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Two chair test: a substitute of 6 min walk test appear cardiopulmonary reserve specific
  1. Parthasarathi Bhattacharyya1,
  2. Dipanjan Saha2,
  3. Mintu Paul2,
  4. Dhiman Ganguly3,
  5. Biswarup Mukherjee4,
  6. Sushmita Roy Chowdhury5,
  7. Sourav RoyChoudhury6,
  8. Pawan Agarwal5,
  9. Indranil Halder7,
  10. Debanu Ghosh Roy8 and
  11. Shuvanan Ray9
  1. 1Pulmonology, Institute of Pulmocare and Research, DG-8, Action area 1, New Town, Kolkata, India
  2. 2Pulmonology, Institute of Pulmocare and Research, New Town, India
  3. 3Pulmonology, Institute of Pulmocare and Research, Kolkata, India
  4. 4Associate Prof, Cardiology, NRS Medical College, Kolkata, India
  5. 5Consultant Pulmonologist, Apollo Hospital, Kolkata, India
  6. 6Institute of Reproductive Medicine, Salt lake, Kolkata, Kolkata, India
  7. 7Pulmonologist, JNM Hospital, Kalyani, Nadia, India
  8. 8Consultant Cardiologists, Peerless Hospital, Kolkata, India
  9. 9Consultant Cardiologist, Fortes Hospital Anandapur, Kolkata, West Bengal, India
  1. Correspondence to Dr Parthasarathi Bhattacharyya; parthachest{at}


Background A simple and efficient exercise test possible in a small space is welcome to supplement 6 min walk test (6MWT) that demands a 100 feet corridor to perform.

Methods The proposed two chair test (2CT) makes a person to sit and move five times between two chairs placed face to face at 5 feet apart and note the changes in pulse-rate (PR) and arterial oxygen saturation (SpO2) at every 10 s for 2 min after that. Comparison of the post-exercise measurements (PR and SpO2) with a repeat performance in same patients was done for reproducibility and doing the same after 6MWT and 2CT in another set of patients was meant for for acceptability. The statistical analysis was made on moment to moment change, mean maximal difference and mean cumulative difference for the measurements using p value, z-score, r value and principal component analysis (PCA).

Findings A total of 40 and 60 volunteers were included for testing reproducibility and acceptability. On both the sets, the difference in most of comparisons between the measured variable (PR and SpO2) showed the p values remaining insignificant (>0.05), and z-score being <1 SD of the corresponding other and the correlation coefficients (r) remaining excellent (>0.9). Furthermore, the PCA shows complete overlapping. The post-exercise changes did not corelate the walking distance in 6MWT.

Interpretation The proposed 2CT demands small space and appears reproducible and comparable with 6MWT in terms of its post-exercise impact on PR and SpO2. This novel test also appears more of cardiopulmonary reserve specific.

  • exercise

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Key messages

  • Can we make a simple and reproducible exercise test that can substitute 6 min walk test (6MWT)?

  • Two chair test can potentially substitute 6MWT.

  • It is simple, reproducible, comparable to 6MWT as regards the post-exercise recovery response in terms of pulse rate and saturation, and performable in a consultation room itself.


Six minutes walk test (6MWT) is a sub-maximal exercise test has been popular in the domain of cardio-respiratory diseases.1–16 It has been found helpful in pretreatment and post-treatment comparison in pulmonary rehabilitation,1 2 heart failure,3 chronic obstructive pulmonary disease (COPD),4 pulmonary hypertension,5 lung surgery6 7 and lung volume reduction.8 Even a single measurement of the test has been proved useful to understand the functional status of patients with several conditions, such as COPD,9 cystic fibrosis,10 heart failure11 and peripheral vascular disease,12 Finally, and most importantly, the test has been proved as a predictor of mortality in heart failure,13 COPD14 15 and primary pulmonary hypertension.16

The distance covered in the process is noted as 6 min walking distances (6MWD) that reflects global physiological response to exercise. Hence, it is not a cardio-respiratory specific exercise test to appreciate the ability or debility of a subject with symptoms of cardiopulmonary compromise. Moreover, the test demands an unobstructed indoor walking space of over 100 feet.17 This remains a logistic constraint in many situations. Hence, there is an unmet need of an easily performable but efficient substitute of 6MWT that require minimum space and less time to perform. There were efforts to evolve such substitutes as 3 min step test,18 shuttle walk test,19 20 sit to stand test but none could match the acceptance of 6MWT.21 This manuscript deals with another novel effort, the 2 chair test (2CT), meant to substitute the 6MWT.


Decision for and description of the test (2CT)

The prospective test was discussed in details at the planning stage itself. A team of pulmonologists and cardiologists (Kolkata PH group) finally decided in favour of 2CT (see later) on consensus after considering other feasible options been proposed. A pilot survey on its performance was also reviewed by the group. The group decided to establish the reproducibility of 2CT and also to compare it with 6MWT before finally accepting it. It was decided to have two sets of patients in this pilot observation (each having a numerical strength >30) for testing reproducibility and for comparison with 6MWT on available physiological parameters in a common and defined fashion to compare. A good comparability was taken as ‘acceptability’ of the test. The decision process took into consideration the space requirement, the ease of performing the test and the concerned safety issues.

The proposed test was termed as ‘two chair test’ (2CT). It involved a person to sit and walk between two chairs as an exercise and the physiological impact is quantitatively measured in terms of change in arterial oxygen saturation (SpO2) and pulse-rate (PR) counted post-exercise. Two ordinary wooden chairs (with flat back-rest, no hand rest, the sitting surface being 48 cm above the ground level) are to be placed face to face at a distance of 5 feet (from anterior to anterior ends) facing each other. First, a patient needs to sit on any one of them and rest for a few minutes till his PR and SpO2 remains stable continuously at least for 30 s. At this point, the baseline PR and the SpO2 are recorded and the patient is then asked to get up and walk to the other chair and sit there before getting up and returning to the previous chair. This is recorded as single movement. The patient is directed to make five similar movements otherwise continuously at his/her own pace with freedom to stop in between for dyspnoea or any physical discomfort or fatigue. There is a provision for premature termination of the test following the recommendation by American Thoracic Society on 6MWT for chest pain, intolerable dyspnoea, leg cramps, staggering, turning pale or ashen, and diaphoresis.17 In case of stopping in between or premature termination, it is mandatory to note the number of movements and details of events including the duration, reasons, status as PR, blood pressure and SpO2. The contraindications for the test were kept as the same for 6MWT.17 The patients were allowed to use their anti-angina or other drugs as routine without any modification of the schedule and emergency use of nitro-glycerine was allowed, if necessary. Oxygen supplementation was offered to those who required prolonged time (more than 30 s) to show signs of recovery from desaturation or had severe desaturation (SpO2 <80%). After completing the five movements PR and SpO2 were measured and recorded immediately and thereafter at an interval of every 10 s for next 2 min. The discussed commonalities and differences of 2CT with 6MWT as perceived by the group was detailed (see table 1).

Table 1

The comparison between 2CT and 6MWT

The decision for five movements were made on the basis of a pilot observation on six volunteers (patients) who were subjected to 4, 5 and 6 movements in 2CT and also the 6MWT with adequate rest (30 min) in between the performances. The cumulative changes in PR and SpO2 after five movements showed best corelationship (r=0.96, 0.95) with the same after 6MWT (table 2). Similarly, in another pilot observation on 20 volunteers, the duration taken for the exercise showed no effective correlation (r=−0.287, r=−0.284, respectively for change in pulse rate and SpO2) with the cumulative change in PR and SpO2.

Table 2

The comparison between 4, 5 and 6 movements in two chair test (2CT) with 6MWT in terms of cumulative changes in pulse-rate and SpO2

Two clinical assistants were trained to perform the test and allowed to do it independently on authorisation following satisfactory ratification of their performance as per the protocol on sham tests involving healthy volunteers and actual performance of the test on a few patients. The protocol decided was to do the tests serially as (1) two 2CTs for reproducibility and (2) a 2CT followed by 6MWT for comparison of the impact of 2CT to that of 6MWT. There was no provision to repeat the 6MWT to account for any learning effect or possible, though unlikely, fatigue effect from performing the 2CT. Provision of stand-by oxygen and proper resuscitative measures were kept ready. They remained blindfolded about the details of ailments of the subjects selected.

Selection of subjects

Subjects were randomly selected by a physician on the basis of convenience. Any subject with the presence shortness of breath as the major symptom could be recruited. The exclusion criteria for the test included unwillingness to give a written consent, acute myocardial infarct in the preceding 4 weeks or perceived cardiovascular instability on clinico-radiological assessment or gross left ventricular dysfunction in echocardiography, gross musculoskeletal problem as advanced osteoarthritis of knees, vertigo or neurological disorder affecting normal movement, baseline hypoxaemia at rest (SpO2 ≤90%), gross dyspnoea and fatigue from any reason, existing cardiac dysrhythmia and surviving on pacemaker beats, and any other systemic problems that can affect the exercise performance adversely.

Patient and public involvement

Subjects eligible for the study were directly informed regarding the need and rationality of the proposed exercise test by the consultant concerned before recruitment. The mode of performance and the risks involved were also elaborated before taking their consents. The result of the study was discussed with each of them soon after the performance by the same consultant.

Looking for reproducibility and comparison with 6MWT

Reproducibility of the test was verified on a set of patients by repeating the same test two times on the same day following a gap of at least 30 min or satisfactory stabilisation of PR and SpO2 whichever is later.

For comparison between 2CT and 6MWT, a different set of patients was selected. They underwent the 2CT first as per the protocol and then after subsequent stabilisation (having been debarred from any physical activities and no medication or beverage was allowed), 6MWT was done as per the standard protocol by the same set of clinical assistants in all of them. Following the performance of the 6MWT, the PR and the SpO2 were measured in protocol as is done after 2CT.

Statistical analysis

Statistical packages including, (GraphPad Prism, 7; Metboanalyst 4.0), were used for statistical analysis. Z-test, Student’s t-test and Spearman’s correlation were used to compare the two 2CT results as validation of reproducibility in the first set of volunteers. Further, post-exercise changes of PR and SpO2 following 2CT were compared with the same recorded after 6MWT. The comparisons were done in terms of ‘moment to moment’, ‘mean maximum difference’ (MMD) and ‘mean cumulative difference’ (MCD) of the changes. The MCD cumulative difference for each patient means the sum up of all the moment to moment differences for PR or SpO2. The Spearman’s correlation equation was also applied to see the relationship between the changes.

Principal component analysis (PCA), an unsupervised classification modelling method, aims to find the directions that best explain the variance in a data set (without referring to class labels) were also done. The data are summarised into much fewer variables which are weighted average of the original variables.


All the patients recruited for the study, completed five movements uneventfully. None of them needed supplemental oxygen or any medication. The results show reproducibility of the 2CT in all the 40 patients without any significant statistical difference between the initial and the repeat 2CT results (table 3). There was excellent correlations between the initial and repeat test in terms of PR (r=0.99) and SpO2 (r=0.98) (figure 1A,B). The PCA also shows complete overlapping of the samples from two independent tests (figure 2), confirming no significant difference between them.

Table 3

The results of repeat two chair test and assessment of reproducibility of the test

Figure 1

(A and B) Elaborates corelationship between the initial and the repeat tests as regards the changes in PR (A) and SpO2 (B) with the correlation coefficient (r) being 0.99 and 0.98 respectively signifying excellent reproducibility. (C and D) Similar corelationships (r being 0.97 and 0.91respectively) for post-exercise changes in pulse rate (PR) (C) and arterial oxygen saturation(SpO2) (D) between 2CT and 6MWT suggest excellent comparability. (2CT, two chair test, PR, pulse-rate; SpO2, arterial oxygen saturation).

Figure 2

(2A and 2B) Elaborates the co-relationship of the post-exercise mean cumulative chnages in pulse rate and arterial oxygen saturation (SpO2) with the distance covered in 6MWT (6 minute walk test)

The result of comparison between the post-exercise changes in the same parameters (PR and SpO2) in another set of patients (n=60) reflect that 2CT and 6MWT are well comparable (table 4). The correlation between the changes observed after the 2CT and 6MWT were excellent (r=0.97 for PR and r=0.91 for SpO2; figure 1C,D). The PCA also shows near complete overlapping of the samples from two independent tests (figure 3), confirming no significant difference between them.

Table 4

Comparison of post-exercise changes in 2CT and 6MWT in the same group of patients

Figure 3

2CT versus 2CT: score scatter plots from the principal component analysis shows no difference of clustering between the initial (red) and repeat (green) two chair test performances by the same patients; the result support that the reproducibility is near perfect. The pulse rate and SpO2 values collected at every 10 seconds were used for the analysis. (2CT, two chair test.SpO2, arterial oxygen saturation) .

The mean cumulative changes in PR and SpO2, both correlates poorly with the distance walked in 6MWT (r=0.09) and (r=0.09), respectively (figure 2A,B).


Our objective was to establish the reproducibility of 2CT and its comparability to 6MWT. The reproducibility has been established directly by four statistical end points as the p values <0.05, the z-scores remained close to zero for all the comparisons, excellent corelationships between the initial repeat PR and SpO2 (figure 1A,B) and complete overlapping of the results in PCA (figure 2).

The comparison between 2CT and 6MWT was possible as regards their impact on the post-exercise PR and SpO2 on same patients (n=60) that underwent both the exercises. The same statistical parameters of comparison as p value and z-score (table 4), r (figure 1C,D) and PCA overlapping (figure 3) are again suggestive of excellent similarity between the two sets of results. Presuming the mean change of any measurement after 6MWT as reference, the values of the same measurement in 2CT falling within 1 SD of the former suggests an acceptable quantitative similarity. Thus, the observed z-scores close to 0 or smaller than 1 SD have proved the excellent comparability in between 2CT and 6MWT as regards the measured post-exercise impact. Again, the excellent corelationship (r=0.97 and r=0.91, respectively) for PR and SpO2 (figure 1C,D) suggest similar trend of change for them. This comparability between the two tests again endorses the reproducibility of 2CT indirectly since 6MWT itself is found to be highly and even better reproducible than forced expiratory volume in 1 s.22 23 The observation is unlikely to have been influenced by any change in the physiological status as both the tests were done on the same patients on the same day within 30 min of each other without any exercise, feeding or extra medication in between.

6MWT, a globally accepted and practiced test, was preceded by 12 min walk by Balke in early 60 s to evaluate functional capacity.24 25 It was successful for assessing physical fitness of a healthy person and functional capacity of patients of chronic bronchitis.25 26 The 6MWT was introduced later as a better tolerated test; and a better marker of the capacity for daily activities.22 27

Being sub-maximal, both 2CT and 6MWT integrate global physiological response of all the systems involved in exercise (pulmonary, cardiac, circulatory, haematological, and neuromuscular, etc). However, while 6MWT marks the distance walked, the 2CT takes into account the post exercise changes of PR and SpO2 for 2 min.

The walking distance is likely contributed by some other factors than those that determine the changes in PR and the SpO2. This is apparent from the walking distance not correlating well to the MCD (mean cumulative change) of PR and SpO2 (figure 4A,B). Since PR and SpO2 relate to cardiopulmonary status both at rest and following exercise, their measurements in 2CT, therefore, reflect the recovery response of the cardiopulmonary stress been imposed by the exercise. Hence, the measurements made in 2CT are likely reflective of the equilibrium between the cardiopulmonary reserve and the uniformly imparted cardiopulmonary stress. The 2CT, therefore, needs to be ratified with standard physiological assessment parameters of cardiopulmonary exercise test. The inclusion of other variables as the dyspnoea status, quality of life, lung function and other invasive or non-invasive physiological measurements may turn useful.

Figure 4

2CT versus 6MWT: score scatter plots in principal component analysis (PCA) show similar and overlapping clustering between the 2CT (red) and 6MWT (green) of the same patients supporting the fact that the two tests are highly comparable. Pulse rate and atrerial oxygen saturation (SpO2) values from periodic intervals were used for the analysis as described in the protocol.

The post-exercise change in PR and SpO2 are important. The exercise induced desaturation (measured just before and immediately following exercise) has been found related to poor lung function status, resting oxygen saturation and increased mortality in COPD.28 The heart rate recovery (difference between heart rate at peak exercise and following 1 min of termination of 6MWT) in patients with heart failure (irrespective of ejection fraction) has been found to be a more powerful prognostic indicator than the 6MWD as far as major cardiac events are concerned on longitudinal follow-up.29 Therefore, the post-exercise measurements of PR and SpO2 may be proved useful both in health and disease.

Some of our patients had delayed recovery beyond 2 min. This phenomenon may have useful physiological significance and should be investigated adequately. A repeat test could reaffirm the revelation for both validation and comparison. Similarly, the protocol should have included a cross over attempt with 6MWT followed by 2CT to nullify the questionable influence of possible fatigue out of the first performance although we allowed adequate rest between the two and the baseline state before the tests were similar as regards the parameters noted.

The prospect of the test (2CT) needs attention and research. The assessment of deviation and the pattern of changes including the recovery response may be useful for diagnosis of poor cardiopulmonary reserve from a disease or its complications or presence of comorbidities. It can also reflect the impact of an intervention longitudinally. We have already used the concept of measuring the maximum deviation of SpO2 from baseline (‘desaturation max’) for treatment decision in patients of COPD-pulmonary hypertension successfully.30 The test should be applied to normal population of different age groups in both the sexes to make a normal range to compare the abnormal results. Since the test requires a small space, it can be done at bedside and be used for real-time tele-appreciation of patients’ status. It is a simple, repeatable, reproducible and well-tolerated test demanding less logistic resource and cardiopulmonary reserve specific. A repeat performance of the test may prove useful to follow a diseased. The test demands further validation in different disease states.



  • Contributors All authors (PB, DS, MP, DG, BM, SushmitaRC, SouravRC, PA, IH, DGR, SR) contributed to planning, conduct, reporting, conception and design, analysis and interpretation of data for this manuscript.

  • Funding The authors have not declared a specific grant for this research from any funding agency in the public, commercial or not-for-profit sectors.

  • Competing interests None declared.

  • Patient consent for publication Not required.

  • Ethics approval The study was approved by the Institutional Ethics Committee (DCGI approved IRB (IEC) ECR/159/Inst/WB/2013/RR-16 issued under Rule 122DD of the Drugs and Cosmetics Rules 1945 dated 21 February 2017). The recruitment was done from outpatient department of the institute following procurement of a proper written consent.

  • Provenance and peer review Not commissioned; externally peer reviewed.

  • Data availability statement All data relevant to the study are included in the article or uploaded as supplementary information.