Gas exchange efficiency slopes to assess exercise tolerance in chronic obstructive pulmonary disease

BMC Pulmonary Medicine

Table 4 Incremental exercise variables in GOLD III-IV COPD patients divided into two groups by the desaturation level at peak exercise

	Non-desaturation group: 3% or less (n = 23)	Desaturation group: greater than 3% (n = 48)	p-value
At peak exercise
Dyspnea, Borg scale	5.7 (1.7)	6.2 (1.9) [6.5 (5.0; 8.0)]	0.2520
\(\rm{\dot V}\)_O2, mL⋅min⁻¹ ⋅ kg⁻¹	11.0 (3.0)	10.5 (1.9)	0.4505
R	1.02 (0.10) [1.02 (0.95; 1.07)]	1.00 (0.07)	0.7119
\(\rm{\dot V}\)_E, L ⋅ min⁻¹	30.7 (7.2)	26.6 (5.9)	0.0124
V_T, mL	1029 (240)	967 (238) [917 (794; 1082)]	0.2796
f_R, breaths ⋅ min^− 1	30.3 (5.2)	28.2 (5.2)	0.1058
T_I/Ttot	0.35 (0.06)	0.34 (0.04)	0.2806
\(\rm{\dot V}\)_E/\(\rm{\dot V}\)_O2	49.5 (8.1)	47.3 (7.0)	0.2310
\(\rm{\dot V}\)_E/\(\rm{\dot V}\)_CO2	48.9 (9.8) [48.0 (43.0; 52.0)]	47.3 (7.6) [46.0 (41.4; 51.0)]	0.6055
1−\(\rm{\dot V}\)_E/MVV, %	2.2 (15.9) [10.2 (−8.1; 17.8)]	11.3 (13.9) [12.7 (3.3; 20.3)]	0.2169
HR, beats ⋅ min^− 1	111 (17)	113 (17)	0.5799
HR/predicted maximum HR, %	78.8 (10.4)	80.6 (11.0)	0.5280
SpO₂, %	95 (2)	88 (5)	ND
O₂ pulse, mL ⋅ beats^− 1	6.0 (2.1)	5.1 (1.3)	0.0818
OUES	1086 (437)	1158 (444) [1129 (880; 1345)]	0.4317
ΔF_O2, %	2.52 (0.39)	2.63 (0.37)	0.2839
During exercise
ΔF_O2 max., %	2.68 (0.43)	2.73 (0.41)	0.6083
\(\rm{\dot V}\)_E-\(\rm{\dot V}\)_CO2 slope	41.7 (11.4) [39.1 (34.6; 44.8)]	39.6 (10.7) [39.3 (34.1; 42.8)]	0.5972
\(\rm{\dot V}\)_E/\(\rm{\dot V}\)_CO2 nadir	47.4 (8.1)	46.5 (7.3) [45.5 (41.0; 49.0)]	0.6387
Number of patients reaching AT, n (%)	16 (70)	35 (73)	0.7689
\(\rm{\dot V}\)_O2 at AT, mL ⋅ min⁻¹	515 (144)	464(78)	0.1109

Data are presented as means (standard deviation) or [medians (interquartile range: 25th percentile to 75th percentile)], unless otherwise stated. AT: anaerobic threshold; ΔF_O2: difference between inspired mean oxygen concentration and expired mean oxygen concentration; ΔF_O2 max.: the highest value during exercise; f_R: breathing frequency; HR: heart rate; O₂ pulse: \(\rm{\dot V}\)_O2/HR; predicted maximum HR: 220−age (y); ND: not done; OUES: oxygen uptake efficiency slope (see the Methods for details); R: gas exchange ratio; RCP: respiratory compensation point; T_I/Ttot: inspiratory duty cycle; \(\rm{\dot V}\)_CO2: carbon dioxide output; \(\rm{\dot V}\)_E: minute ventilation; and \(\rm{\dot V}\)_E/\(\rm{\dot V}\)_CO2-slope: the slope was determined by linear regression analysis of \(\rm{\dot V}\)_E to \(\rm{\dot V}\)_O2 obtained during exercise (see the Methods for details); \(\rm{\dot V}\)_E/\(\rm{\dot V}\)_CO2-nadir: the lowest value during exercise (see the Methods for details); \(\rm{\dot V}\)_O2: oxygen uptake; V_T: tidal volume. Estimated maximal voluntary ventilation (MVV) (L·min^− 1) was equal to forced expiratory volume in one second (FEV₁)×35

ISSN: 1471-2466