Alcides Rocha scite author profile

Exercise ventilation (') relative to carbon dioxide output (' ) is particularly relevant to patients limited by the respiratory system, those with chronic obstructive pulmonary disease (COPD). High'-' (poor ventilatory efficiency) has been found to be a key physiological abnormality in symptomatic patients with largely preserved forced expiratory volume in 1 s (FEV). Establishing an association between high '-' and exertional dyspnoea in mild COPD provides evidence that exercise intolerance is not a mere consequence of detraining. As the disease evolves, poor ventilatory efficiency might help explaining "out-of-proportion" breathlessness (to FEV impairment). Regardless, disease severity, cardiocirculatory co-morbidities such as heart failure and pulmonary hypertension have been found to increase '-' In fact, a high '-' has been found to be a powerful predictor of poor outcome in lung resection surgery. Moreover, a high '-' has added value to resting lung hyperinflation in predicting all-cause and respiratory mortality across the spectrum of COPD severity. Documenting improved ventilatory efficiency after lung transplantation and lung volume reduction surgery provides objective evidence of treatment efficacy. Considering the usefulness of exercise ventilatory efficiency in different clinical scenarios, the '-' relationship should be valued in the interpretation of cardiopulmonary exercise tests in patients with mild-to-end-stage COPD.

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Excess Ventilation in Chronic Obstructive Pulmonary Disease–Heart Failure Overlap. Implications for Dyspnea and Exercise Intolerance

Rocha¹,

Arbex²,

Sperandio³

et al. 2017

Am J Respir Crit Care Med

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Abnormal patterns of response to incremental CPET

Neder¹,

Berton²,

Rocha³

et al. 2018

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Ventilatory Inefficiency and Exertional Dyspnea in Early Chronic Obstructive Pulmonary Disease

et al. 2017

Annals ATS

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Exertional dyspnea is present across the spectrum of chronic obstructive pulmonary disease (COPD) severity. However, without realizing it themselves, patients may decrease daily physical activity to avoid distressing respiratory sensations. Dyspnea also may be associated with deconditioning. Cardiopulmonary exercise testing can uncover exertional dyspnea and its physiological determinants in patients with preserved or only mildly reduced FEV. Dyspnea in mild COPD can largely be explained by increased "wasted" ventilation in the physiological dead space, which heightens the drive to breathe and worsens the inspiratory mechanical constraints. During incremental exercise testing, this is readily identified as an excessive ventilation-to-metabolic demand, that is, a high ventilation ([Formula: see text]e) to carbon dioxide output ([Formula: see text]co) relationship. Linking increases in [Formula: see text]e/[Formula: see text]co to exertional dyspnea may provide objective evidence that a patient's poor exercise tolerance is not just a consequence of deconditioning. This information should prompt a proactive therapeutic approach to increase the available ventilatory reserve by, for example, giving inhaled bronchodilators. Considering that the structural determinants of ventilatory inefficiency (early emphysema, ventilation-perfusion mismatching, and microvascular disease) may progress despite only modest changes in FEV, serial [Formula: see text]e/[Formula: see text]co measurements might also prove valuable to track disease progression in these symptomatic patients.

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Clinical and Physiologic Implications of Negative Cardiopulmonary Interactions in Coexisting Chronic Obstructive Pulmonary Disease-Heart Failure

Neder

Rocha

Berton

et al. 2019

Clinics in Chest Medicine

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Alcides Rocha

Physiological and clinical relevance of exercise ventilatory efficiency in COPD

Excess Ventilation in Chronic Obstructive Pulmonary Disease–Heart Failure Overlap. Implications for Dyspnea and Exercise Intolerance

Abnormal patterns of response to incremental CPET

Ventilatory Inefficiency and Exertional Dyspnea in Early Chronic Obstructive Pulmonary Disease

Clinical and Physiologic Implications of Negative Cardiopulmonary Interactions in Coexisting Chronic Obstructive Pulmonary Disease-Heart Failure

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