Simplicity and Complexity of the Six-Minute Walk Test

Heart Failure; Bronchitis, Chronic; Walk Test; Running; Health Status Indicators; Reference Standards.

Walking and running tests were originally developed to evaluate and estimate aerobic physical fitness of healthy individuals and correlate it with maximal aerobic power (peak VO 2 ).Balke, in the sixties, followed by Cooper and his 12-minute test, used to evaluate physical performance in healthy subjects, motivated, according to them, by the need of field tests for screening of large populations.These methods showed good correlation with laboratory measurements of aerobic capacity (peak VO 2 and anaerobic threshold). 1 In 1976, McGavin et al., 2 adapted the Cooper test to an indoor modality of 12-minute walk test to estimate effort tolerance in patients with chronic bronchitis.However, application of this test in clinical conditions was limited by the low functional capacity or low capacity of most patients to maintain a predetermined effort for 12 minutes.In 1982, Butland et al., 3 started to use shorter exercise periods (6 minutes) in the same population.In these tests, subjects were instructed to walk from one end to the other of a hospital corridor during a six-minute period.The distance covered during this time was then registered.The six-minute walk test (6MWT) was then created; originally used in lung disease patients and then in several randomized clinical trials for evaluation of functional, therapeutic and prognostic factors of heart failure (HF) patients. 4e 6MWT has lower personal and technical costs and is easy to perform.More importantly, the walking intensity required during the test is similar to that of everyday day activities, reflecting their ADL.In addition, the intensity of the exercise is determined by the own patient, which is an additional advantage for those with some physical limitations who would not tolerate well the maximum 30-minute CPET.The 6MWT is more reproducible than questionnaires and has been able to detect little, but clinically meaningful changes in patients' functional capacity. 5 The test can predict the prognosis in HF patients and has been used as an instrument to evaluate the outcome of many interventions. 5Absolute and relative contraindications of the 6MWT are the same of those reported for the maximal effort test.
Therefore, the 6MWT has been more and more used as an alternative to evaluate functional capacity in patients with HF.The SOLVD showed that the 6MWT is a safe method, and the distance covered during the test has predictive value for mortality and hospitalization rates. 4The distance covered is also an independent predictor of mortality and rehospitalizations in HF patients.Studies have reported that distances ≤ 300 meters have the worst prognosis in these patients. 6ostagno et al., 6 showed that event-free survival rates were significantly lower (62%) in patients who walked a distance shorter than 300 meters, as compared with those who walked an intermediate distance (300-450 meters) and high-performance patients (> 450 metros).In severe HF, a distance < 210 meters was associated with a higher six-month mortality (50% vs 20%) than longer distances.

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There is a real possibility of more severe patients perform the 6MWT near or above the first threshold, which is reinforced by its correlation with the VO 2 of the anaerobic threshold and of the VE/VCO 2 slope, as demonstrated in studies using gas analyzers during the 6MWT. 7The authors have found mean relative peak VO 2 ≥ 85% of CPET in HF patients, similar to a Brazilian study. 8Based on these findings, the 6MWT has been suggested to be used for prescription of the training intensity in this population. 9spite its high sensitivity, the 6MWT can be influenced by several factors, including motivational and learning factors.However, with adequate standardization of the method, the test can be highly reproducible.Possible sources of variability caused by the procedure itself should be controlled, following guidelines and quality-control programs. 5ny factors have been reported to influence the 6MWT results, including age, sex, height (which influences the step length), body mass (obesity), muscle mass, balance, reduced strength and musculoskeletal changes.All these are potentially determinants of the distance covered. 5rais e Rassi, 10 evaluating determinants of the 6MWT in HF patients, showed important data in a Brazilian population.The authors correlated the distance covered in the 6MWT with clinical and socioeconomical parameters, comorbidity index, quality of life index, physical activity, depression and anxiety, respiratory functional tests, respiratory muscle strength, and handgrip strength.The authors also reported that age, female sex, vital capacity and dyspnea index for the ADL as the main negative predictors for performance of the ADL.Although a large percentage of patients had chagasic cardiomyopathy (43%), their findings corroborate previous studies on patients with HF caused by other conditions.For example, the American Thoracic Society guidelines 5 reported that these factors, in addition to the severity of underlying disease, musculoskeletal problems and cognitive impairment can reduce the distance covered in the 6MWT.
The 6MWT is here to stay.Its potential use in functional assessment, in therapeutic interventions and in prognostic estimation should be further explored in HF patients.
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