Impact of a dual task intervention on physical performance of older adults who practice physical exercise

Medeiros, Larissa Borges; Ansai, Juliana Hotta; Buto, Marcele Stephanie de Souza; Barroso, Verena de Vassimon; Farche, Ana Claudia Silva; Rossi, Paulo Giusti; Andrade, Larissa Pires de; Takahashi, Anielle Cristhine de Medeiros

doi:10.5007/1980-0037.2018v20n1p10

Abstract

Physical exercises, especially multicomponent training, can improve cognitive functions and physical impairments in older adults. The aim this study was to purpose of this two-arm clinical trial was to investigate the effects of the addition of a dual task to multicomponent training on physical performances of community-dwelling older adults who practice physical exercise. Seventy-one older adults were divided into a Control Group (CG) and Intervention Group (IG). Participants of the CG performed isolated multicomponent training, participants of the IG performed multicomponent training associated with cognitive tasks and both protocols lasted 12 weeks. The assessment consisted of flexibility, handgrip strength, lower limb strength, balance, functional mobility and aerobic capacity. The CG presented greater flexibility than the IG, regardless of time. There was a worse performance in lower limb strength, regardless of group. The addition of a dual task to the multicomponent training was not able to improve physical performances of older adults. Further studies are needed to confirm whether the dual task training contributes to both cognitive and physical benefits in older adults who practice physical exercise.

Key words
Aged; Clinical trial; Exercise

Resumo

Exercícios físicos, especialmente o treinamento multicomponente, podem melhorar funções cognitivas e distúrbios motores em idosos. Objetivou-se investigar os efeitos da adição da dupla tarefa sobre o treinamento multicomponente nas performances motoras de idosos da comunidade praticantes de exercício físico. Setenta e um idosos foram divididos em Grupo Controle (GC) e Grupo Intervenção (GI). Participantes do GC realizaram treinamento multicomponente isolado e participantes do GI realizaram treinamento multicomponente associado a tarefas cognitivas, ambos protocolos com duração de 12 semanas. A avaliação consistiu de flexibilidade, força de preensão palmar, força de membros inferiores, equilíbrio, mobilidade funcional e capacidade aeróbica. O GC apresentou maior flexibilidade do que o GI, independente do tempo. Houve uma piora na performance de força de membros inferiores, independente do grupo. A adição da dupla tarefa sobre o treinamento multicomponente não foi capaz de melhorar performances físicas de idosos. Estudos futuros são necessários para confirmar se o treinamento de dupla tarefa traz benefícios cognitivos e também físicos em idosos praticantes de exercício físico.

Palavras-chave
Ensaio clínico; Exercício; Idoso

INTRODUCTION

Physical impairments among older people can be minimized through regular and systematic practice of physical exercise, especially multicomponent training (a combination of strength, endurance, flexibility, motor coordination, and balance exercises)¹1 Krall JR, Carlson MC, Fried LP, Xue QL. Examining the dynamic, bidirectional associations between cognitive and physical functioning in older adults. Am J Epidemiol 2014;180(8):838-846.^-²2 American College of Sports Medicine, Chodzko-Zajko WJ, Proctor DN, Singh MA, Minson CT, Nigg CR, et al. American College of Sports Medicine position stand. Exercise and physical activity for older adults. Med Sci Sports Exerc 2009;41(7):1510-1530.. Furthermore, physical exercises can improve cognitive functions³3 Nishiguchi S, Yamada M, Tanigawa T, Sekiyama K, Kawagoe T, Suzuki M, et al. A 12-week physical and cognitive exercise program can improve cognitive functionand neural efficiency in community-dwelling older adults: a randomized controlledtrial. J Am Geriatr Soc 2015;63(7):1355-1363. and delay the onset of dementia⁴4 Ahlskog JE, Geda YE, Graff-Radford NR, Petersen RC. Physical Exercise as a preventive or disease-modifying treatment of dementia and brain aging. Mayo Clin Proc 2011;86(9):876-884..

Dual task (physical exercise combined with another task) protocols can be effective in improving cognitive function in older adults with and without cognitive impairment⁵5 Law LLF, Barnett F, Yau MK, Gray MA. Effects of combined cognitive and exercise interventions on cognition in older adults with and without cognitiveimpairment: a systematic review. Ageing Res Rev 2014;15:61-75.. Although some studies have contributed to understanding the effects of dual task training in older adults, previous works included older people with cognitive impairment⁶6 de Andrade LP, Gobbi LTB, Coelho FGM, Christofoletti G, Riani Costa JL, Stella F. Benefits of multimodal exercise intervention for postural control andfrontal cognitive functions in individuals with Alzheimer’s disease: a controlled trial. J Am Geriatr Soc 2013;61(11):1919-1926., Parkinson’s disease⁷7 Fok P, Farrell M, McMeeken J. The effect of dividing attention between walking and auxiliary tasks in people with Parkinson’s disease. Hum Mov Sci 2012;31(1):236-246., or a sedentary lifestyle⁸8 Yokoyama H, Okazaki K, Imai D, Yamashina Y, Takeda R, Naghavi N, et al. The effect of cognitive-motor dual-task training on cognitive function and plasma amyloid β peptide 42/40 ratio in healthy elderly persons: a randomized controlled trial. BMC Geriatr 2015;15:60.. In healthy older adults who practice physical exercise, it was observed an improvement in gait performance after the dual task training⁹9 Falbo S, Condello G, Capranica L, Forte R, Pesce C. Effects of physical-cognitive dual task training on executive function and gait performance in older adults: a randomized controlled trial. Biomed Res Int 2016;2016:5812092..

Older adults perform daily activities that interplays cognitive and motor functions. Thus, the combination of motor and cognitive stimulus seems to be important to maintain an independent life¹⁰10 Reve EV, de Bruin ED. Strength-balance supplemented with computerized cognitive training to improve dual task gait and divided attention in older adults: a multicenter randomized-controlled trial. BMC Geriatr 2014;14:134., even in health older people. Besides, most studies involving dual task training restricted the outcomes to cognitive performance and not to physical performance⁵5 Law LLF, Barnett F, Yau MK, Gray MA. Effects of combined cognitive and exercise interventions on cognition in older adults with and without cognitiveimpairment: a systematic review. Ageing Res Rev 2014;15:61-75., which can be used as primary indicators of benefits in future clinical trials¹¹11 Kwon S, Perera S, Pahor M, Katula JA, King AC, Groessl EJ, et al. What is a meaningful change in physical performance? Findings from a clinical trial in olderadults (the LIFE-P study). J Nutr Health Aging 2009;13(6):538-544..

Community-dwelling older adults who practice physical exercise present a high level of physical performance¹²12 Mazo G, Liposcki D, Ananda C, Prevê D. Health conditions, incidence of falls andphysical activity levels among the elderly. Rev Bras Fisioter 2007;11(6):437-442., however it remains unknown the effects of dual task training on this domain, mainly on other physical parameters besides gait. Thus, the aim of this study was to investigate the effects of the addition of a dual task to a multicomponent training protocol on physical performances (flexibility, muscular strength, balance, functional mobility, and aerobic capacity) among community-dwelling older adults who practice physical exercise. The hypothesis of the present study was that the dual task training would present a greater benefit in physical performance variables compared to the multicomponent training.

METHODOLOGICAL PROCEDURES

Sample

The two-arm clinical trial was registered (Clinical Trials Registration ID: NCT02235922) and approved by the Ethics Committee of the Federal University of São Carlos (ID: 436.821/2013). All volunteers signed the written consent form.

Inclusion criteria were community-dwelling adults aged 60 years and over, who had practiced at least one year of regular supervised physical exercise (Revitalization Program) and had the ability to walk alone without an aid. The Revitalization Program aims to improve quality of life in older adults through a multicomponent training protocol based on recommendations of the ACSM (2009)²2 American College of Sports Medicine, Chodzko-Zajko WJ, Proctor DN, Singh MA, Minson CT, Nigg CR, et al. American College of Sports Medicine position stand. Exercise and physical activity for older adults. Med Sci Sports Exerc 2009;41(7):1510-1530.. Exclusion criteria were the presence of Parkinson’s disease, dementia or cerebrovascular accident, assessed by a self-reported questionnaire, and an attendance rate below 70% in the Revitalization Geriatric Program, according to its rules. Assuming the type of study design, a type I error of 5%, statistical power of 80%, and effect size of 0.35, a minimum of 66 participants were required to constitute the total sample.

According to the organization of the Revitalization Geriatric Program, individuals were initially divided into 6 classes. The randomization of the groups was done using a raffle with closed papers numbered sequentially, which allocated three classes to the intervention group (IG) and three other classes to the control group (CG).

Recruitment was conducted between 2013 and 2014. Initially, there were 78 eligible older adults. Of these, seven people were excluded because of an attendance rate in the activities below 70%.

Assessment

The assessments were performed by six trained physiotherapists. The baseline assessment included an anamnesis composed of anthropometric data, the Modified Baecke Questionnaire for the elderly (MBQE)¹³13 Voorrips LE, Ravelli AC, Dongelmans PC, Deurenberg P, Van Staveren WA. A physical activity questionnaire for the elderly. Med Sci Sports Exerc 1991;23(8):974-979., and history of falls in the previous four months¹⁴14 Chiu AY, Au-Yeung SS, Lo SK. A comparison of four functional tests in discriminating fallers from non-fallers in older people. Disabil Rehabil 2003;25(1):45-50.Tinetti Mobility Score (TMS).

All functional performance tools were chosen because they are commonly used screening tools and easy to apply, and they use accessible and low cost materials. Furthermore, the Revitalization Geriatric Program have applied them since 2007 and the Program’s participants have not had difficult to comprehend and perform these tools. The Wells bench was used to assess trunk flexibility. The test was performed three times and the maximum value (in centimetres) was analysed¹⁵15 Wells KF, Dillon EK. The sit and reach-a test of back and leg flexibility. Res Quarterly Am Assoc Heal Phys Educ Recreat 1952;23(1):115-118.. Handgrip strength was measured by the JAMAR adjustable hand dynamometer (Sammons Preston, Warrenville, United States). Three measures of the dominant member were collected and the maximum value was analysed. The cut-off score was adjusted for sex and body mass index (BMI)¹⁶16 Vasconcelos KS, Dias JM, Bastone AC, Vieira RA, Andrade AC, Perracini MR, et al. Handgrip strength cutoff points to identify mobility limitation incommunity-dwelling older people and associated factors. J Nutr Health Aging 2016;20(3):306-315.. Lower limb strength was assessed by 30-second chair stand test (30-s CST) and 5 times sitto-stand test (5XSST). A pre-test and one trial were performed. The 30-s CST score is based on the number of stands within 30 seconds and the cut-off score depends on sex and age¹⁷17 Rikli R, Jones C. Functional fitness normative scores for community residing olderadults, ages 60–94. J Aging Phys Act 1999;7(2):162-81.. The 5XSST score is based on the time taken and a time of 11.19 seconds is considered a good performance¹⁸18 Freire AN, Guerra RO, Alvarado B, Guralnik JM, Zunzunegui MV. Validity and reliability of the Short Physical Performance Battery in two diverse older adult populations in Quebec and Brazil. J Aging Health 2012;24(5):863-78..

Functional mobility was measured by the Timed Up and Go test (TUG) at habitual speed. A cut-off score of 12.47 seconds is predictive of a risk of falls in Brazilian older adults¹⁹19 Alexandre TS, Meira DM, Rico NC, Mizuta SK. Accuracy of Timed Up and Go Test for screening risk of falls among community-dwelling elderly. Rev Bras Fisioter 2012;16(5):381-388.. The one-leg stance test was used to assess balance. The older adult had three chances for each member and tried to remain in this position for 30 seconds. A time less than 5 seconds is indicative of a risk of falls and for this test the highest time for each member was analysed²⁰20 Vellas BJ, Wayne SJ, Romero L, Baumgartner RN, Rubenstein LZ, Garry PJ. One-leg balance is an important predictor of injurious falls in older persons. J Am Geriatr Soc 1997;45(6):735-738.. The 6-minute walk test (6MWT) along a 30-meter corridor was performed to assess aerobic capacity. The cut-off score (meters) depends on age and sex¹⁷17 Rikli R, Jones C. Functional fitness normative scores for community residing olderadults, ages 60–94. J Aging Phys Act 1999;7(2):162-81..

Intervention

Participants of the CG performed isolated multicomponent training and participants of the IG performed multicomponent training associated with cognitive tasks. Both protocols lasted 12 weeks and included three 50-minute sessions per week, on non-consecutive days. The protocols were supervised by physiotherapists and physical education professionals.

Both multicomponent training protocols followed recommendations of the ACSM for older adults²2 American College of Sports Medicine, Chodzko-Zajko WJ, Proctor DN, Singh MA, Minson CT, Nigg CR, et al. American College of Sports Medicine position stand. Exercise and physical activity for older adults. Med Sci Sports Exerc 2009;41(7):1510-1530.. The multicomponent training protocol included aerobic, flexibility, muscular strength, and balance exercises, with progressive intensity (assessed by the Borg scale and a heart rate monitor). The sessions were distributed as follows: 10 minutes of warm-up (walking, with increased velocity); 30 minutes of muscle strength, balance and coordination exercises (muscle strength of lower and upper limbs using halters, weights or elastic band, sit to stand from the chair, step up and down, lunges, circuits of static and dynamic balance, walk in tandem or in circles); and 10 minutes of flexibility (global stretching exercises). Both groups received the same physical stimulus during the sessions.

The participants performed motor tasks associated with cognitive tasks, with progressive complexity⁶6 de Andrade LP, Gobbi LTB, Coelho FGM, Christofoletti G, Riani Costa JL, Stella F. Benefits of multimodal exercise intervention for postural control andfrontal cognitive functions in individuals with Alzheimer’s disease: a controlled trial. J Am Geriatr Soc 2013;61(11):1919-1926.. The protocol was divided into four stages. In the first stage (between the first and third weeks), the participants were stimulated to perform less complex cognitive tasks, such as counting down in ones (e.g., 20, 19, 18...), twos (e.g., 20, 18, 16...), fives (e.g., 20, 15, 10...) and so on. In the second stage (between the fourth and sixth weeks), cognitive tasks involved evoking names of cities, flowers, fruits, and animals. The complexity was increased when the words started with a specific letter of the alphabet. The third stage (seventh to ninth weeks) consisted of mathematical operations, such as addition, subtraction, and multiplication. The final stage was performed using cards with different colours and actions described (e.g., blue card associated with jumping). The volunteers were asked to read the action described on the card, then say the action based only on the colour, read and perform the action described on the card and finally perform the action based only on observation of the colour. Further explanations can be found in Ansai et al.²¹21 Ansai JH, de Andrade LP, Buto MS, Barroso VV, Farche AC, Rossi PG, et al. Effects of the Addition of a Dual Task to a Supervised Physical Exercise Program on Older Adults’ Cognitive Performance. J Aging Phys Act 2017;25(2):234-239..

Data analysis

Statistical analyses were performed using SPSS software (version 20.0) (Chicago, Illinois, USA), with a significance level of 5%. The normality of all data was tested by the Kolmogorov-Smirnov test and all of them presented a normal distribution. The Independent Student t test for quantitative variables and the Chi-square test for categorical variables were applied to compare clinical and demographic data between groups. Multivariate analysis of variance (MANOVA) was used to verify interaction between groups and times, with flexibility, handgrip strength, lower limb strength, balance, mobility, and aerobic capacity as dependent variables. In addition, descriptive analysis was carried out to verify changes according to the following cutoff scores: handgrip strength¹⁶16 Vasconcelos KS, Dias JM, Bastone AC, Vieira RA, Andrade AC, Perracini MR, et al. Handgrip strength cutoff points to identify mobility limitation incommunity-dwelling older people and associated factors. J Nutr Health Aging 2016;20(3):306-315., 5XSST¹⁸18 Freire AN, Guerra RO, Alvarado B, Guralnik JM, Zunzunegui MV. Validity and reliability of the Short Physical Performance Battery in two diverse older adult populations in Quebec and Brazil. J Aging Health 2012;24(5):863-78., 30-s CST¹⁷17 Rikli R, Jones C. Functional fitness normative scores for community residing olderadults, ages 60–94. J Aging Phys Act 1999;7(2):162-81., one-leg stance²⁰20 Vellas BJ, Wayne SJ, Romero L, Baumgartner RN, Rubenstein LZ, Garry PJ. One-leg balance is an important predictor of injurious falls in older persons. J Am Geriatr Soc 1997;45(6):735-738., TUG test¹⁹19 Alexandre TS, Meira DM, Rico NC, Mizuta SK. Accuracy of Timed Up and Go Test for screening risk of falls among community-dwelling elderly. Rev Bras Fisioter 2012;16(5):381-388., and 6MWT¹⁷17 Rikli R, Jones C. Functional fitness normative scores for community residing olderadults, ages 60–94. J Aging Phys Act 1999;7(2):162-81..

RESULTS

The IG and CG were composed of 35 and 36 older adults, respectively. There were no significant differences between groups relating to clinical or sociodemographic characteristics. The sample had a predominance of females (77.5%) and non-fallers (94.4%), mean age of 68 years, mean BMI of 27.9 kg/m², and mean MBQE score of 6.2 points (Table 1). The frequency rate in the sessions was approximately 87.3% for the IG and 85.8% for the CG. No adverse events were reported.

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Table 1
Clinical and sociodemographic data.

As shown in Table 2, the MANOVA test demonstrated no significant interactions between groups and times regarding flexibility, handgrip strength, lower limb strength, balance or aerobic capacity variables. There was a significant main effect of group in flexibility (p=0.002). Regardless of time, the CG demonstrated greater flexibility compared to the IG. A significant main effect of time was found in 5XSST (p=0.000) and 30-s CST (p=.007) performances. Regardless of group, higher time was spent on the 5XSST (pre-post performance = -1.7 seconds) and a lower number of times was achieved during the 30-s CST (pre-post performance = 0.56 times). Other variables showed no significant main effects of group or time (Table 2).

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Table 2
Physical performances between groups and assessments.

There was a significant interaction between groups and times only for the time spent in the TUG test (F=7.500; p=0.008). The IG presented worse performance after 12 weeks, i.e., a difference of 0.71 seconds between times (p=0.000). No significant difference was found between times in the CG (p=0.473) or between groups for any time (Table 2).

Table 3 illustrates physical performances according to the established cutoff scores between times in each group. No relevant differences in handgrip strength or aerobic capacity performances were found between times in any group. However, there was a decrease in the number of volunteers who performed the 5XSST above the cutoff score in both groups. A worse performance in the 30-s CST was observed only in the CG. Both groups presented TUG and one-leg stance performances above the cutoff scores at baseline, and the good performances remained the same in the second time.

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Table 3
Participants who performed physical capabilities as expected, according to the stablished cutoff scores.

DISCUSSION

The study aimed to assess the effects of the addition of a dual task to multicomponent training in physical performances of older adults who practice physical exercise. The CG presented greater flexibility than the IG, regardless of time. Furthermore, after 12-week intervention, there was a worsening in the 5XSST and in the 30-s CST, regardless of group. Only the IG presented an impairment in TUG performance between times. However, when analysing the results based on cut-off scores, both groups maintained physical performances.

The mean BMI of the sample was 27.9 kg/m², considered as pre-obesity by the World Health Organization (2000)²²22 World Health Organization. Obesity: Preventing and Managing the GlobalEpidemic: Report of a WHO Consultation. Geneva; 2000.. Based on the cut-off score of 3.19 points for the MBQE²³23 Silva VM, Gonçalves CT, Silva JJ, Gobbi LTB. Mobilidade de idosos em ambiente doméstico: efeitos de um programa de treinamento específico. Rev Bras Ativ Fis Saúde 2003;8(1):5-19., the sample was composed of non-sedentary older adults. Among Brazilian older adults, about 30% are fallers²⁴24 Perracini MR, Ramos LR. Fall-related factors in a cohort of elderly community residents. Rev Saude Publica 2002;36(6):709-716.. In contrast, in the present study, only 5.6% of the participants were fallers, probably due to the protective factor of practicing physical exercise. According to a meta-analysis study, both physical exercises interventions applied alone and combinations of interventions were associated with a low risk for falls²⁵25 Tricco AC, Thomas SM, Veroniki AA, Hamid JS, Cogo E, Strifler L, et al. Comparisons of Interventions for preventing falls in older adults: a systematic review and meta-analysis. JAMA 2017;318(17):1687-1699..

The CG presented a greater flexibility score than the IG regardless of time. A study evaluated the effects of multicomponent training (3 times per week) for 9 weeks in healthy and independent older adults²⁶26 Toraman NF, Erman A, Agyar E. Effects of multicomponent training on functionalfitness in older adults. J Aging Phys Act 2004;12(4):538-553.. Their findings are similar to the present study, since the authors did not identify significant effects on flexibility, measured by the Wells bench. Although this instrument is commonly used in clinical practice, there was a high degree of dispersion between values found in both groups. Thus, other methods could be included to promote an accurate flexibility assessment. Furthermore, Toraman et al.²⁶26 Toraman NF, Erman A, Agyar E. Effects of multicomponent training on functionalfitness in older adults. J Aging Phys Act 2004;12(4):538-553. justified the absence of a significant increase in flexibility due to the short period of training. Although our training protocol adopted recommendations for older adults²2 American College of Sports Medicine, Chodzko-Zajko WJ, Proctor DN, Singh MA, Minson CT, Nigg CR, et al. American College of Sports Medicine position stand. Exercise and physical activity for older adults. Med Sci Sports Exerc 2009;41(7):1510-1530., it is possible that 12 weeks of intervention and the volume of training were insufficient to provide a significant result for flexibility of older adults who already performed regular and systematic physical exercise.

Regarding lower limb muscular strength, Li et al.²⁷27 Li KZH, Roudaia E, Lussier M, Bherer L, Leroux A, McKinley PA. Benefits of cognitive dual-task training on balance performance in healthy older adults. Journals Gerontol Ser A Biol Sci Med Sci 2010;65A(12):1344-1352. assessed a group of healthy older adults submitted to a dual task training (1 hour, 5 sessions of dual task), compared to an untrained control group. There were no significant improvements in lower limb strength (30-s CST) after the dual task training. The volunteers have already had a high level of physical activity and achieved the maximum capacity of the test. In the present study, there was a worse performance in lower limb strength in both groups, assessed by the 5 XSST and the 30-s CST, even with a longer period of training compared to the study of Li et al.²⁷27 Li KZH, Roudaia E, Lussier M, Bherer L, Leroux A, McKinley PA. Benefits of cognitive dual-task training on balance performance in healthy older adults. Journals Gerontol Ser A Biol Sci Med Sci 2010;65A(12):1344-1352.. Thus, more strength and resistance exercises for lower limbs should be emphasized in the multicomponent training, since they are essential for daily living activities in older adults.

Carvalho et al.²⁸28 Carvalho MJ, Marques E, Mota J. Training and detraining effects on functional fitness after a multicomponent training in older women. Gerontology 2009;55(1):41-48. found a significant improvement after a multicomponent training (2 times per week) for 32 weeks. However, different from our study, these authors selected older adults who had not performed moderate/vigorous physical exercises for two years prior to the training protocol. It is suggested that the lack of improvement in muscle strength in this study may be due to a physiological adaptation, which could restrict additional benefit of muscle strength in older individuals who have practiced physical exercise regularly for a long time.

In the present study, the IG presented worse mobility performance, assessed by the TUG test, and no changes in static balance tests were found over time. However, regarding to the recommended cut-off score for risk of falling¹⁹19 Alexandre TS, Meira DM, Rico NC, Mizuta SK. Accuracy of Timed Up and Go Test for screening risk of falls among community-dwelling elderly. Rev Bras Fisioter 2012;16(5):381-388., most of the participants of both groups have already presented good performance in TUG and balance tests at baseline and after training. In addition, as a result of aging, there is an impairment ability of dividing attention in dual task activities¹⁰10 Reve EV, de Bruin ED. Strength-balance supplemented with computerized cognitive training to improve dual task gait and divided attention in older adults: a multicenter randomized-controlled trial. BMC Geriatr 2014;14:134.. Thus, when competing attention between tasks, it is possible that the IG prioritized the new stimulus (cognitive task) instead of physical exercise.

Regarding aerobic capacity, there was no change in the performance of either group. In accordance, other studies²⁸28 Carvalho MJ, Marques E, Mota J. Training and detraining effects on functional fitness after a multicomponent training in older women. Gerontology 2009;55(1):41-48.^,²⁹29 Kang S, Hwang S, Klein AB, Kim SH. Multicomponent exercise for physical fitness of community-dwelling elderly women. J Phys Ther Sci 2015;27(3):911-915. did not find significant effects in aerobic capacity, assessed by the 6MWT and 2-minute step test, after multicomponent training. Furthermore, Fraser et al.³⁰30 Fraser SA, Li KZ-H, Berryman N, Desjardins-Crépeau L, Lussier M, Vadaga K, et al. Does combined physical and cognitive training improve dual-task balance and gait outcomes in sedentary older adults? Front Hum Neurosci 2017;10:688. also found no changes in the 6MWT among groups who trained physical (aerobic and stretch) with cognitive components (cognitive tasks and computer lessons). These results suggest that, although the multicomponent training agrees with recommendations for older adults²2 American College of Sports Medicine, Chodzko-Zajko WJ, Proctor DN, Singh MA, Minson CT, Nigg CR, et al. American College of Sports Medicine position stand. Exercise and physical activity for older adults. Med Sci Sports Exerc 2009;41(7):1510-1530., the low duration of aerobic component could be insufficient to achieve the expected improvement for both groups.

The results of this study were restricted because the sample was composed only of older adults who practice physical exercise, which could justify the absence of improvements in physical performance. Moreover, it is possible that findings would be different if the authors had adopted an intervention period greater than 12 weeks. Additionally, it is important to consider that new studies should be conducted in this population, including specific cutoff scores of common physical performance tools.

The limitations of the present study included non-randomization of groups, non-blinding of evaluators, non-use of an instrument that measures the level of physical activity as an inclusion criteria and the use of cutoff scores of the tools for general older people (not specific for Brazilian older people who practice physical exercise due to a lack of information in the literature). In addition, the use of the one-leg stance test may be considered as a limitation of this study, because many older adults who practice physical activity reach the maximum score. Nevertheless, the study was innovative in demonstrating motor effects of the addition of dual task to multicomponent training in older adults who practice physical exercise.

CONCLUSIONS

In conclusion, the addition of a dual task to the multicomponent training was not able to improve physical performances of older adults. Despite positive effects on cognitive performance with dual task in different populations, further studies are needed to confirm whether this type of intervention contributes to cognitive benefits associated with the maintenance of physical abilities in community-dwelling older adults who practice physical exercise.

Acknowledgement

We thank the FESC (Fundação Educacional São Carlos) for ceding the infrastructure for the Revitalization Geriatric Program.

REFERENCES

¹
Krall JR, Carlson MC, Fried LP, Xue QL. Examining the dynamic, bidirectional associations between cognitive and physical functioning in older adults. Am J Epidemiol 2014;180(8):838-846.
²
American College of Sports Medicine, Chodzko-Zajko WJ, Proctor DN, Singh MA, Minson CT, Nigg CR, et al. American College of Sports Medicine position stand. Exercise and physical activity for older adults. Med Sci Sports Exerc 2009;41(7):1510-1530.
³
Nishiguchi S, Yamada M, Tanigawa T, Sekiyama K, Kawagoe T, Suzuki M, et al. A 12-week physical and cognitive exercise program can improve cognitive functionand neural efficiency in community-dwelling older adults: a randomized controlledtrial. J Am Geriatr Soc 2015;63(7):1355-1363.
⁴
Ahlskog JE, Geda YE, Graff-Radford NR, Petersen RC. Physical Exercise as a preventive or disease-modifying treatment of dementia and brain aging. Mayo Clin Proc 2011;86(9):876-884.
⁵
Law LLF, Barnett F, Yau MK, Gray MA. Effects of combined cognitive and exercise interventions on cognition in older adults with and without cognitiveimpairment: a systematic review. Ageing Res Rev 2014;15:61-75.
⁶
de Andrade LP, Gobbi LTB, Coelho FGM, Christofoletti G, Riani Costa JL, Stella F. Benefits of multimodal exercise intervention for postural control andfrontal cognitive functions in individuals with Alzheimer’s disease: a controlled trial. J Am Geriatr Soc 2013;61(11):1919-1926.
⁷
Fok P, Farrell M, McMeeken J. The effect of dividing attention between walking and auxiliary tasks in people with Parkinson’s disease. Hum Mov Sci 2012;31(1):236-246.
⁸
Yokoyama H, Okazaki K, Imai D, Yamashina Y, Takeda R, Naghavi N, et al. The effect of cognitive-motor dual-task training on cognitive function and plasma amyloid β peptide 42/40 ratio in healthy elderly persons: a randomized controlled trial. BMC Geriatr 2015;15:60.
⁹
Falbo S, Condello G, Capranica L, Forte R, Pesce C. Effects of physical-cognitive dual task training on executive function and gait performance in older adults: a randomized controlled trial. Biomed Res Int 2016;2016:5812092.
¹⁰
Reve EV, de Bruin ED. Strength-balance supplemented with computerized cognitive training to improve dual task gait and divided attention in older adults: a multicenter randomized-controlled trial. BMC Geriatr 2014;14:134.
¹¹
Kwon S, Perera S, Pahor M, Katula JA, King AC, Groessl EJ, et al. What is a meaningful change in physical performance? Findings from a clinical trial in olderadults (the LIFE-P study). J Nutr Health Aging 2009;13(6):538-544.
¹²
Mazo G, Liposcki D, Ananda C, Prevê D. Health conditions, incidence of falls andphysical activity levels among the elderly. Rev Bras Fisioter 2007;11(6):437-442.
¹³
Voorrips LE, Ravelli AC, Dongelmans PC, Deurenberg P, Van Staveren WA. A physical activity questionnaire for the elderly. Med Sci Sports Exerc 1991;23(8):974-979.
¹⁴
Chiu AY, Au-Yeung SS, Lo SK. A comparison of four functional tests in discriminating fallers from non-fallers in older people. Disabil Rehabil 2003;25(1):45-50.
¹⁵
Wells KF, Dillon EK. The sit and reach-a test of back and leg flexibility. Res Quarterly Am Assoc Heal Phys Educ Recreat 1952;23(1):115-118.
¹⁶
Vasconcelos KS, Dias JM, Bastone AC, Vieira RA, Andrade AC, Perracini MR, et al. Handgrip strength cutoff points to identify mobility limitation incommunity-dwelling older people and associated factors. J Nutr Health Aging 2016;20(3):306-315.
¹⁷
Rikli R, Jones C. Functional fitness normative scores for community residing olderadults, ages 60–94. J Aging Phys Act 1999;7(2):162-81.
¹⁸
Freire AN, Guerra RO, Alvarado B, Guralnik JM, Zunzunegui MV. Validity and reliability of the Short Physical Performance Battery in two diverse older adult populations in Quebec and Brazil. J Aging Health 2012;24(5):863-78.
¹⁹
Alexandre TS, Meira DM, Rico NC, Mizuta SK. Accuracy of Timed Up and Go Test for screening risk of falls among community-dwelling elderly. Rev Bras Fisioter 2012;16(5):381-388.
²⁰
Vellas BJ, Wayne SJ, Romero L, Baumgartner RN, Rubenstein LZ, Garry PJ. One-leg balance is an important predictor of injurious falls in older persons. J Am Geriatr Soc 1997;45(6):735-738.
²¹
Ansai JH, de Andrade LP, Buto MS, Barroso VV, Farche AC, Rossi PG, et al. Effects of the Addition of a Dual Task to a Supervised Physical Exercise Program on Older Adults’ Cognitive Performance. J Aging Phys Act 2017;25(2):234-239.
²²
World Health Organization. Obesity: Preventing and Managing the GlobalEpidemic: Report of a WHO Consultation. Geneva; 2000.
²³
Silva VM, Gonçalves CT, Silva JJ, Gobbi LTB. Mobilidade de idosos em ambiente doméstico: efeitos de um programa de treinamento específico. Rev Bras Ativ Fis Saúde 2003;8(1):5-19.
²⁴
Perracini MR, Ramos LR. Fall-related factors in a cohort of elderly community residents. Rev Saude Publica 2002;36(6):709-716.
²⁵
Tricco AC, Thomas SM, Veroniki AA, Hamid JS, Cogo E, Strifler L, et al. Comparisons of Interventions for preventing falls in older adults: a systematic review and meta-analysis. JAMA 2017;318(17):1687-1699.
²⁶
Toraman NF, Erman A, Agyar E. Effects of multicomponent training on functionalfitness in older adults. J Aging Phys Act 2004;12(4):538-553.
²⁷
Li KZH, Roudaia E, Lussier M, Bherer L, Leroux A, McKinley PA. Benefits of cognitive dual-task training on balance performance in healthy older adults. Journals Gerontol Ser A Biol Sci Med Sci 2010;65A(12):1344-1352.
²⁸
Carvalho MJ, Marques E, Mota J. Training and detraining effects on functional fitness after a multicomponent training in older women. Gerontology 2009;55(1):41-48.
²⁹
Kang S, Hwang S, Klein AB, Kim SH. Multicomponent exercise for physical fitness of community-dwelling elderly women. J Phys Ther Sci 2015;27(3):911-915.
³⁰
Fraser SA, Li KZ-H, Berryman N, Desjardins-Crépeau L, Lussier M, Vadaga K, et al. Does combined physical and cognitive training improve dual-task balance and gait outcomes in sedentary older adults? Front Hum Neurosci 2017;10:688.

Publication Dates

Publication in this collection
Jan-Feb 2018

History

Received
14 Mar 2017
Accepted
17 Jan 2018

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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[13] ¹³
Voorrips LE, Ravelli AC, Dongelmans PC, Deurenberg P, Van Staveren WA. A physical activity questionnaire for the elderly. Med Sci Sports Exerc 1991;23(8):974-979.

[14] ¹⁴
Chiu AY, Au-Yeung SS, Lo SK. A comparison of four functional tests in discriminating fallers from non-fallers in older people. Disabil Rehabil 2003;25(1):45-50.

[15] ¹⁵
Wells KF, Dillon EK. The sit and reach-a test of back and leg flexibility. Res Quarterly Am Assoc Heal Phys Educ Recreat 1952;23(1):115-118.

[16] ¹⁶
Vasconcelos KS, Dias JM, Bastone AC, Vieira RA, Andrade AC, Perracini MR, et al. Handgrip strength cutoff points to identify mobility limitation incommunity-dwelling older people and associated factors. J Nutr Health Aging 2016;20(3):306-315.

[17] ¹⁷
Rikli R, Jones C. Functional fitness normative scores for community residing olderadults, ages 60–94. J Aging Phys Act 1999;7(2):162-81.

[18] ¹⁸
Freire AN, Guerra RO, Alvarado B, Guralnik JM, Zunzunegui MV. Validity and reliability of the Short Physical Performance Battery in two diverse older adult populations in Quebec and Brazil. J Aging Health 2012;24(5):863-78.

[19] ¹⁹
Alexandre TS, Meira DM, Rico NC, Mizuta SK. Accuracy of Timed Up and Go Test for screening risk of falls among community-dwelling elderly. Rev Bras Fisioter 2012;16(5):381-388.

[20] ²⁰
Vellas BJ, Wayne SJ, Romero L, Baumgartner RN, Rubenstein LZ, Garry PJ. One-leg balance is an important predictor of injurious falls in older persons. J Am Geriatr Soc 1997;45(6):735-738.

[21] ²¹
Ansai JH, de Andrade LP, Buto MS, Barroso VV, Farche AC, Rossi PG, et al. Effects of the Addition of a Dual Task to a Supervised Physical Exercise Program on Older Adults’ Cognitive Performance. J Aging Phys Act 2017;25(2):234-239.

[22] ²²
World Health Organization. Obesity: Preventing and Managing the GlobalEpidemic: Report of a WHO Consultation. Geneva; 2000.

[23] ²³
Silva VM, Gonçalves CT, Silva JJ, Gobbi LTB. Mobilidade de idosos em ambiente doméstico: efeitos de um programa de treinamento específico. Rev Bras Ativ Fis Saúde 2003;8(1):5-19.

[24] ²⁴
Perracini MR, Ramos LR. Fall-related factors in a cohort of elderly community residents. Rev Saude Publica 2002;36(6):709-716.

[25] ²⁵
Tricco AC, Thomas SM, Veroniki AA, Hamid JS, Cogo E, Strifler L, et al. Comparisons of Interventions for preventing falls in older adults: a systematic review and meta-analysis. JAMA 2017;318(17):1687-1699.

[26] ²⁶
Toraman NF, Erman A, Agyar E. Effects of multicomponent training on functionalfitness in older adults. J Aging Phys Act 2004;12(4):538-553.

[27] ²⁷
Li KZH, Roudaia E, Lussier M, Bherer L, Leroux A, McKinley PA. Benefits of cognitive dual-task training on balance performance in healthy older adults. Journals Gerontol Ser A Biol Sci Med Sci 2010;65A(12):1344-1352.

[28] ²⁸
Carvalho MJ, Marques E, Mota J. Training and detraining effects on functional fitness after a multicomponent training in older women. Gerontology 2009;55(1):41-48.

[29] ²⁹
Kang S, Hwang S, Klein AB, Kim SH. Multicomponent exercise for physical fitness of community-dwelling elderly women. J Phys Ther Sci 2015;27(3):911-915.

[30] ³⁰
Fraser SA, Li KZ-H, Berryman N, Desjardins-Crépeau L, Lussier M, Vadaga K, et al. Does combined physical and cognitive training improve dual-task balance and gait outcomes in sedentary older adults? Front Hum Neurosci 2017;10:688.

Characteristics	Intervention (n=35)	Control (n=36)	Total (n=71)	P value
Age (years)	67.8 ± 8.6	68.1 ± 6.4	68 ± 7.5	0.901
Female sex, n (%)	28 (80)	27(75)	55 (77.5)	0.614
BMI (kg/m²)	28.2 ± 5.3	27.6 ± 4.8	27.9 ± 5.0	0.675
MBQE (score)	6.2 ± 2.7	6.2 ± 2.2	6.2 ± 2.4	0.990
Non-fallers, n (%)	34 (97.1)	33 (91.7)	67 (94.4)	0.317

					F	P value Group* Ass	P value Group	P value Ass
	Pre	Post	Pre	Post
Characteristics
Flexibility (cm)	211.76 ± 81.68	220.82 ± 75.38	278.08 ± 82.35	275.44 ± 80.13	2.52	0.117	0.002	0.387
Handrip strength (KgF)	23.36 ± 8.31	26.14 ± 8.69	27.36 ± 6.11	27.00 ± 5.92	2.78	0.100	0.411	0.542
5XSST (s)	11.29 ± 2.43	13.14 ± 3.37	11.34 ± 2.37	12.90 ± 2.52	0.20	0.655	0.865	0.000
30-s CST (times)	12.76 ± 3.89	12.44 ± 3.51	13.22 ± 3.36	12.05 ± 2.55	2.44	0.123	0.962	0.007
Right one-leg stance test (s)	29.95 ± 7.69	26.91 ± 6.97	27.38 ± 6.71	27.06 ± 7.46	0.08	0.776	0.862	0.716
Left one-leg stance test (s)	26.93 ± 7.30	26.51 ± 7.60	27.28 ± 7.32	26.99 ± 6.34	0.01	0.899	0.797	0.490
TUG test (s)	8.09 ± 1.25^#	8.81 ± 1.44^#	8.41 ± 1.24	8.52 ± 1.21	7.50	0.008	0.948	0.000
TUG test (steps)	11.35 ± 1.61	11.88 ± 2.05	11.72 ± 1.79	11.63 ± 1.97	1.88	0.175	0.871	0.321
6MWT (m)	500.2± 84.4	494.1± 78.7	497.2 ± 66.9	482.2± 63.9	0.45	0.504	0.702	0.118


Characteristics	Pre	Post	Pre	Post
	n (%)	n (%)	n (%)	n (%)
Handgrip stength (KgF)	32 (91.4)	29 (82.9)	35 (97.2)	35 (97.2)
5XSST (s)	20 (57.1)	10 (28.6)	20 (55.6)	7 (19.4)
30-s CST (times)	6 (17.1)	5 (14.3)	14 (38.4)	5 (13.9)
Right one-leg stance test (s)	34 (97.1)	35 (100)	34 (94.4)	35 (97.2)
Left one-leg stance test (s)	34 (97.1)	35 (100)	34 (94.4)	35 (97.2)
TUG test (s)	34 (97.1)	35 (100)	36 (100)	36 (100)
6MWT (m)	7 (25)	4 (14.3)	5 (20)	2 (8)

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Impact of a dual task intervention on physical performance of older adults who practice physical exercise

Impacto de uma intervenção de dupla tarefa no desempenho físico de idosos praticantes de exercício físico

Abstract

Resumo

INTRODUCTION

METHODOLOGICAL PROCEDURES

Sample

Assessment

Intervention

Data analysis

RESULTS

DISCUSSION

CONCLUSIONS

Acknowledgement

REFERENCES

Publication Dates

History