Search Results (15)

Purpose: Post-COVID-19 syndrome (PCS) is characterized by low cardio-respiratory fitness (CRF). Recent research focuses on the role of autonomic nervous system dysfunction (AD) as a potential contributor to the diminished exercise performance. The aim is to determine the prevalence of AD—chronotropic insufficiency (CI) and abnormal heart rate recovery (HRR) in long-term PCS subjects and to analyse their association with exercise capacity. Patients and Methods: A total of 192 subjects with a history of SARS-CoV-2 infection were included. Chronic Fatigue Syndrome Questionnaire (CFSQ) was applied, and two symptomatic and asymptomatic emerged. Forty-seven had post-COVID complaints, persisting up to thirty months post-acute episode. CI and HRR were determined during the cardio-pulmonary exercise test (CPET). Results: Symptomatic subjects were divided into mild (20) and moderate-severe (27), depending on the CFSQ score; forty-eight PCS subjects without complaints served as a control group. Subjects with moderate-severe PCS showed lower peak VO2 (24.13 ± 6.1 mL/min/kg vs. 26.73 ± 5.9 mL/min/kg, vs. 27.01 ± 6.3 mL/min/kg), as compared to the mild/asymptomatic subjects. Diminished physical activity was established in 10 (37%) of the moderate-severe, 7 (35%) of the mildly symptomatic and 14 (29%) of the asymptomatic groups. The occurrence of AD in the mild/moderate-severe and control groups were, respectively, CI 35% vs. 81.5% vs. 12.5%. Abnormal HRR was, respectively, 20% vs. 33% vs. 8%. None of the subjects had depleted breathing reserve, dynamic hyperinflation, exercise bronchospasm or desaturation. Neither CI nor abnormal HRR correlated to peak O2. Conclusions: AD is present among long-term PCS subjects and may limit the cardio-respiratory response to exercise but is not independently associated with it. Assuming the multiorgan ANS innervation, it is highly probable that AD has diverse pathological pathways in the various PCS phenotypes and contributes differently by cerebral, cardiovascular, respiratory, peripheral or mixed pathways to the diminished neuro-cognitive and physical performance. Full article

Chronic obstructive pulmonary disease (COPD) is a clinical syndrome that presents as airflow limitation with poor reversibility accompanied by dynamic hyperinflation of the lung. It is a complex disease with chronic inflammatory airway changes caused by exposure to noxious particles or gases, such as cigarette smoke. The disease involves persistent inflammation and oxidative stress, perpetuated by frequent exacerbations. The prevalence of COPD is on the rise, with the prediction that it will be the leading cause of morbidity and mortality over the next decade. Despite the global burden of COPD and its associated morbidity and mortality, treatment remains limited. Although the understanding of the pathogenesis of COPD has increased over the last two decades, molecular approaches to develop new therapies for the treatment of COPD have lagged. Here, we review the molecular approaches that have the potential for developing novel therapies for COPD. Full article

Background and Objectives: In adults, 150 to 300 min a week of moderate-intensity physical activity is the recommended daily level to maintain or improve fitness. In subjects with chronic obstructive pulmonary disease (COPD), reductions in daily physical activity (DPA) amounts are related to clinically significant outcomes. In this study, we ascertain whether or not COPD patients, when clustered into active (DPA ≥ 30 min a day, 5 days a week) and inactive (DPA < 30 min a day, 5 days a week), may differ in exercise capacity, as assessed by a cardiopulmonary exercise test (CPET). Materials and Methods: A large sample of clinically stable COPD patients was retrospectively recruited and then underwent spirometry and an incremental ramp protocol 5–15 watts/min CPET. DPA was assessed by a questionnaire. Results: A total of 83 (female 25%, age range 41–85 y) active and 131 (female 31%, age range 49–83 y) inactive participants were enrolled. They were similar in age, sex distribution, body mass index (BMI) and in spirometry. The two groups were significantly different in dyspnea on exertion, as assessed by the modified Medical Research Council (mMRC), and in cardio-metabolic parameters, but not in ventilatory ones, as confirmed by the CPET. Conclusions: COPD patients experiencing physical activity of at least 30 min a day, 5 days a week, showed a greater exercise capacity and an improved cardiovascular response to exercise, when compared to inactive ones. Active and inactive participants did not differ in terms of airflow obstruction severity as well as in dynamic hyperinflation and ventilatory inefficiency during exercise. This study further suggests the benefits of regular physical activity in COPD. Full article

Severe asthma exacerbations, including near-fatal asthma (NFA), have high morbidity and mortality. Mechanical ventilation of patients with severe asthma is difficult due to the complex pathophysiology resulting from severe bronchospasm and dynamic hyperinflation. Life-threatening complications of traditional ventilation strategies in asthma exacerbations include the development of systemic hypotension from hyperinflation, air trapping, and pneumothoraces. Optimizing pharmacologic techniques and ventilation strategies is crucial to treat the underlying bronchospasm. Despite optimal pharmacologic management and mechanical ventilation, the mortality rate of patients with severe asthma in intensive care units is 8%, suggesting a need for advanced non-pharmacologic therapies, including extracorporeal life support (ECLS). This review focuses on the pathophysiology of acute asthma exacerbations, ventilation management including non-invasive ventilation (NIV) and invasive mechanical ventilation (IMV), the pharmacologic management of acute asthma, and ECLS. This review also explores additional advanced non-pharmacologic techniques and monitoring tools for the safe and effective management of critically ill adult asthmatic patients. Full article

Dyspnoea is often the most distressing symptom described by people with a chronic respiratory condition. The traditional biomedical model of neuromechanical uncoupling that explains the physiological basis for dyspnoea is well accepted. However, in people with chronic obstructive pulmonary disease (COPD), measures that are linked with neuromechanical uncoupling are poorly related to the restriction in activity during daily life attributed to dyspnoea. This suggests that activity restriction that results from dyspnoea is influenced by factors other than expiratory airflow limitation and dynamic pulmonary hyperinflation, such as the ways people perceive, interpret and respond to this sensation. This review introduces the common-sense model as a framework to understand the way an individual’s lay beliefs surrounding sensations can lead to these sensations being perceived as a health threat and how this impacts their emotional and behavioural responses. The aim is to provide insight into the nuances that can shape an individual’s personal construct of dyspnoea and offer practical suggestions to challenge unhelpful beliefs and facilitate cognitive re-structuring as a pathway to reduce distress and optimise health behaviours and outcomes. Full article

Background: Lung function deterioration in cystic fibrosis (CF) is typically measured by a decline in the forced expiratory volume in one second (FEV₁%), which is thought to be a late marker of lung disease. Dynamic hyperinflation (DH) is seen in obstructive lung diseases while exercising. Our aim was to assess whether DH could predict pulmonary deterioration in CF; a secondary measure was the peak VO₂. Methods: A retrospective study was conducted of people with CF who performed cardiopulmonary exercise tests (CPETs) during 2012–2018. The tests were classified as those demonstrating DH non-DH. Demographic, genetic, and clinical data until 12.2022 were extracted from patient charts. Results: A total of 33 patients aged 10–61 years performed 41 valid CPETs with valid DH measurements; sixteen (39%) demonstrated DH. At the time of the CPETs, there was no difference in the FEV₁% measurements between the DH and non-DH groups (median 83.5% vs. 87.6%, respectively; p = 0.174). The FEV₁% trend over 4 years showed a decline in the DH group compared to the non-DH group (p = 0.009). A correlation was found between DH and the lung clearance index (LCI), as well as the FEV₁% (r = 0.36 and p = 0.019 and r = −0.55 and p = 0.004, respectively). Intravenous (IV) antibiotic courses during the 4 years after the CPETs were significantly more frequent in the DH group (p = 0.046). The peak VO₂ also correlated with the FEV₁% and LCI (r = 0.36 and p = 0.02 and r = −0.46 and p = 0.014, respectively) as well as with the IV antibiotic courses (r = −0.46 and p = 0.014). Conclusions: In our cohort, the DH and peak VO₂ were both associated with lung function deterioration and more frequent pulmonary exacerbations. DH may serve as a marker to predict pulmonary deterioration in people with CF. Full article

Dynamic hyperinflation is reported as a potential risk during high-frequency oscillatory ventilation (HFOV), and its existence has been documented both by physical models and by CT. The aim of this study is to determine the suitability of electrical impendence tomography (EIT) for the measurement of dynamic lung hyperinflation and hypoinflation during HFOV. Eleven healthy pigs were anaesthetized and ventilated using HFOV. The difference between the airway pressure at the airway opening and alveolar space was measured by EIT and esophageal balloons at three mean airway pressures (12, 18 and 24 cm H₂O) and two inspiratory to expiratory time ratios (1:1, 1:2). The I:E ratio was the primary parameter associated with differences between airway and alveolar pressures. All animals showed hyperinflation at a 1:1 ratio (median 1.9 cm H₂O) and hypoinflation at a 1:2 (median –4.0 cm H₂O) as measured by EIT. EIT measurements had a linear correlation to esophageal balloon measurements (r² = –0.915, p = 0.0085). EIT measurements were slightly higher than that of the esophageal balloon transducer with the mean difference of 0.57 cm H₂O. Presence of a hyperinflation or hypoinflation was also confirmed independently by chest X-ray. We found that dynamic hyperinflation developed during HFOV may be detected and characterized noninvasively by EIT. Full article

We investigated physiological responses and exercise capacity in sedentary young smokers during sub-maximal and maximal test and its impact on dyspnea and exercise intolerance. Fifty sedentary male smokers and non-smokers (age: 24 ± 1 years., weight: 71 ± 9 kg, height: 177.3 ± 4.8 cm, body mass index: 22.6 ± 2.5 kg/m²) underwent two visits with pulmonary function tests, breathing pattern, and inspiratory capacity measurement at rest and during sub-maximal and maximal exercise. Smokers show reduced exercise capacity during six minutes walk test (6-MWT) with decreased walked distance (p < 0.001) and inspiratory capacity (p < 0.05). During cardiopulmonary exercise test (CPET), smokers had higher minute ventilation VE for a given submaximal intensity (p < 0.05) and lower minute ventilation at maximal exercise (p < 0.001). End expiratory lung volume was significantly lower in sedentary smokers at rest (p < 0.05), at ventilatory threshold during exercise (p < 0.05), but not during peak exercise. End inspiratory lung volume was significantly lower in smokers at rest (p < 0.05) and ventilatory threshold (p < 0.05). Cigarette smoking alters lung function during submaximal and maximal exercise. This alteration is manifested by the development of dynamic hyperinflation contributing to exercise capacity limitation. Full article

In chronic obstructive pulmonary disease (COPD), exertional dyspnea, which increases with the disease’s progression, reduces exercise tolerance and limits physical activity, leading to a worsening prognosis. It is necessary to understand the diverse mechanisms of dyspnea and take appropriate measures to reduce exertional dyspnea, as COPD is a systemic disease with various comorbidities. A treatment focusing on the motor pathophysiology related to dyspnea may lead to improvements such as reducing dynamic lung hyperinflation, respiratory and metabolic acidosis, and eventually exertional dyspnea. However, without cardiopulmonary exercise testing (CPET), it may be difficult to understand the pathophysiological conditions during exercise. CPET facilitates understanding of the gas exchange and transport associated with respiration-circulation and even crosstalk with muscles, which is sometimes challenging, and provides information on COPD treatment strategies. For respiratory medicine department staff, CPET can play a significant role when treating patients with diseases that cause exertional dyspnea. This article outlines the advantages of using CPET to evaluate exertional dyspnea in patients with COPD. Full article

A device called FeelBreathe (FB)^® was designed, developed, and patented for inspiratory muscle training. The main aim was to determine the acute responses on lung ventilation, gas exchange, and heart rate during exercise in patients with chronic obstructive pulmonary disease (COPD) with and without the use of FB. In this study, a randomized cross-over trial was performed with 18 men diagnosed with COPD (FEV₁ between 30% and 70% of its predicted value). Each participant randomly conducted two trials with 30 min of rest between them with the same protocol on a treadmill for 10 min at a constant rate of 50% of VO_2peak. Each test was performed randomly and in a crossover randomized design in two different conditions: (1) oronasal breathing; and (2) nasal breathing with FB (nasal ventilatory flow restriction device). It was observed that FB had positive effects on dynamic hyperinflation, breathing pattern, and breathing efficiency, with higher expiratory and inspiratory time. Despite these differences, blood oxygen saturation percentage, oxygen uptake, and heart rate showed a similar response for both conditions during exercise. The results suggest that exercise performed with FB improved ventilatory responses compared to the oronasal mode in COPD patients. This new tool could be used during most daily tasks and exercise programs. Full article

Physiological dead space volume (V_D) and dynamic hyperinflation (DH) are two different types of abnormal pulmonary physiology. Although they both involve lung volume, their combination has never been advocated, and thus their effect and implication are unclear. This study aimed (1) to combine V_D and DH, and (2) investigate their relationship and clinical significance during exercise, as well as (3) identify a noninvasive variable to represent the V_D fraction of tidal volume (V_D/V_T). Forty-six male subjects with chronic obstructive pulmonary disease (COPD) and 34 healthy male subjects matched for age and height were enrolled. Demographic data, lung function, and maximal exercise were investigated. End-expiratory lung volume (EELV) was measured for the control group and estimated for the study group using the formulae reported in our previous study. The V_D/V_T ratio was measured for the study group, and reference values of V_D/V_T were used for the control group. In the COPD group, the DH_peak/total lung capacity (TLC, DH_peak%) was 7% and the EELV_peak% was 70%. After adding the V_Dpeak% (8%), the V_DDH_peak% was 15% and the V_DEELV_peak% was 78%. Both were higher than those of the healthy controls. In the COPD group, the V_DDH_peak% and V_DEELV_peak% were more correlated with dyspnea score and exercise capacity than that of the DH_peak% and EELV%, and had a similar strength of correlation with minute ventilation. The V_Tpeak/TLC (V_Tpeak%), an inverse marker of DH, was inversely correlated with V_D/V_T (R² ≈ 0.50). Therefore, we recommend that V_D should be added to DH and EELV, as they are physiologically meaningful and V_Tpeak% represents not only DH but also dead space ventilation. To obtain V_D, the V_D/V_T must be measured. Because obtaining V_D/V_T requires invasive arterial blood gases, further studies on noninvasive predicting V_D/V_T is warranted. Full article

During exercise, non-invasive ventilation (NIV) prolongs endurance in chronic obstructive pulmonary disease (COPD), but routine use is impractical. The VitaBreath device provides portable NIV (pNIV); however, it can only be used during recovery. We assessed the effect of pNIV compared to pursed lip breathing (PLB) on exercise tolerance. Twenty-four COPD patients were randomised to a high-intensity (HI: 2-min at 80% peak work rate (WRpeak) alternated with 2-min recovery; n = 13), or a moderate-intensity (MOD: 6-min at 60% WRpeak alternated with 2-min recovery; n = 11) protocol, and within these groups two tests were performed using pNIV and PLB during recovery in balanced order. Upon completion, patients were provided with pNIV; use over 12 weeks was assessed. Compared to PLB, pNIV increased exercise tolerance (HI: by 5.2 ± 6.0 min; MOD: by 5.8 ± 6.7 min) (p < 0.05). With pNIV, mean inspiratory capacity increased and breathlessness decreased by clinically meaningful margins during recovery compared to the end of exercise (HI: by 140 ± 110 mL and 1.2 ± 1.7; MOD: by 170 ± 80 mL and 1.0 ± 0.7). At 12 weeks, patients reported that pNIV reduced anxiety (median: 7.5/10 versus 4/10, p = 0.001) and recovery time from breathlessness (17/24 patients; p = 0.002); 23/24 used the device at least weekly. pNIV increased exercise tolerance by reducing dynamic hyperinflation and breathlessness in COPD patients. Full article

Chronic respiratory diseases limit exercise capacity, due to breathlessness and hypoxemia. A decrease in daily activity results in impairment of quality of life and higher mortality. Oxygen therapy improves exercise capacity. The main mechanism of this improvement in COPD patients is a reduction in dynamic hyperinflation. The benefits of oxygen therapy is present not only in patients with severe hypoxemia at rest (PaO₂ < 60 mm Hg) requiring long-term oxygen therapy, but also in mild hypoxemic patients who develop desaturation during exercise. An improvement in exercise tolerance is proportional to the administered oxygen flow. Provision of oxygen flow from ambulatory source may be continuous or intermittent only during inspiration. Both methods seem to be comparable in terms of improving exercise tolerance and reducing hypoxemia. Ambulatory oxygen should be prescribed to all patients on long-term oxygen therapy who report outdoor activity. Moreover, normoxemic patients with severe exertional desaturation and low exercise tolerance should also be prescribed ambulatory oxygen. The flow of oxygen should be titrated to prevent desaturation during activities. The long-term effects of ambulatory oxygen such as improvement of quality of life and increasing daily activity have not been confirmed and require further investigation. Full article

Bronchodilators—long-acting β₂-adrenergic agonists (formoterol and salmeterol) and a long-acting antimuscarinic drug (tiotropium), are the main drugs applied in symptomatic treatment of COPD. In patients with COPD, dyspnea is frequently associated with simple everyday activities. Two questionnaires have been published recently as a means of assessing the patients’ ability to perform morning activities and symptoms. Dynamic hyperinflation is the pathophysiological disorder responsible for dyspnea and decreased exercise tolerance in COPD. Formoterol is faster than salmeterol in diminishing air-trapping. It has been shown that treatment with formoterol and tiotropium in COPD patients improves FEV₁ , FVC, IC, symptoms score and quality of life in comparison with tiotropium applied alone. Among LABA and inhaled glucocorticosteroids combinations, those containing formoterol have a more beneficial effect on the ability to perform simple morning activities (budesonide/formoterol was better than fluticasone/salmeterol). Beclomethasone/formoterol—400/24 mcg/die, in comparison with fluticasone/salmeterol—500/100 mcg/die significantly reduced air-trapping and dyspnea in COPD patients. The comparison of budesonide/formoterol—400/12 mcg 2 × die with beclomethasone/ /formoterol—200/12 mcg 2 × die has shown similar influence of both combinations on FEV₁ , dyspnea, 6-minute walk test, symptoms score and quality of life. The addition of budesonide and formoterol combination to tiotropium gives further benefits: reduces number of exacerbations, improves FEV₁ , symptoms score and performance of simple morning routines. Doctors should pay more attention to symptoms and limitations in simple activities in the morning and adequately adjust the treatment. Full article

The chief complaint of many patients with chro-nic obstructive pulmonary disease (COPD) is thatthey are no longer able to carry out or maintain anactivity of which they were previously capable [...] Full article