jelic V, Fratiglioni L. Mild cognitive impairment - beyond controversies, towards a consensus?: report of the International Working Group on Mild Cognitive Impairment. J Intern Med 2004; (Sept. 2003):240-246.
  • 10
    Gligoroska J, Manchevska S. The Effect of Physical Activity on Cognition - Physiological Mechanisms. Mater Socio Medica 2012; 24(3):198.
  • 11
    Ribeiro AS, Avelar A, Schoenfeld BJ, Ritti Dias RM, Altimari LR, Cyrino ES. Resistance training promotes increase in intracellular hydration in men and women. Eur J Sport Sci 2014; 14(6):578-585.
  • 12
    Nagamatsu LS, Handy TC, Hsu CL, Voss M, Liu-Ambrose T. Resistance training promotes cognitive and functional brain plasticity in seniors with probable mild cognitive impairment. Arch Intern Med 2012; 172(8):666-668.
  • 13
    Nascimento CMC, Pereira JR, Pires de Andrade L, Garuffi M, Ayan C, Kerr DS, Talib LL, Cominetti MR, Stella F. Physical exercise improves peripheral BDNF levels and cognitive functions in mild cognitive impairment elderly with different bdnf Val66Met genotypes. J Alzheimers Dis 2015; 43(1):81-91.
  • 14
    Coelho FM, Pereira DS, Lustosa LP, Silva JP, Dias JM, Dias RC, Queiroz BZ, Teixeira AL, Teixeira MM, Pereira LS. Physical therapy intervention (PTI) increases plasma brain-derived neurotrophic factor (BDNF) levels in non-frail and pre-frail elderly women. Arch Gerontol Geriatr 2012; 54(3):415-420.
  • 15
    Lee I-M, Shiroma EJ, Lobelo F, Puska P, Blair SN, Katzmarzyk PT. Impact of Physical Inactivity on the World's Major Non-Communicable Diseases. Lancet 2012; 380(9838):219-229.
  • 16
    World Health Organization. Preventing Chronic Diseases: a Vital Investment. World Health 2005; 202.
  • 17
    Bamidis PD, Fissler P, Papageorgiou SG, Zilidou V, Konstantinidis EI, Billis AS, Romanopoulou E, Karagianni M, Beratis I, Tsapanou A, Tsilikopoulou G, Grigoriadou E, Ladas A, Kyrillidou A, Tsolaki A, Frantzidis C, Sidiropoulos E, Siountas A, Matsi S, Papatriantafyllou J, Margioti E, Nika A, Schlee W, Elbert T, Tsolaki M, Vivas AB, Kolassa IT. Gains in cognition through combined cognitive and physical training: The role of training dosage and severity of neurocognitive disorder. Front Aging Neurosci 2015; 7(JUL):1-15.
  • 18
    Hillman CH, Erickson KI, Kramer AF. Be smart, exercise your heart: exercise effects on brain and cognition. Nat Rev Neurosci 2008; 9(1):58-65.
  • 19
    Erickson KI, Weinstein AM, Lopez OL. Physical activity, brain plasticity, and Alzheimer's disease. Arch Med Res 2012; 43(8):615-621.
  • 20
    Folstein MF, Folstein SE, McHugh PR. "Mini-mental state" A practical method for grading the cognitive state of patients for the clinician. J Psychiatr 1975; 12(3):189-198.
  • 21
    Brucki SMD, Nitrini R, Caramelli P, Bertolucci PHF, Okamoto IH. Sugestões para o uso do mini-exame do estado mental no Brasil. Arq Neuropsiquiatr 2003; 61(3B):777-781.
  • 22
    Matsudo S, Araújo T, Matsudo V, Andrade D, Andrade E, Oliveira LC, Braggion G. Questionário Internacional De Atividade Física (Ipaq): Estudo De Validade E Reprodutibilidade No Brasil. Rev Bras Atividade Física Saúde 2012; 6(2):5-18.
  • 23
    Lai KSP, Liu CS, Rau A, Lanctôt KL, Köhler CA, Pakosh M, Carvalho AF, Herrmann N. Peripheral inflammatory markers in Alzheimer's disease: a systematic review and meta-analysis of 175 studies. J Neurol Neurosurg Psychiatry 2017; 88(10):876-882.
  • 24
    Dinoff A, Herrmann N, Swardfager W, Liu CS, Sherman C, Chan S, Lanctôt KL. The Effect of Exercise Training on Resting Concentrations of Peripheral Brain-Derived Neurotrophic Factor (BDNF): A Meta-Analysis. PLoS One 2016; 11(9):e0163037.
  • 25
    Knaepen K, Goekint M, Heyman EM, Meeusen R. Neuroplasticity - exercise-induced response of peripheral brain-derived neurotrophic factor: a systematic review of experimental studies in human subjects. Sport Med 2010; 40(9):765-801.
  • 26
    Antunes HKM, Santos RF, Cassilhas R, Santos RVT, Bueno OFA, Mello T. Exercício físico e função cognitiva: uma revisão. Rev Bras Med do Esporte 2006; 12(2):108-114.
  • 27
    Arnoldussen IAC, Kiliaan AJ, Gustafson DR. Obesity and dementia: Adipokines interact with the brain. Eur Neuropsychopharmacol 2014 ;24(12):1982-1999.
  • 28
    Huang C, Mari DC, Whitehurst M, Slusher A, Wilson A, Shibata Y. Physiology & Behavior Brain-derived neurotrophic factor expression ex vivo in obesity. Physiol Behav 2014; 123:76-79.
  • 29
    Singh-Manoux A, Dugravot A, Shipley M, Brunner EJ, Elbaz A, Sabia S, Kivimaki M. Obesity trajectories and risk of dementia: 28 years of follow-up in the Whitehall II Study. Alzheimers Dement 2017; 14(2):178-186.
  • 30
    Miller AA, Spencer SJ. Obesity and neuroinflammation: a pathway to cognitive impairment. Brain Behav Immun 2014; 42:10-21.

Publication Dates

  • Publication in this collection
    28 Oct 2019
  • Date of issue
    Nov 2019

History

  • Received
    28 Sept 2017
  • Accepted
    17 Apr 2018
  • Published
    19 Apr 2018
ABRASCO - Associação Brasileira de Saúde Coletiva Rio de Janeiro - RJ - Brazil
E-mail: revscol@fiocruz.br