Applicability of activities of daily living tests in individuals with heart failure

Valadares, Ywia Danieli; Corrêa, Krislainy de Sousa; Silva, Bruna Oliveira; Araujo, Cintia Laura Pereira de; Karloh, Manuela; Mayer, Anamaria Fleig

doi:10.1590/S1517-86922011000500003

Abstracts

Limitation in activities of daily living (ADL) caused by dyspnea is a common finding in patients with heart failure (HF), functional class III and IV. Specific assessment of ADL limitation could be used as a parameter of the disease progression and the therapy response. However, there is a shortage of instruments to assess ADL in this population. This study aimed to determine the applicability of the London Chest Activity of Daily Living (LCADL) and the Glittre ADL-test (T Glittre), to evaluate functional limitations of individuals with HF functional class III and IV. Ten patients (57±9 years, 27.5±4.5kg/m²) of both genders with a clinical diagnosis of HF functional class III and IV and left ventricle ejection fraction (LVEF) 34±7% participated in the study. Spirometry, body mass index (BMI), LCADL, six-minute walking test (6MWT), T Glittre, Medical Research Council Scale (MRC) and SF-36 were performed. The patients had an average score of the LCADLtotal from 27.7±12.1 (LCADL%total: 41.5±16.9) and time of T Glittre 6.3±4.8 minutes. A positive correlation was found between them (r = 0.88, p<0.05). LCADL%total correlated with 6MWT (r =-0.83), LVEF (r =-0.64), MRC (r =0.68) and Functional Capacity (FC) of the SF-36 (r =-0.63) (p<0.05). T Glittre correlated with 6MWT (r =-0.90), LVEF (r =-0.66) and CF of the SF-36 (r =-0.69) (p<0.05). In conclusion, the LCADL scale and T Glittre have applicability in patients with HF class III and IV, demonstrating association with LVEF, distance on the 6MWT, degree of dyspnea and quality of life.

heart failure; dyspnea; activities of daily living

A limitação nas atividades de vida diária (AVD) por dispneia é um achado comum nos pacientes com insuficiência cardíaca (IC), classe funcional III e IV. A avaliação específica da limitação nas AVD poderia ser utilizada como parâmetro de evolução da doença e de resposta terapêutica. Entretanto, há uma escassez de instrumentos de avaliação das AVD nessa população. Dessa forma, o objetivo do estudo foi verificar a aplicabilidade da escala London Chest Activity of Daily Living (LCADL) e do teste de AVD-Glittre (T Glittre), na avaliação da limitação funcional de indivíduos com IC classe funcional III e IV. Participaram do estudo 10 pacientes (57 ± 9 anos; 27,5 ± 4,5kg/m²) de ambos os sexos com diagnóstico clínico de IC classe funcional III e IV e fração de ejeção do ventrículo esquerdo (FEVE) 34 ± 7%, foram avaliados: espirometria, índice de massa corpórea (IMC), escala LCADL, teste de caminhada de seis minutos (TC6min), T Glittre, escala Medical Research Council (MRC) e questionário SF-36. Os pacientes apresentaram, em média, escore da escala LCADLtotal de 27,7 ± 12,1 (LCADL%total: 41,5 ± 16,9) e tempo do T Glittre de 6,3 ± 4,8 minutos, encontrando-se correlação positiva entre eles (r = 0,88; p < 0,05). O LCADL%total correlacionou-se com o TC6min (r = -0,83), FEVE (r = -0,64), MRC (r = 0,68) e domínio capacidade funcional (CF) do SF-36 (r = -0,63), com p < 0,05. O T Glittre correlacionou-se com o TC6min (r = -0,90), FEVE (r = -0,66) e CF do SF-36 (r = -0,69), com p < 0,05. Conclui-se com o estudo que a escala LCADL e o T Glittre têm aplicabilidade em pacientes com IC classe III e IV, apresentando associação com a FEVE, com a distância percorrida no TC6min, grau de dispneia e qualidade de vida.

insuficiência cardíaca; dispneia; atividades cotidianas

ORIGINAL ARTICLE

EXERCISE AND SPORTS MEDICINE CLINIC

^IUniversity Center of the Triangle Uberlândia, MG, Brazil; University Center of Formiga Formiga, MG, Brazil; Presidente Antônio Carlos University Bom Despacho, MG, Brazil

^IIUniversity Center of the Triangle Uberlândia, MG, Brazil; Catholic University of Goiás Goiânia, GO, Brazil

^IIIUniversity Center of the Triangle Uberlândia, MG, Brazil

^IVPost-Graduation Program in Physiotherapy, Health Sciences and Sports Center, State University of Santa Catarina Florianópolis, SC, Brazil

^IVPost-Graduation Program in Human Movement Sciences, Health Sciences and Sports Center, State University of Santa Catarina Florianópolis, SC, Brazil

^VIPost-Graduation Program in Physiotherapy, Physiotherapy Department, Health Sciences and Sports Center State University of Santa Catarina Florianópolis, SC, Brazil

Mailing address

ABSTRACT

Limitation in activities of daily living (ADL) caused by dyspnea is a common finding in patients with heart failure (HF), functional class III and IV. Specific assessment of ADL limitation could be used as a parameter of the disease progression and the therapy response. However, there is a shortage of instruments to assess ADL in this population. This study aimed to determine the applicability of the London Chest Activity of Daily Living (LCADL) and the Glittre ADL-test (T_Glittre), to evaluate functional limitations of individuals with HF functional class III and IV. Ten patients (57±9 years, 27.5±4.5kg/m²) of both genders with a clinical diagnosis of HF functional class III and IV and left ventricle ejection fraction (LVEF) 34±7% participated in the study. Spirometry, body mass index (BMI), LCADL, six-minute walking test (6MWT), T_Glittre, Medical Research Council Scale (MRC) and SF-36 were performed. The patients had an average score of the LCADL_total from 27.7±12.1 (LCADL_%total: 41.5±16.9) and time of T_Glittre 6.3±4.8 minutes. A positive correlation was found between them (r = 0.88, p<0.05). LCADL_%total correlated with 6MWT (r =-0.83), LVEF (r =-0.64), MRC (r =0.68) and Functional Capacity (functional capacity) of the SF-36 (r =-0.63) (p<0.05). T_Glittre correlated with 6MWT (r =-0.90), LVEF (r =-0.66) and CF of the SF-36 (r =-0.69) (p<0.05). In conclusion, the LCADL scale and T_Glittre have applicability in patients with HF class III and IV, demonstrating association with LVEF, distance on the 6MWT, degree of dyspnea and quality of life.

Keywords: heart failure, dyspnea, activities of daily living.

INTRODUCTION

Heart failure (HF) is a complex clinical syndrome of systemic character, defined as heart failure in providing suitable blood supply to the metabolic and tissue needs, or doing it only with increase of filling pressure⁽¹⁾. Dyspnea is a common finding in the patients with HF functional class III and IV⁽²⁾, limiting exercising, and consequently the activities of daily living (ADL). Such fact leads the individual to inactivity, progressively harming his/her cardiovascular and peripheral muscular functions. Specific assessment of dyspnea and limitation in the ADL should be used to assess the disease progression as well as the therapeutic response, such as to cardiac rehabilitation. However, studies which have developed instruments to evaluate the ADL specific to HF patients are scarce.

Dyspnea and ADL limitation are also commonly reported by patients with chronic obstructive pulmonary disease (COPD). Despite the differences in their primary physiopathology, similarities related to functional limitation both in HF and COPD have been observed.

In both conditions abnormalities in structure, pulmonary function as well as peripheral compromising are observed⁽³⁾. Alterations in the ventilation-perfusion relation with consequent deficit in the gas exchange are present in the two groups, caused by the compromising of the cardiac bomb function, increase in the left atrial pressure and pulmonary congestion in the HF⁽⁴⁾, and a result of the obstruction to the air flow and consequent hyper insufflation in the COPD^(5,6). Peripheral alterations, such as decrease in volumetric density of the mitochondria, density of the capillaries and quantity of oxidative enzymes, with consequent increase of the anaerobic glycolysis have also been found in patients with HF^(7,8) and COPD^(9,10), explaining hence dyspnea and exercise intolerance.

Considering the similarities related to the alterations in the pulmonary structure and function, peripheral alterations and functional limitations between these two diseases, it is believed that instruments able to assess the limitation to perform the ADL developed to patients with COPD can be useful in the assessment of patients with HF as well. Thus, this study aimed to assess the activities of daily living of individuals with HF functional class III and IV, testing in this population of patients the applicability of a scale and an ADL test, originally developed for patients with COPD.

METHODS

The present study was performed in the Exercise Laboratory in the University Center of the Triangle (UNITRI), in the period between February and December, 2007. The sample was triad from a public and a private cardiology services. Individuals of both sexes age 40 or older with clinical diagnostic of HF functional class III or IV confirmed by echocardiogram (left ventricular ejection fraction LVEF < 45%) and clinical and hemodynamic stability in the last month which preceded the protocol performance were included. The patients with clinical or spirometric diagnostic (VEF₁/CFV < 70% in the spirometry) of COPD disease; articular and/or muscular problems which hampered the performance of the tests; illiteracy or visual impairment and those who did not perform any of the evaluations of the protocol were excluded.

Altogether, 13 patients met the study's inclusion criteria and three were excluded: two for presenting spirometric values compatible with COPD and one for presenting osteomyoarticular problems. Thus, a final sample of 10 patients was obtained (57 ± 9 years, 27.7 ± 4.5 kg/m²), with five (50%) presenting isolate systolic HF and five (50%) systolic and diastolic HF; seven (70%) were in the HF functional class III and three (30%) in the functional class IV; six (60%) presented HF by ischemic etiology; two (20%) by Chagas disease; one (10%) by idiopathic etiology and one (10%) by valvular disease. The sample was predominantly composed of female patients (60%). The patients signed the Free and Clarified Consent Form after having received detailed description of the research procedures. The study protocol was approved by the Ethics in Research Committee of the Institution (# of the record: 605292), according to the norms established in the Resolution in the 196/96 of the National Health Bureau. All tests were performed in the morning shift. The individuals were guided to perform the tests with light clothes and suitable shoes and not to intake food two hours before the protocol application.

At the beginning, the individuals were weighted, measured and submitted to pulmonary function evaluation; immediately after, they performed the ADL Glittre test (T_Glittre) and answered the SF-36 quality of life questionnaire. Subsequently, they performed the six-minute walking test (6MWT), which was repeated after a 30-minute interval, and filled the Medical Research Council (MRC) and London Chest Activity of Daily Living (LCADL) scales. All protocol evaluations were applied by the same evaluator.

The anthropometric measurements were obtained with the individual barefoot and at erect position; weight was assessed on a digital scale brand name Filizola^®(São Paulo, Brazil), previously calibrated and height was verified on an electronic scale Welmy^{® ,} model W300 (São Paulo, Brazil). Body mass index (BMI) as calculated through the division of the weight in kilograms by the square of the height in meters. Pulmonary function was evaluated using a spirometer brand name Easyone (NDD, Zurich, Switzerland), with calibration verified daily before the data collection. The tests followed the criteria standardized by the American Thoracic Society (ATS)⁽¹¹⁾.

The left ventricular ejection fraction (LVEF) was evaluated by echocardiogram, using the HDI-5000 apparatus by Philips Ultrasound (Oceanside, California, USA). The Teichholz method was applied, considering normal values above 53%⁽¹²⁾.

The 6MWT was performed always by the same investigator, following the ATS criteria, being performed on a 30-meter plane corridor, using standardized verbal stimulus. The heart rate, Borg's scale and oxygen peripheral saturation variables were evaluated before, on the fourth minute and at the end of the test, on the second and fourth minute and at the end of the test, and the blood pressure at the beginning and at the end of the test⁽¹³⁾.

The dyspnea level was assessed by the MRC dyspnea scale, with punctuation from 0 to 4, in which 4 means the highest limitation by dyspnea to the activities⁽¹⁴⁾. Health related quality of life was assessed through the questionnaire SF-36, Short Form Health Survey⁽¹⁵⁾, applied to the patients as an interview.

In order to evaluate the ADL, the LCADL scale, developed and validated for patients with COPD⁽¹⁶⁾ and translated to Portuguese was used⁽¹⁷⁾. It is composed of four domains related to personal care; domestic tasks; physical activities and leisure; enabling to evaluate the level of dyspnea of the patient and his/her response to a therapeutic intervention⁽¹⁸⁾, being administered as an interview. ADL limitation was assessed by the T_Glittreas well, originally validated for patients with COPD⁽¹⁹⁾. The test consisted in carrying a backpack on their backs with two and a half-kilo weight for women and five-kilo weight for men, completing a circuit with the following activity sequence: leaving sitting position; walking on flat surface a total distance of 10m, interrupted on its exact half (five meters) by a box with two steps to climb up and two steps to climb down, 17-cm high and 27-cm wide each; climbing up and down the steps, and after completing the remaining of the distance, moving three objects weighting one kilo each, placed on a bookshelf from the highest to the lowest shelf and then moving them to the ground; returning them to the middle shelf and to the highest shelf; and finally restarting the entire process, sitting again on the chair and restarting another lap. The test is composed of a total of five laps, in which the individuals were told to complete them in the shortest time possible. No verbal stimulus was given during the test.

STATISTICAL ANALYSIS

The Kolmogorov-Smirnov normality test was used to verify the normality of the variables. Means, standard deviations and medians were calculated. The Spearman test was used to verify whether there was correlation between the score of the LCADL scale and the variables: MRC scale score, distance completed in the 6MWT, time spent in the T_Glittre, LVEF and domains of the SF-36. The Pearson correlation coefficient was used to verify the association between the time spent in the T_Glittre and the distance completed in the 6MWT and LVEF. The significance level adopted for the statistical treatment was of 5% (p < 0.05). The data were analysed with the Statistical Package for the Social Sciences (SPSS, version 13.0) for Windows.

RESULTS

The LVEF of the studied sample ranged between 23 and 43%, and the score of the dyspnea between two and four. The sample presented mean normal pulmonary function, as can be observed in table 1. The distance completed in the 6MWT ranged from 61 to 536 meters, and in mean it corresponded to 76.86% expected⁽²⁰⁾. The time spent in the T_Glittre ranged between 3.37 and 19.12 minutes. The performance in the tests can be observed in table 1. The patient who presented the worst time in the T_Glittre(19.12 min) and had the worst score in the LCADL scale (81.5 % _total) presented LVEF of 24% and was also who one who completed the shortest distance in the 6MWT (61m) and presented the worst dyspnea score (MRC 4).

Thumbnail

The results of the LCADL scale and of the questionnaire SF-36 are presented in table 2. The LCADL_total ranged from 12 to 53 and the LCADL_%total ranged from 21.8 to 81.5%.

Thumbnail

The time spent in the ADL-Glittre test presented negative correlation with the 6MWT (figure 1a), LVEF (figure 1b) and main functional capacity of the SF-36 (p < 0.05), as demonstrated in table 3. The score of the LCADL scale correlated with the 6MWT, LVEF, dyspnea index and domain functional capacity of the SF-36 (p < 0.05) (table 3, figure 2). The T_Glittre and the LCADL_%total positively correlated between them, with r = 0.88 (p < 0.05). The LVEF presented strong negative correlation with the dyspnea index (r = -0.79; p < 0.05).

Thumbnail

DISCUSSION

This study had the aim to assess whether two evaluation instruments, one scale and one test, constituted and validated to evaluate the limitation in the ADL in patients with COPD, could also be applied in the evaluation of patients with HF. Strong association of the performance in the T_Glittre and the total score of the LCADL scale with performance in the 6MWT was observed, which until the present moment has been the chosen test in the evaluation of the functional capacity of these patients.

Strong correlations of the 6MWT have also been found in previous studies with the T_Glittre⁽¹⁹⁾ and with the score of the LCADL scale⁽¹⁷⁾ in patients with COPD. The 6MWT may be considered an instrument capable to indicate the prediction of the disease. Distances shorter than 300 meters indicate low level of functional capacity and are considered predictor of mortality and morbidity for patients with asymptomatic left ventricular dysfunction and for those with light, moderate⁽²¹⁾ and severe levels⁽²²⁾.

Bittner et al. (1993) found mortality rate of 10.23% in patients who completed distances shorter than 300 meters in the 6MWT. Two patients of the present study presented completed distances shorter than 300 meters, and one of them also presented longer time to perform the T_Glittre and the highest values in the total and percentage of the total punctuation of the LCADL scale⁽²¹⁾.

Moreover, the existence of strong association between performance in T_Glittre and score of the LCADL scale, found in the present study, suggests the concordance between the test and the scale concerning the ADL assessment in these patients. Although the first one directly tests the limitation in the ADL by the performance of physical activities which reproduce the common daily tasks and the second performs an evaluation through a record of four domains of the daily life of the individual (personal care, domestic activities, physical activity and leisure), it was shown that both are able to translate the functional incapacity of the patients with HF. Possibly, the information extracted from the two evaluation methods compete each other, since although the performance in the T_Glittre suffers the influence of dyspnea, one can only infer at what level it is a limiting factor using an associated dyspnea scale. On the other hand, the LCADL scale can grade dyspnea for specific activities; however, the patients do not experience them at the moment of the evaluation.

When the scores of the MRC scale were correlated with the scores of the LCADL scale, strong association was obtained, suggesting hence the concordance between them concerning the evaluation of the compromising level of the dyspnea in these patients. Nevertheless, it is worth highlighting that the MRC is not specific to dyspnea evaluation in the ADL. While the LCADL scale verifies the degree to which dyspnea limits performance of ADL⁽¹⁸⁾, the MRC investigates the dyspnea level in activities of progressively lower intensities⁽²³⁾.

Two patients of the sample who had LVEF < 25% were the ones who presented the worst times in the T_Glittre and the worst scores in the LCADL scale. The correlation found between the LVEF and performance in the T_Glittre and also with the score of the LCADL scale seems to confirm that with disease progression and greater compromising of the cardiac function, consequent functional compromising is also observed. As LVEF decreases, reduction of the cardiac debt and of the blood flow to the periphery also occurs⁽²⁴⁾, being it responsible for the alterations in the peripheral muscle composition⁽²⁵⁾, already reported by other authors^(26-28), which directly interferes in the performance in the ADL of these patients.

In the present study, alteration in the pulmonary function has not been observed, differently from what was found in the studies by Johnson et al. (2001)⁽²⁹⁾ and Forgiarini Junior et al. (2007)⁽³⁰⁾. However, two patients of the sample presented borderline CVF%_prev, of 69.9 and 70.6%_prev, and the first one presented the lowest LVEF of the sample (23%). According to Hosenpud et al. (1990) and Niset et al. (1993), alterations in the pulmonary function may be related to the increase of the cardiac area, in which the heart and lung may compete for space within the thoracic box^(31,32). Another possible hypothesis to explain alterations in the pulmonary function would be the pulmonary congestion observed in these patients as well as inspiratory muscular weakness, reducing the total pulmonary capacity^(29,33).

The BMI is directly associated with the total body fat and risk of chronic diseases, including the cardiovascular ones⁽³⁴⁾, being considered overweight a BMI of 25 to 29.9 and from 30 obesity⁽³⁵⁾. In the present study, the sample was compatible with overweight, a fact which has been demonstrated in other studies⁽³⁶⁾. Trezza (2004) verified that the incidence of obesity in chronic cardiac patients functional class III and IV is low, and that they tend to present variable levels of malnutrition and can reach cachexia in the final stages. It is also highlighted that it is more frequent to find obese individuals with severe HF in acute cardiopathies⁽³⁷⁾. Although the sample of the present study presents BMI with mean compatibility with overweight, it was not considered determinant to higher limitation to the ADL, since correlation of BMI with any of the assessed variables has not been observed.

Strong association between the closings which evaluated the limitation in the ADL (T_Glittre and LCADL scale) and the domain functional capacity of the questionnaire SF-36 was also found, with no correlation with the remaining domains. Rosen et al. (1997) observed the perception of quality of life related to the functional status in patients with HF and concluded that the capacity to perform the daily tasks and the dyspnea symptom were more important in the determination of quality of life, compared to the emotional suffering, socioeconomical status and cognitive function⁽³⁸⁾.

The present study was able to demonstrate the applicability of a scale (LACDL) and a test (T_Glittre) which were originally standardized to evaluate the limitation in ADL in patients with COPD, in a group of patients with HF, showing association with closings commonly used to assess the functional capacity in this population of cardiac rehabilitation, observing the proprieties in the tests in assessing. Once the functional limitation of this group of patients is observed, it is essential to classify them through simple, low cost and of easy application tests in the clinical practice. Thus, the dyspnea evaluation by specific instruments will be able to be used as a parameter of disease evolution and therapeutic response. Additionally, identifying the ADL which limit the most the patients with HF through the LCADL scale allows adapting them to their individual needs, reducing inactivity, dependence and especially improving their quality of life.

The performance capacity of the ADL are better predicted through global tests than through tests aiming at isolate components of the functional activity⁽³⁹⁾. The 6MWT, considered as a submaximal test, relatively intense for patients with HF and COPD though, is the mostly used test in the clinical field as in research protocols. This test, besides being simple and easy to be incorporated to the clinical practice, has also been able to reflect the limitation to perform the activities of daily living ⁽¹³⁾. Nevertheless, since this test consists of only a walking activity, it does not assess the limitation of the activities performed with upper limbs, which are generally very involved in the habitual ADL⁽¹⁷⁾. Based on this information, Skumlien et al. (2006) developed the ADL-Glittre test for individuals with COPD⁽¹⁹⁾. It consists of a more complete test in the ADL assessment since it presents activities which involve also the upper limbs. The T_Glittre has been reproducible and reliable, besides representing the functional capacity of the individuals with COPD. In the study by Skumlien et al. (2006), the individuals took from 2.57 to 14.47 min to complete the test, being the mean 4.67 min and the median 4.16 min⁽¹⁹⁾.

The present study may have represented some limitations. Firstly, the time of the disease evolution was not investigated, since this information was not made available in a standardized and reliable manner. The reduced number of the sample may have interfered in the statistical power and be responsible for the absence of some associations. However, important associations have been demonstrated, positively responding to primary issues present in the study.

Studies similar to this one or that have developed tests or instruments for assessment of ADL specific to patients with HF are not known so far, and there is even a shortage of information in the literature on the functional capacity related to ADL of these individuals. This study was a pioneer in demonstrating the association of these ADL assessment methods with the 6MWT, already widely used for the assessment of the functional capacity in individuals with HF. Further studies are necessary to assess the responsiveness of these evaluations to interventions, such as cardiac rehabilitation.

CONCLUSION

The results of this study let us conclude that the LCADL scale and the ADL-Glittre test are useful and applicable instruments to patients with HF functional class III and IV in the evaluation of the limitation to the ADL, presenting association with the LVEF, the distance completed in the 6MWT, the level of dyspnea and the quality of life.

ACKNOWLEDGEMENTS

The authors thank Doctor Ana Maria Oliveira Caixeta Nogueira, who was on call in case any medical episode occurred during the data collections; Doctor Almir Fernando Loureiro Fontes and Doctor Roberto Wagner Tomaz da Silva, who offered their data banks for triage and selection of patients of the sample.

REFERENCES

1. Bocchi EA, Braga FGM, Ferreira SMA, Rohde LEP, de Oliveira WA, de Almeida DR, et al. III Diretriz Brasileira de Insuficiência Cardíaca Crônica. Arq Bras Cardiol 2009;93:S1-71.
2. Russell SD, McNeer FR, Higginbotham MB. Exertional Dyspnea in Heart Failure: A Symptom Unrelated to Pulmonary Function at Rest or During Exercise. Am. Heart. J. 1998; 135:398-405.
3. Caroci AS, Laureau SC. Descriptors of dyspnea by patients with chronic obstrutive pulmonary disease versus congestive heart failure. Heart LungCaroci AS, Laureau SC. Descriptors of dyspnea by patients with chronic obstrutive pulmonary disease versus congestive heart failure. Heart Lung. 2004;33:102-10.
4. Sullivan MJ, Knight JD, Higgenbotham MB, Cobb FR. Relation between central and peripheral hemodynamics during exercise in patients with chronic heart failure. Muscle blood flow is reduced with maintenance of arterial perfusion pressure. Circulation. 1989;80:769-81.
5. Grazzini M, Stendardi L, Gigliotti F, Scano G. Pathophysiology of exercise dyspnea in healthy subjects and in patients with chronic obstutive pulmonary disease (COPD). Respir. Med. 2005;99:1403-12.
6. Marin JM, Carrizo SJ, Gascon M, Sanchez A, Gallego B, Celli BR. Inspiratory capacity, dynamic hyperinsuflation, breathlessness, and exercise performance during the six minute walk test in chronic obstructive pulmonary disease. Am. J. Crit. Care Med. 2001;163:1395-99.
7. Mosterd A, Hoes AW, de Bruyne MC, Deckers JW, Linker DT, Hofman A, et al. Prevalence of heart failure and left ventricular dysfunction in the general population: The Roterdam Study. Eur. Heart. J. 1999;20:447-55.
8. Bernard S, LeBlanc P, Whittom F, Carrier G, Jobin J, Belleau R, et al. Peripheral muscle weakness in patients with chronic obstructive pulmonary disease. Am. J. Respir. Crit. Care Med. 1998;158:629-34.
9. Maltais F, Sullivan MJ, LeBlanc P, Duscha BD, Schachat FH, Simard C, et al. Altered expression of myosin heavy chain in the vastus lateralis muscle in patients with COPD. Eur. Respir. J. 1999;13:850-54.
10. Gosker HR, van Mameren H, van Dijk PJ, Engelen MP, van der Vusse GJ, Wouters EF, et al. Skeletal muscle fibre-type shifting and metabolic profile in patients with chronic obstructive pulmonary disease. Eur. Respir. J. 2002;19:617-25.
¹¹
American Thoracic Society. Standardization of spirometry –1994 Update. Am J Respir Crit Care Med 1995;152:1107-36.
12. Oliveira GMM, Tasca R, Spanó LMAC, Nascimento ICS, Candau LAF, Luiz RR, et al. Concordância interobservador na avaliação da hipertrofia, da massa e da função ventricular esquerdas pelo ecocardiograma na hipertensão arterial sistêmica. Rev Socerj 2006;19:29-34.
13. American Thoracic Society. ATS Statement: guidelines for the six-minute walk test. Am J Respir Crit Care Med 2002;166:113-7.
14. Hajiro T, Nishimura K, Tsukino M, Ikeda A, Oga T, Izumi TA. Comparison of the level of Dyspnea vs Disease Severity in Indicating the Health-Related Quality of Life of Patients With COPD. Chest 166:1632-7.
15. Ciconelli RM, Ferraz MB, Santos W, Meinão I, Quaresma MR. Tradução para o língua inglesa e validação do questionário genérico de avaliação de qualidade de vida SF-36 (Brasil SF-36). Rev Bras Reumatol 1999;39:143-50.
16. Garrod R, Bestall JC, Paul EA, Wedzicha JA, Jones PW. Development and validation of a standardized measure of activity of daily living in patients with severe COPD: The London Chest Activity of daily living scale (LCADL). Respir Med 2000;94:589-96.
17. Carpes MF, Mayer AF, Simon KM, Jardim JR, Garrod R. Versão brasileira da escala London Chest Activity of daily living para uso em pacientes com doença pulmonar obstrutiva crônica. J Pneumol 2008;34:143-51.
18. Garrod R, Paul EA, Wedzicha JA. An evalution of the reliability and sensitivity of the London Chest Activity of Daily Living Scale. Respir Med 2002;96:725-30.
19. Skumlien S, Hagelund T, Bjørtuft O, Ryg MS. A field test of functional status as performance of activities of daily living in COPD patients. Respir Med 2006;100:316-23.
20. Enright PL, Sherrill DL. Reference equations for the six-minute walk in healthy adults. Am J Respir Crit Care Med 1998;158:1384-7.
21. Bittner V, Weiner DH, Yusuf S, Rogers WJ, McIntyre KM, Bangdiwala SI, et al. Prediction of mortality and morbility with a 6-min walk test in patients with left ventricular dysfunction. J Am Med Assoc 1993;270:1702-7.
22. Cahalin LP, Mathier M, Semigran MJ, Dec GW, DiSalvo TG. The 6-min walk test predicts peak oxygen uptake and survival in patients with advanced heart failure. Chest 1996;110:325-32.
23. Bestall JC, Paul EA, Garrod R, Garnham R, Jones PW, Wedzicha JA. Usefulness of the Medical Research Council (MRC) dyspnoea scale as a measure of disability in patients with chronic obstructive pulmonary disease. Thorax 1999;54:581-6.
24. Guimarães JI, Mesquita ET, Bocchi EA, Vilas Boas F, Montera MV, Moreira MCV, et al. Revisão das II diretrizes da sociedade brasileira da cardiologia para diagnóstico e tratamento da insuficiência cardíaca. Arq Bras Cardiol 2002;79:S1-30.
25. Negrão CE, Pereira AC. Cardiologia do exercício: do atleta ao cardiopata. Ed. Manole: São Paulo, 2006.
26. Hammond MD, Bauer KA, Sharp JT, Rocha RD. Respiratory muscle strength in congestive heart failure. Chest 1990;98:1091-4.
27. Sullivan MJ, Higginbotham MB, Cobb FR. Inceased exercise ventilation in patients with chronic heart failure: intact ventilatory control despite hemodynamic and pulmonary abnormalities. Circulation 1988;77:552-9.
28. Lipkin DP, Scriven AJ, Crake T, Poole-Wilson PA. Six minute walking test for assessing capacity in chronic heart failure. Br Med J 1986;292:653-5.
29. Johnson B, Olson LJ, O'Malley KA, Allison TG, Squires RW. Pulmonary function in patients with reduced left ventricular function. Chest 2001;120:1869-76.
30. Forgiarini Junior LA, Rublwski A, Garcia ARD, Tieppo J, Vercelino R, Dal Bosco A, et al. Avaliação da Força Muscular Respiratória e da Função Pulmonar em Pacientes com Insuficiência Cardíaca. Arq Bras Cardiol 2007;89:36-41.
31. Hosenpud JD, Stibolt TA, Atwal K, Shelley D. Abnormal pulmonary function specifically related to congestive heart failure: comparison of patients before and after cardiac transplantation. Am J Med 1990;88:493-6.
32. Niset G, Ninane V, Antoine M, Yernault JC. Respiratory dysfunction in congestive heart failure: correction after heart transplantation. Eur Respir J 1993;6:1197-201.
33. Meyer FJ, Zugck C, Haass M, Otterspoor L, Strasser RH, Kübler W. Inefficient ventilation and reduced respiratory muscle capacity in congestive heart failure. Basic Res Cardiol 2002;95:333-42.
34. Navarro AM, Stedille MS, Unamuno MRDL, Marchini JS. Distribuição da gordura corporal em pacientes com e sem doenças crônicas: uso da relação cintura-quadril e do índice de gordura do braço. Rev Nutr 2001;14:37-41.
³⁵
World Health Organization. Consultation on obesity. Obesity: preventing and managing the global epidemic. Geneva, Switzerland: WHO; 2000.
36. Consolim-Colombo FM, Atala MM. Prevenção e tratamento da insuficiência cardíaca no paciente hipertenso. Rev Soc Cardiol Estado 2004;14:55-67.
37. Trezza E. Insuficiência cardíaca: Individualização do tratamento. Rev Soc Cardiol Estado de São Paulo 2004;14:167-78.
38. Rosen RC, Contrada RJ, Gorkin L, Kostis JB. Determinants of perceived health in patients with left ventricular dysfunction: a strutural modeling analyses. Psychosomatic Med 1997;59:193-200.
39. Pitta F, Troosters T, Spruit MA, Probst VS, Decramer M, Gosselink R. Characteristics of physical activities in daily life in chronic obstructive pulmonary disease. Am J Respir Crit Care Med 2005;171:972-7.