Oxygen desaturation on the six-minute walk test and mortality in untreated primary pulmonary hypertension

Study population

Fifty-four patients diagnosed with PPH 1992–1997 in the University of Michigan Pulmonary Hypertension Center were evaluated. PPH was defined by a mean pulmonary artery pressure (mPAP) >25 mmHg after exclusion of secondary causes such as pulmonary embolus, collagen vascular disease, sleep apnoea, lung disease, and congenital, valvular, or other heart disease, with the exception of atrial septal defect without left to right shunt 12. One patient had portal-pulmonary hypertension. Seventeen patients were excluded for the following reasons: previous treatment with calcium channel blockers or intravenous (i.v.) epoprostenol, and New York Heart Association (NYHA) class IV or orthopaedic issues precluding the walk. Patients with pulmonary veno-occlusive disease or human immunodeficiency virus were also excluded.

The thirty-four eligible patients underwent a detailed examination, pulmonary function testing, and a standardized six-minute test with monitoring of arterial oxygen saturation (S_a,O2). Right heart catheterization with assessment of pulmonary vasodilator reserve was used to determine the best treatment strategy in all patients. Pulmonary vasodilator reserve was determined by the response to 5 min inhaled nitric oxide (80 parts per million) (as described by Ricciardi et al. 13) in 24 subjects, incremental doses of intravenous adenosine (as described by Schrader et al. 14) in 6 subjects, and incremental doses of short acting nifedipine (as described by Rich et al. 15) in seven subjects. Patients with pulmonary vasodilator reserve, defined as a decrease in mPAP and/or PVR by ≥20% with inhaled nitric oxide or i.v. adenosine, underwent a subsequent trial of short acting nifedipine 13. Those with pulmonary vasodilator reserve following short acting nifedipine were placed on sustained release nifedipine, and the remaining were treated with continuous i.v. epoprostenol.

Seven patients were treated with nifedipine only. In 23 patients the initial treatment was intravenous epoprostenol, and in four epoprostenol was utilized following deterioration on high dose nifedipine (nifedipine was discontinued). One patient died shortly after a double lung transplant. The mean±sd dose of nifedipine was 220±92 mg. Epoprostenol was administered via an indwelling Hickman catheter, initially titrated to symptom tolerance without hypotension. The usual starting dose was 4–6 ng·kg⁻¹·min⁻¹. The dose was adjusted regularly with the mean dosage increased by 1–2 ng·kg⁻¹·min⁻¹, every 2 weeks for the first 6 months, then monthly according to symptoms and side effects. Patients were encouraged to tolerate common side effects such as jaw claudication and flushing.

Standard treatment included digoxin (levels measured at three month intervals) and sodium warfarin, adjusted to an international normalized ratio of 2–3 with nifedipine and 1.5–2 with epoprostenol. Diuretics (furosemide and spironolactone) were used to control oedema and ascites. Patients <60 yrs of age were referred for lung transplant.

Pulmonary function

Pulmonary function tests were measured with a 1070 Hans Rudolf pneumotachograph (Medical Graphics Co, St. Paul, MN, USA) and corrected for temperature and barometric pressure 16. Arterial blood gases were drawn from the radial artery on room-air prior to the pulmonary function and six-minute walk tests, and measured by standard gas analysis (Radiometer, ABL 520, Radiometer America Inc., Westlake, OH, USA).

The six-minute walk test and arterial pulse oximetry

The six-minute walk was administered a minimum of 2 h after the pulmonary function test by a certified technician, unaware of the results, using a protocol similar to that of Sciurba et al. 9. Briefly, the patients walked on a level circular surface with a length of 42 m, with standardized instructions including to walk as quickly and comfortably possible for 6 min without running, and gently encouraged using set phrases every 30 seconds 7, 9, 17.

Cutaneous S_a,O2 was assessed at baseline and during the walk by a continuous pulse oximeter (Nellcor N-3000, Mallinckrodt Inc., Hazelwood, MO, USA) using the finger or ear. The test was stopped for safety purposes if the S_a,O2 dropped <86% with the exception of patients with an atrial level right to left shunt 18. The walk was repeated with oxygen supplementation in those with resting or exercise S_a,O2 <90% to determine the need and dosage for supplemental oxygen.

The baseline arterial oxygen saturation (S_a,O2-rest), the minimal exercise arterial oxygen saturation sustained for >10 s (S_a,O2-exercise), the change (decrease) during the walk (S_a,O2-rest − S_a,O2-exercise = ΔS_a,O2) and the distance walked were recorded and calculated.

Haemodynamic assessment

Right heart catheterization was performed via the internal jugular or femoral vein in the fasting state. A four-lumen (additional lumen for stiffening wire) balloon flotation catheter was used for thermodilution cardiac output (CO), and sampling of mixed venous oxygen saturation and pressures. Brachial artery pressure was measured by an automated noninvasive cuff using Doppler signals, or via the radial or femoral artery when systolic pressure was <100 mmHg. Mean pressures were derived electronically. The following haemodynamic parameters were measured and/or calculated: systolic, diastolic, and mean pulmonary artery pressures and right atrial pressure (sPAP, dPAP, mPAP, and mRAP, respectively), CO, pulmonary capillary wedge (PCW) and PVR (mPAP–PCW)/CO) in Wood units.

Statistical methods

Continuous variables are presented as mean±sd, and counts and percentages given for categorical variables. Categorical comparisons were performed by Chi-squared and continuous data by unpaired t-tests. The statistical significance level was set at p<0.05.

Survival analysis was used to analyse the time to death data from the time of initial diagnosis. The survival distribution was estimated using the Kaplan-Meier estimator with censoring of transplanted cases at time of lung transplant. The effects of covariates on survival time were tested using Cox regression. Because there were only nine deaths, one variable at a time was entered in the Cox model. Hazard ratios, the incremental risk or odds of death attributable to having versus not having a parameter, and corresponding confidence intervals, were computed. For continuous variables, hazard ratios are expressed in terms of meaningful units of measurement. The median follow-up time was estimated using the Kaplan-Meier method with censoring as the endpoint and deaths and time of lung transplant considered censored values.

Demographic and clinical parameters

Twenty-eight of the 34 patients were female. The mean age was 44.3±11.9 yrs (range 23–67 yrs). There was no age or sex difference between survivors and nonsurvivors. Seven were NYHA class II at baseline (2 nonsurvivors) and 27 NYHA class III (7 nonsurvivors). The mean time from initial symptoms to diagnosis was 17.8±13 months (median 12 months, range 1–60 months). The commonest symptom was dyspnoea on exertion (94%). Most patients had other symptoms including fatigue (21%), light-headedness (24%), palpitations (24%), oedema (18%), syncope (15%) and chest pain (6%).

Haemodynamic, pulmonary function, and blood gas parameters

The initial baseline haemodynamic parameters are summarized and displayed by NYHA class and survivors versus nonsurvivors in table 1⇓. The mRAP was 12.5±6.3 mmHg, mPAP 56.9±12.1 mmHg, CO 3.9±1.5 L·min⁻¹, and PVR 12.9±5.3 Wood units. There was no statistical difference in haemodynamic parameters between survivors and nonsurvivors or between NYHA class II and class III, with the exception of PVR, which was higher in nonsurvivors (15.5±6.0 Wood units versus 11.9±4.7 Wood units, p=0.04).

The pulmonary function tests were normal in 55% of patients. Thirty two per cent of patients had a restrictive pattern, 13% an obstructive pattern, and carbon monoxide diffusion capacity (D_L,CO) was <70% in 45% of patients. There was no sex difference in pulmonary function abnormalities. The majority of patients had one or more abnormalities in resting blood gases. Seventy-seven per cent of the patients were hypoxaemic (P_O2 <70 mmHg), 59% hypocapnic (P_CO2 <35 mmHg), and respiratory alkalosis (pH >7.44) was present in 56% of patients. The mean S_a,O2 determined from the arterial P_O2 after correcting for pH was 91.7±4.2%.

Exercise oximetry and distance on the six-minute walk test

The oximetry and distances walked are summarized in table 2⇓ and presented by NYHA class and survival. The peak distance walked was 275±155 m, less in males than females (183±80 m versus 290±160 m, p<0.05), and greater in NYHA class II than NYHA class III (352±196 m versus 255±141 m, p=0.05).

Only ten patients (29%) walked for the 6 min. Twenty-four (71%) were stopped due to an S_a,O2-exercise ≤86%. The S_a,O2-rest was <94% in eight patients (23.5%) with a mean of 94.8±4.7%, and at peak distance decreased below normal (decrease >4 %) in 27 patients (79%). The mean S_a,O2-exercise was 87.4±7.1%, a decrease of 8.5±4.5 %, which was worse in males than females (males=11.5±6.2% versus females= 7.8±4.0%, p=0.03). The eighteen patients who desaturated by <10% achieved a peak distance of <300 m, and 78% of them had no intracardiac shunt by contrast echo-Doppler.

Description of nonsurvivors

Two deaths occurred during the first year and seven during the second yr following diagnosis. In the nine nonsurvivors, treatment was epoprostenol in six; epoprostenol after nifedipine failure in two, and nifedipine in one. Two deaths occurred despite atrial septostomy and extra corporal membrane oxygenation (ECMO) support, and one following a double lung transplant.

Survival results

Twenty-five (74%) were considered survivors at the time of analysis. The median follow-up time was 26 months (12 months for deceased and 46 months for survivors). Figure 1⇓ is the Kaplan-Meier estimate of survival function in months from diagnosis. The 25th percentile of survival time was 21 months, with a median survival of >46 months.

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Fig. 1.—

Kaplan-Meier estimate of the survival function by months since diagnosis. Censored values (+) indicate the last known follow-up time for those patients still alive and transplanted.

The variables entered into the Cox model, to identify those related to survival time, are presented in table 3⇓. The only significant variables were S_a,O2-exercise, the decrease in S_a,O2-exercise (ΔS_a,O2) and PVR. There was a 26% increase in risk of death for each percent decrease in oxygen saturation, p=0.02. The significance of ΔS_a,O2 was not diminished after adjustment for haemodynamic variables (mRAP, mPAP, CO, PVR) or NYHA class. After adjustment for PVR, the effect of ΔS_a,O2 was essentially unchanged. There was a 16% increase in risk of death for each Wood unit increase in PVR (p=0.04). After adjusting for ΔS_a,O2, the effect of PVR was slightly diminished (p=0.06).

The total distance walked was associated with a better prognosis. An 18% reduction in risk of death occurred with each 50 m increase in distance (p=0.11). After adjusting for ΔS_a,O2 in the Cox regression, distance walked was not associated with death (p=0.3), but after adjusting for distance walked the ΔS_a,O2 remained significant (p<0.05). There was no significant relationship between slow vital capacity (SVC), forced vital capacity (FVC), the ratio of forced expiratory volume in one second to forced vital capacity (FEV₁/FVC), D_L,CO, or arterial pH, P_CO2, or P_O2 and mortality.

The presence of an intra-atrial right to left shunt (2 atrial septal defects and 4 patent foramen ovale) was not associated with death, and the increase in mortality associated with increasing exercise oxygen desaturation remained after adjusting for possible intracardiac shunting (p=0.056). Mortality also remained elevated after adjustment for NYHA class III, but the population size was insufficient to determine the relationship between S_a,O2-exercise and mortality in NYHA class II.

Implications of findings

The median survival time following diagnosis in the PPH National Institutes of Health Registry was 2.8 yrs 1. Epoprostenol and treatment based upon invasive haemodynamic parameters and pulmonary vasodilator reserve are major advances in the management of a nearly uniformly fatal disease. However, a group remains with an unfavourable response to treatment for whom transplantation is the only viable option 1, 21, 22. Therapeutic decisions are complicated by the inaccuracy of risk predictors, which have not been validated in the epoprostenol era 1, 22, 23. Considering the present findings, the clinical assessment of PPH patients for listing for transplant should include both the oxygen desaturation and distance achieved on the six-minute walk test 19.

Limitations of this study

While the size of this study is limited, that each patient was cared for with a standardized protocol by a multidisciplinary team in an experienced regional centre lends strength to the observations. The patients are typical of PPH in the US regarding clinical, pulmonary, and haemodynamic parameters, and available treatment options. Eligible patients were listed for lung transplant, but as elsewhere, the regional time for receiving a lung during the study period was over 18 months and precluded this option in eight of the nine deaths.

Methods used for the six-minute walk test vary, but the one employed in this series is similar to recent recommendations 9, 18. The standardized protocol requires three sessions to obtain optimal reproducibility 9, but the need to begin treatment precluded us from retesting. To reduce the impact of test variability, patients were educated with a short introductory walk and rested for ≥1 h. Importantly, while experience could impact the distance walked, it would have no influence on the degree of desaturation, which was the major significant outcome variable.

The present data suggest that a pretreatment six-minute walk test may be a useful adjunct in the functional evaluation of patients with primary pulmonary hypertension. The utility of arterial oxygen desaturation is independent of New York Heart Association (class II and III) and remains significant after correction for haemodynamic parameters. If the current findings can be validated in a larger multi-institutional cohort, more accurate and appropriate risk stratification and selection of patients for lung or heart-lung transplant in primary pulmonary hypertension will become feasible.