The MentalPlus[R] Digital Game Might Be an Accessible Open Source Tool to Evaluate Cognitive Dysfunction in Heart Failure with Preserved Ejection Fraction in Hypertensive Patients: A Pilot Exploratory Study.
Heart failure (HF) is a major health problem in developed countries that affects 1%-2% of the adult population with rising prevalence in people over 65 years or older .
There is a strong association with increased mortality and morbidity, frequent hospital admissions, and reduced quality of life and functional status . It is important to bear in mind that most randomized controlled trials in HF specifically exclude patients with significant comorbidities or HFpEF, yet this group constitutes a significant proportion of older people with HF [3-5].
Up to 75 % of >65-year-old patients will have multiple chronic conditions that will impact HF management; [4, 6] comorbidity is one of the strongest independent predictors of rehospitalization and mortality . One of the key factors less frequently considered as comorbidities in patients with HF is cognitive impairment.
The impaired cognitive function is associated with poor levels of self-care and functional decline  and predicts nonengagement in HF management programmers. Patients may not recognize or understand a change in symptoms or function, with negative consequences for overall care.
Identifying cognitive impairment allows patient, caregivers, and clinicians to plan management strategies and clinicians should be vigilant for its presence. Observational data suggest that informal assessment of cognition by cardiologists is insensitive, with approximately three in four HF patients with important cognitive problems not recognized during their routine consultations.  Nearly half of all patients with HF symptoms, like breathlessness on exertion, have a preserved EF, exceeding 50%. Its prevalence is rising, with morbidity, mortality, and healthcare costs following the same trends of HF with reduced EF (HFrEF). HFpEF patients also present multiple common comorbidities, such as hypertension, diabetes mellitus, renal disease, atrial fibrillation, and metabolic syndrome, which have a major impact on the syndrome and mortality. [6,10-13]
Cognitive function is a superior cortical function involving multiple brain activities that permit that human being perceives information, learn it, and remember specific knowledge. It can enable us to solve problems and plan actions during daily life. There are some cognitive functions, including memory, attention, executive function, language, and visuospatial ability. The most frequently measured cognitive domains in HF studies are attention, working memory, long-term memory, learning, executive function, and psychomotor speed, with approximately 28%-58% of individuals with HF demonstrating impairment of one or more of those cognitive domains.  There are many neuropsychologic tests, used to measure different cognitive domains. The main impairment is that it is a time-consuming process. It usually deserves around 2 hours to have a complete evaluation, and only specialists can make it. Moreover, at least in our country, Brazil, the majority of these tests can be known and applied only by psychologists and neuropsychologists. Other health professionals interested in evaluating the cognitive function of patients are not allowed to use them. The restriction to use and time-consuming applicability of the neuropsychological tests has led the scientific community to a constant search for alternative diagnostic methods to evaluate cognition. As an alternative to overcome those issues, we developed a digital game named MentalPlus[R] as a possible open tool to assess cognition. Previous studies have shown that digital games might stimulate cognitive functions and enhance skills such as creativity, the search for strategies, decision-making, and skills aimed at visuoperception. In clinical trials, the games have been applied for neuropsychological function skill improvement. They have been able to modify the structure and functioning of the brain architecture. [16, 17]
However, the use of virtual games for assessing the integrity of neuropsychological functions is insufficient or nonexistent. The development and validation of an easy neuropsychological open test application as a digital game can contribute to a better cognition knowledge in different clinical situations, as in HFpEF.
The primary objective of this study aimed to evaluate general cognitive status comparing the MentalPlus[R] digital game to Telephone Interview Cognition Status (TICS). Afterward, the secondary objective of the study would be to describe specific cognitive function status in this pilot study group and stimulate the continuous study to validate that simple, open source tool to be used by colleagues in various health fields to access cognitive dysfunction in earlier states. One of the most important social conditions would be its application mainly where the sociodemographic conditions are low and give a chance to those patients to have rehabilitation and possible inclusion in society.
2. Materials and Methods
2.1. Study Design and Subject Enrollment. The study conceived as a pilot exploratory study, received the approval of the Ethics Committee for Research Project Analysis (CAPPesq) of the Clinical Board, Hospital das Clinicas da Faculdade de Medicina da Universidade de Sao Paulo (HCFMUSP) (S1 File).
There were 60 hypertensive treated patients, presenting exertion dyspnea, enrolled to be submitted to TICS, and play a free digital game, MentalPlus[R], after invitation acceptance and a signed written informed consent. The volunteer recruitment to the study was from May 2016 to August 2016. The neuropsychological assessment phase study finished in September 2016.
Inclusion criteria were hypertensive treated patients who accepted the invitation to play a free digital game, MentalPlus[R], and receive TICS test. They should present dyspnea on exertion and a normal left ventricular systolic function (Figure 1).
60 transthoracic echocardiography examinations performed with a 2D, M-Mode, pulse wave Doppler, and tissue Doppler echocardiography by using an ACUSON X300[TM] ultrasound system, Mountain View (California, USA) with a 1.4-5.6 MHz frequency bandwidth transducer. The echocardiographic measurements were according to American Society of Echocardiography: guidelines: http://asecho.org/guidelines/guidelines-standards/. Myocardial velocity profiles of the lateral mitral annulus are obtained by placing a 6 mm sample volume at the junction of the mitral annulus and lateral myocardial wall. Left ventricular mass (LVM) was calculated using the Devereux Formula , where LVM = 0.8(1.04(IVST + LVID + LPWT) (3) --(LVID) (3) + 0.6), LVST is interventricular septal thickness, LVID is left ventricular internal dimension, and LPWT is left posterior wall thickness. The left ventricular mass index (LVMI) calculus used the formula, LVM/(height). [18, 19] The systolic ventricular function was assessed by 2D biplane Simpson's rule. Left ventricular ejection fraction (LVEF) [greater than or equal to] 50 % has been defined as preserved or normal left ventricular (LV) systolic function.
The exclusion criteria were the presence of a history of brain disease or dementia, psychiatric disorders that affect cognition, and the presence of some grade of visuomotor ability impairment to play video games and a not preserved left ventricular systolic function.
The Telephone Interview Cognition Status (TICS) was applied to all patients before MentalPlus[R]. The test consists of an interview script with 11 items that assess spatial and temporal orientation skills, mind control, memory, general information, language, and calculations (S2 File). The TICS total score is a sum of the individual item scores. It provides a measure of global cognitive functioning and can be used to monitor changes in cognitive functioning over time. TICS results are reported using a qualitative impairment range and T scores (TICS normal range for Brazilian population 27.7[+ or -]3.3). The appropriate normative reference group for interpretation will depend on the reason for the evaluation and the examinee's age and level of education [20-22]. The study followed the CONSORT criteria (http://www.consort-statement.org/) (S3 File).
2.2. The Video Game MentalPlus[R] Characteristics. MentalPlus[R] is a digital game developed to evaluate and stimulate neuropsychological functions, patented and registered with the National Library Foundation by Law no. 9,610/98, under copyright no. 663,707. This digital game identifies the neuropsychological deficits in functions, Attention/Memory/Executive. Attention, resistance to distractor stimulus, sustaining attention, and memory evaluation consist of a series of tasks in 8 digital game phases. We show the game phases in detail in the video (S4 File).
2.3. Sociodemographic Evaluation. Demographic data were analyzed, including age, education, and family income. The education evaluation was an index derived from the schooling years and the family income based on Brazilian minimum wages.
3. Statistical Analyses
The qualitative characteristics were described using absolute and relative frequencies and the quantitative characteristics were described using summary measures (mean, standard deviation, median, minimum, and maximum) (Kirkwood and Sterne, 2006).
The domains of cognition assessed by MentalPlus were described according to each assessed personal and clinical qualitative trait and compared among the categories using Mann-Whitney tests (Kirkwood and Sterne, 2006) to verify construct validation of MentalPlus.
The Spearman (Kirkwood and Sterne, 2006) correlations of the MentalPlus domains with quantitative characteristics, age, and MAP (presence of HFpEF and presence of diastolic dysfunction) were also calculated for construct validation as well as for TICs for the concurrent validation of the MentalPlus domains with another cognition scale. But as that study was a descriptive and exploratory one, the group had still not the pretension to evaluate the power of the test at that study stage. We have the intention of developing larger studies in a newer future. At that time, surely, a precise sample size as confidence intervals and power calculations will be executed for more precise results. With that pilot study, the main objective was to show some data with hypertensive patients with HFpEF that could stimulate the scientific community to study cognitive function deeply in many heart groups, possibly with the open tool MentalPlus[R] digital game.
The analyses were performed using IBM-SPSS for Windows software version 20.0 and tabulated using MicrosoftExcel 2003 software and tests were performed with a significance level of 5% .
According to Figure 1, we recruited 60 hypertensive patients under treatment with HFpEF and excluded two patients due to limiting visual problems. Patients presented treated hypertension and dyspnea on exertion. There was no history of anemia or COPD. Table 1 discloses sociodemographic and clinical data, with the mean and standard deviation (SD). The 60 study participants presented a mean age of 56[+ or -]10 years (mean; SD). 46% were male. They had a school level mean of 13[+ or -]3 years (mean; SD) and 72 % received a mean income [greater than or equal to] ten while 28% received an amount corresponding to [greater than or equal to] 5 and < 10 Brazilian minimum wages per month. The drugs used were thiazide diuretics, calcium channel blockers, betablockers, angiotensin-converting enzyme (ACE) inhibitors, and angiotensin II receptor blockers (ARB). Table 2 presented some clinical and echocardiographic parameters. Mean medium arterial pressure (MAP) was 94[+ or -]9mmHg (mean; SD), with antihypertensive medication. They all presented EF [greater than or equal to] 50% by 2D biplane Simpson's rule and 100% disclosed an abnormal diastolic function by tissue Doppler velocity measurements. Left ventricular hypertrophy was present in 53%, with a left ventricular mass index (LVMi) >90 and 110 g/[m.sup.2] for women and men, respectively. Left atrium volume per square meter was larger than 30 ml in 53% of them. Different professionals supervised both tests for each patient. We have not evaluated NT-proBNP.
In the neuropsychological evaluation, the HFpEF group exhibited TICS score of 28[+ or -]3 (mean; SD), for an expectation of more than 25[+ or -]3 (mean; SD) for the normal population .
Table 3 displayed that there was no statistically significant correlation between the MentalPlus domains and the age of the hypertensive patients (p> 0.05) and only the inverse correlation between short-term memory, MentalPlus[R] Phase II with mean arterial pressure (MAP) (r = -0.290 and p = 0.025). That implies that the higher the MAP, the lower the values for short-term memory. Although the correlation was low, it was statistically significant. TICs showed no statistically significant correlation with any of the MentalPlus domains (p> 0.05). We tried to show that patients with hypertension and HFpEF with normal general cognitive function, evaluated by TICS, could have specific deficiencies as showed by MentalPlus[R] phase, like short memory function.
This study found evidence that we might use MentalPlus[R] digital game in an HFpEF group of patients, for neuropsychological evaluation. It can be an open diagnostic tool of cognitive dysfunction for mnemonic, attentional, and executive functions. Data analysis yielded interesting findings. There was a good agreement for selective and alternate attention, long-term memory, inhibitory control, executive function, and visuoperception and visuoconstruction. Only short-term memory displayed an inverse correlation with MAP. Although the correlation was low, it was statistically significant (Table 3).
The use of the game in patients with HFpEF disclosed a normal general cognition, except for some aspects of the memory. That might be a sign that even in patients with normal ventricular systolic function, some factors that might be more intensively evaluated by MentalPlus[R] digital game can disclose characteristics that TICS by itself is not able to identify. The main interest in developing that possible open tool for cognitive function evaluation is its convenience when compared with extensive and time-consuming psychological battery usually undertaken to that end.
The digital game presents many advantages through the extensive psychological battery usually performed to evaluate those patients. It only requires about 25 minutes to be played through all its phases (S4). It would be enough to have an oriented health professional to apply the video game. The MentalPlus[R] has the proposal to evaluate attention, shortand long-term memory, executive function, language, and visuoconstruction. We can have both general and individualized evaluation of cognitive function. It can be used many times during cognitive evaluation follow-up and follow small changes in cognitive functions separately. Other usual cognitive tests, like Mini-Mental State Examination (MMSE), could be speculated to be applied. Otherwise, the content of the MMSE is highly verbal, lacking sufficient items to measure both visuospatial and constructional praxis adequately. It brings some limitations as evaluation of low cognitive impairment as small changes. Hence, its utility to detect impairment caused by focal lesions is uncertain. We are aware that to evaluate all those cognitive functions, it would be necessary a long time to perform a neuropsychological battery.
Therefore, that justification would favor MentalPlus[R] digital game usefulness in a broad of clinical settings as we can observe in this pilot study with an emphasis in HFpEF, enabling a prompt cognitive dysfunction diagnosis. Future research might focus on direct neuropsychological assessment using the MentalPlus[R] digital game in patients for diverse underline pathologies. We already presented the game reliability in near past . Now, our next step is the validation of the digital game cited in a normal population, compared with a normal neuropsychologic test battery. Although preliminary studies have shown that we can apply that digital game for that goal, there is a necessity for accurate measurements and calibrations to get reliable results of these cognitive functions.
The MentalPlus[R] digital game already presented reliable evidence for cognition evaluation like attention, memory, and executive functions. Here we showed that in HFpEF the general and specific cognitive functions are preserved, except for a lower range of short-term memory function-MentalPlus phase II. It might have many implications but bring to the scientific community that at that level of the pathology we should make every effort to stimulate the cognitive functions, besides the maintenance of the treatment and all the risk factors. As a feasible open tool, it is possible to claim for new colleagues to use the digital game and evaluate it with us. Additional study will contribute for an effective calibration of the game as for its validation and usual open utilization.
Conflicts of Interest
The authors have declared that no conflicts of interest exist.
Livia Stocco Sanches Valentin and Valeria Fontenelle Angelim Pereira conceived and designed the experiments; Valeria Fontenelle Angelim Pereira and Livia Stocco Sanches Valentin performed the experiments; Livia Stocco Sanches Valentin and Valeria Fontenelle Angelim Pereira analyzed the data; Valeria Fontenelle Angelim Pereira wrote the manuscript.
The authors wish to acknowledge the timely help given by Professor Simone Kuhn, Max Planck Institute, and Professor Lars Simon Rasmussen, the University of Copenhagen, in the support that we received for our study with MentalPlus[R]. Our Research was supported by Comissao de Analise de Projetos de Pesquisa da Universidade de Sao Paulo, CAPpesqFMUSP (CAAE: 49463315.5.1001.0068), Coordenafao de Aperfeicoamento de Pessoal de Nivel Superior, CAPES, Faculdade de Medicina, FMUSP, Pro-Reitoria de Pos-Graduafao da Universidade de Sao Paulo, PRRG/USP, and Project MentalPlus Association, A.P.M.P., a NGO, from Brazil.
Supporting File 1 (S1): the approval of the Ethics Committee for Research Project Analysis (CAPPesq) of the Clinical Board, Hospital das Clinicas da Faculdade de Medicina da Universidade de Sao Paulo (HC-FMUSP). Supporting File 2 (S2): the Telephone Interview Cognition Status (TICS). Supporting File 3 (S3): the CONSORT criteria (http://www.consort-statement.org). Supporting File 4 (S4): video-demo MentalPlus[R]. (Supplementary Materials)
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Valeria Fontenelle Angelim Pereira [ID] and Livia Stocco Sanches Valentin
Department of Cardiopneumology, Heart Institute, School of medicine, University ofSao Paulo, Sao Paulo, Brazil
Correspondence should be addressed to Valeria Fontenelle Angelim Pereira; email@example.com
Received 17 December 2017; Revised 7 May 2018; Accepted 10 July 2018; Published 6 August 2018
Academic Editor: Francesco Cappuccio
Caption: Figure 1: Study fluxogram. HFpEF: heart failure with preserved ejection fraction; MentalPlus[R]: Open Tool Virtual Game; TICS: Telephone Interview Cognition Status.
Table 1: Sociodemographic and clinical data. Age(years) (Mean; SD) 56 [+ or -] 10 Male Gender (%) 46 School level in years (13 [+ or -] 3) 100% (Mean; SD) (%) Mean Income [greater than or equal to] 75% 10 minimum wage (%) Dyspnea on exertion (%) 100% Presence of anemia (%) 0% Presence of POCD (%) 0% Past history of heart failure (%) 0% Presence of Type II Diabetes (%) 25% Presence of 26 [less than or equal to] 00% BMI [less than or equal to] 33 Presence of Hypertension (%) 00% Use of thiazide diuretics, calcium 100% channel blockers, ARB, ACE inhibitors, beta-blockers (alone or in combination) Number of evaluated patients 60 SD: standard deviation; BMI: Body Mass Index; ARB: angiotensin receptor blocker; ACE: angiotensin converting enzyme inhibitors. Table 2: Parameters of echocardiography evaluation. MAP (mmHg) VMI>90g/[m.sup.2] LVEF (Simpson) (Mean; SD) for female or >115g/ [greater than or [m.sup.2] for male equal to] 50% (percentage) (percentage) (94;9) 53% 100% MAP (mmHg) LA volume (ml/ E/A filling E/e' [greater than (Mean; SD) [m.sup.2]) [greater pressure>1 or equal to] 13 or than or equal to] 30 (percentage) E/e' [less than or (percentage) equal to] 8 (percentage) (94;9) 53% 47% 100% MAP: mean arterial pressure; SD: standard deviation; VMI: ventricular mass index; LVEF: left ventricular ejection fraction; Simpson: Simpson's method; LA: left atrium. Table 3: Spearman correlation with MentalPlus[R] phases, with patients age, mean arterial pressure, and TICS. Spearman Correlation Age (years) Mean arterial TICS pressure Short Term Memory, r -0,048 -0,290 0,119 MentalPlus Phase II p 0,715 0,025 0,363 Inhibitory Control, r 0,092 0,033 0,097 MentalPlus Phase II p 0,485 0,801 0,463 Visuoperception and r 0,057 0,016 -0,151 Visuoconstruction, p 0,663 0,904 0,248 MP phases VI and VII Selective Attention, r 0,093 -0,044 0,097 MP phases III and IV p 0,480 0,741 0,460 Alternate Attention, r -0,009 0,054 0,192 MP phases V and VI p 0,944 0,680 0,141 Long Phase Memory, r -0,182 0,033 0,122 MP phase I p 0,163 0,804 0,352 Spearman correlation MP: Mentalplus.
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|Title Annotation:||Research Article|
|Author:||Pereira, Valeria Fontenelle Angelim; Valentin, Livia Stocco Sanches|
|Publication:||International Journal of Hypertension|
|Date:||Jan 1, 2018|
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