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1.
Effect of Antioxidants in the Treatment of COPD Patients: Scoping Review.
Orozco-Levi, M, Colmenares-Mejía, C, Ruíz, J, Valencia-Barón, YD, Ramírez-Sarmiento, A, Quintero-Lesmes, DC, Serrano, NC
Journal of nutrition and metabolism. 2021;:7463391
Abstract
Chronic obstructive pulmonary disease (COPD) is a common, preventable, treatable lung disease characterized by persistent respiratory symptoms and airflow limitation and multiorgan impact. This affects the nutritional status of patients and requires multidimensional interventions including nutritional interventions according to individual metabolic needs. Our scoping review determined the effects of antioxidants in the treatment of COPD patients and their role in the decrease in the probability of exacerbations, hospital readmissions, and changes in lung function. The sources MEDLINE, LILACS, and Google Scholar were consulted and 19 studies were selected. The most indicated antioxidants are N-Acetylcysteine, vitamins E and D, and Zinc. Other antioxidants from plants or fruits extracts are also being investigated. The beneficial effect of antioxidants in stable or exacerbated patients is not clear, but theoretical and biological arguments of benefit justify lines of research that specify the impact on reducing oxidative stress and negative effects in COPD.
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2.
Combined aerobic exercise and high-intensity respiratory muscle training in patients surgically treated for non-small cell lung cancer: a pilot randomized clinical trial.
Messaggi-Sartor, M, Marco, E, Martínez-Téllez, E, Rodriguez-Fuster, A, Palomares, C, Chiarella, S, Muniesa, JM, Orozco-Levi, M, Barreiro, E, Güell, MR
European journal of physical and rehabilitation medicine. 2019;55(1):113-122
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Lung cancer treatment initiates a deconditioning storm that further reduces the capacity to deliver and utilize oxygen and metabolic substrates during exercise, contributing to poor cardiorespiratory fitness. The main aim of this study was to assess the impact of aerobic exercise with inspiratory and expiratory muscle training on cardiovascular fitness and respiratory muscle dysfunction in non-small cell lung cancer patients. The study is a two-centre, prospective, single-blind, pilot randomized controlled trial. The eligible patients were randomly assigned to the exercise (n=16) or control groups (n=21). Study results showed strong improvement in respiratory muscle strength and exercise capacity following high-intensity inspiratory and expiratory muscle training. Authors conclude that structured and supervised exercise interventions should be recommended to patients with lung cancer.
Abstract
BACKGROUND Lung resection surgery further decreases exercise capacity and negatively affects respiratory muscle function in patients with non-small cell lung cancer (NSCLC). The best design for exercise interventions in these patients has not been determined yet. AIM: To assess the impact of aerobic exercise and high-intensity respiratory muscle training on patient outcomes following lung cancer resection surgery. DESIGN Prospective, single-blind, pilot randomized controlled trial. SETTING Outpatient cardiopulmonary rehabilitation unit of two university hospitals. POPULATION Thirty-seven patients with NSCLC after tumor resection. METHODS Patients were randomly assigned to exercise training or usual post-operative care. The training program consisted of aerobic exercises and high-intensity respiratory muscle training (24 supervised sessions, 3 per week, 8 weeks). Primary outcome was exercise capacity assessed with peak oxygen uptake (VO2peak) during cardiopulmonary exercise test. Secondary outcomes included changes in respiratory muscle strength, levels of serum insulin growth factor I (IGF-I) and IGF binding protein 3 (IGFBP-3), and quality of life assessed with the European Organization for Research and Treatment of Cancer (EORTC QLQ-C30) questionnaire. RESULTS The 8-week training program was associated with significant improvement in VO2peak (2.13 mL/Kg/min [95%CI 0.06 to 4.20]), maximal inspiratory and expiratory pressures (18.96 cmH2O [95% CI 2.7 to 24.1] and 18.58 cmH2O [95% CI 4.0 to 33.1], respectively) and IGFBP-3 (0.61 µg/mL [%95 CI 0.1 to 1.12]). No significant differences were observed in the EORTC QLQ-C30. CONCLUSIONS An 8-week exercise program consisting of aerobic exercise and high-intensity respiratory muscle training improved exercise capacity, respiratory muscle strength, and serum IGFBP-3 levels in NSCLC patients after lung resection. There was no impact on the other outcomes assessed. CLINICAL REHABILITATION IMPACT A combination of aerobic exercise and respiratory muscle training could be included in the rehabilitation program of deconditioned patients with NSCLC after lung resection surgery.
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3.
Clinical management of chronic obstructive pulmonary disease patients with muscle dysfunction.
Gea, J, Casadevall, C, Pascual, S, Orozco-Levi, M, Barreiro, E
Journal of thoracic disease. 2016;(11):3379-3400
Abstract
Muscle dysfunction is frequently observed in chronic obstructive pulmonary disease (COPD) patients, contributing to their exercise limitation and a worsening prognosis. The main factor leading to limb muscle dysfunction is deconditioning, whereas respiratory muscle dysfunction is mostly the result of pulmonary hyperinflation. However, both limb and respiratory muscles are also influenced by other negative factors, including smoking, systemic inflammation, nutritional abnormalities, exacerbations and some drugs. Limb muscle weakness is generally diagnosed through voluntary isometric maneuvers such as handgrip or quadriceps muscle contraction (dynamometry); while respiratory muscle loss of strength is usually recognized through a decrease in maximal static pressures measured at the mouth. Both types of measurements have validated reference values. Respiratory muscle strength can also be evaluated determining esophageal, gastric and transdiaphragmatic maximal pressures although there is a lack of widely accepted reference equations. Non-volitional maneuvers, obtained through electrical or magnetic stimulation, can be employed in patients unable to cooperate. Muscle endurance can also be assessed, generally using repeated submaximal maneuvers until exhaustion, but no validated reference values are available yet. The treatment of muscle dysfunction is multidimensional and includes improvement in lifestyle habits (smoking abstinence, healthy diet and a good level of physical activity, preferably outside), nutritional measures (diet supplements and occasionally, anabolic drugs), and different modalities of general and muscle training.
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4.
Non-anaemic iron deficiency impairs response to pulmonary rehabilitation in COPD.
Barberan-Garcia, A, Rodríguez, DA, Blanco, I, Gea, J, Torralba, Y, Arbillaga-Etxarri, A, Barberà, JA, Vilaró, J, Roca, J, Orozco-Levi, M
Respirology (Carlton, Vic.). 2015;(7):1089-95
Abstract
BACKGROUND AND OBJECTIVE Non-anaemic iron deficiency (NAID) might alter the oxygen pathway in health and disease. The current study aims at assessing the impact of NAID on aerobic capacity in patients with chronic obstructive pulmonary disease (COPD). METHODS A prospective sample of 70 non-anaemic COPD patients candidate to participate in an 8-week pulmonary rehabilitation (PR) programme was studied. Incremental cycling exercise to peak oxygen uptake (V'O2peak ) and constant work-rate exercise at 80% V'O2peak to exhaustion were assessed pre- and post-PR. Training-induced increase of endurance time (ET) ≥33%, which represented the minimal clinically important difference, classified patients as responders to exercise training. RESULTS The prevalence of NAID was 48% (n = 34) showing no relationship with the Global Initiative for Chronic Obstructive Lung Disease stages (P = 0.209). Patients with NAID showed lower pre-training ET (P = 0.033) and V'O2peak (P = 0.007) than normal iron status (NIS) patients after adjustment for potential covariates. Significant training-induced physiological changes were seen in the NIS group (ΔV'O2peak 68(132) mL/min; P = 0.009), but not in the NAID group (ΔV'O2peak 26 (126) mL/min; P = 0.269). The NAID group showed lower percentage of responders to training (56%) than the NIS group (78%) (P = 0.041). CONCLUSIONS COPD patients with NAID showed lower pre-training aerobic capacity and reduced training-induced response than NIS patients after adjusting for potential confounding variables.
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5.
Muscle dysfunction in chronic obstructive pulmonary disease: update on causes and biological findings.
Gea, J, Pascual, S, Casadevall, C, Orozco-Levi, M, Barreiro, E
Journal of thoracic disease. 2015;(10):E418-38
Abstract
Respiratory and/or limb muscle dysfunction, which are frequently observed in chronic obstructive pulmonary disease (COPD) patients, contribute to their disease prognosis irrespective of the lung function. Muscle dysfunction is caused by the interaction of local and systemic factors. The key deleterious etiologic factors are pulmonary hyperinflation for the respiratory muscles and deconditioning secondary to reduced physical activity for limb muscles. Nonetheless, cigarette smoke, systemic inflammation, nutritional abnormalities, exercise, exacerbations, anabolic insufficiency, drugs and comorbidities also seem to play a relevant role. All these factors modify the phenotype of the muscles, through the induction of several biological phenomena in patients with COPD. While respiratory muscles improve their aerobic phenotype (percentage of oxidative fibers, capillarization, mitochondrial density, enzyme activity in the aerobic pathways, etc.), limb muscles exhibit the opposite phenotype. In addition, both muscle groups show oxidative stress, signs of damage and epigenetic changes. However, fiber atrophy, increased number of inflammatory cells, altered regenerative capacity; signs of apoptosis and autophagy, and an imbalance between protein synthesis and breakdown are rather characteristic features of the limb muscles, mostly in patients with reduced body weight. Despite that significant progress has been achieved in the last decades, full elucidation of the specific roles of the target biological mechanisms involved in COPD muscle dysfunction is still required. Such an achievement will be crucial to adequately tackle with this relevant clinical problem of COPD patients in the near-future.
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6.
Cured meat consumption increases risk of readmission in COPD patients.
de Batlle, J, Mendez, M, Romieu, I, Balcells, E, Benet, M, Donaire-Gonzalez, D, Ferrer, JJ, Orozco-Levi, M, Antó, JM, Garcia-Aymerich, J, et al
The European respiratory journal. 2012;(3):555-60
Abstract
Recent studies have shown that a high dietary intake of cured meat increases the risk of chronic obstructive pulmonary disease (COPD) development. However, its potential effects on COPD evolution have not been tested. We aimed to assess the association between dietary intake of cured meat and risk of COPD readmission in COPD patients. 274 COPD patients were recruited during their first COPD admission between 2004 and 2006, provided information on dietary intake of cured meat during the previous 2 yrs, and were followed until December 31, 2007 (median follow-up 2.6 yrs). Associations between cured meat intake and COPD admissions were assessed using parametric regression survival-time models. Mean ± SD age was 68 ± 8 yrs, 93% of patients were male, 42% were current smokers, mean post-bronchodilator forced expiratory volume in 1 s (FEV(1)) was 53 ± 16% predicted, and median cured meat intake was 23 g · day(-1). After adjusting for age, FEV(1), and total caloric intake, high cured meat intake (more than median value) increased the risk of COPD readmission (adjusted HR 2.02, 95% CI 1.31-3.12; p=0.001). High cured meat consumption increases the risk of COPD readmission in COPD patients. The assessment of the effectiveness of healthy diet advice should be considered in the future.
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7.
[Physiologic particularities of muscle impairments in the patient with COPD].
Gea, J, Orozco-Levi, M, Barreiro, E
Nutricion hospitalaria. 2006;:62-8
Abstract
Patients with chronic obstructive pulmonary disease (COPD) frequently have skeletal muscle dysfunction, of either respiratory muscles or those located of the limbs. This dysfunction may appear even at relatively early stages and it conditions symptoms and patient's quality of life. In the case of respiratory muscles, factors that seem to determine muscle dysfunction are, particularly, changes in thorax configuration and an unbalance between decreased energy availability and increased energy demands by the muscle. However, respiratory muscles show signs of structural and metabolic adaptation to this situation, partially compensating the above-mentioned deleterious effects. However, at muscles of the limbs, particularly of the lower limbs, dysfunction seems to be essentially due to deconditioning by physical activity reduction. Structural changes in these muscles are involutional in nature. At both respiratory and peripheral muscles, other factors such as nutritional impairments, inflammation, oxidative stress, some drugs, and the presence of comorbidity seem to play a relevant role. All of them will condition both dysfunction and structural changes, which will be heterogeneous for the different muscle groups in each patient.
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8.
Structure and function of the respiratory muscles in patients with COPD: impairment or adaptation?
Orozco-Levi, M
The European respiratory journal. Supplement. 2003;:41s-51s
Abstract
Respiratory muscles are essential to alveolar ventilation. These muscles work against increased mechanical loads due to airflow limitation and geometrical changes of the thorax derived from pulmonary hyperinflation. Respiratory muscle fibres show several degrees of impairment in cellular and subcellular structures which, in many cases, are proportional to the severity of the disease and accompanying conditions (ageing, deconditioning, starvation, comorbidity). This structural impairment translates, from the functional point of view, to a loss of strength (capacity to generate tension) and an increased susceptibility to failure in the face of a particular load (early onset of fatigue). On the other hand, there is accumulating evidence that the diaphragm and other respiratory muscles are also able to express adaptive changes in response to the chronic mechanical load imposed by the disease. In most cases, impairment and adaptation of the respiratory muscles reaches a balance that permits enough ventilation for patients' survival. However, this balance can be altered for additional increments of the mechanical or metabolic load on the muscles (e.g. abdominal or thoracic surgeries, pneumonia, pulmonary embolism, etc.). Moreover, loss of balance is not always associated with extreme situations. Many patients develop ventilatory failure and require hospital admission even if the cause of the exacerbation is less dramatic (bronchial infections, pain of any nature, electrolyte disturbances, etc.). Although the physiopathology of chronic obstructive pulmonary disease exacerbations is multifactorial, the above-mentioned fragility suggests the existence of a "fragile balance" between respiratory muscle overload and respiratory muscle adaptations. Assessment of respiratory muscle function through specific tests evaluating the strength and endurance could offer valuable information about this particular susceptibility to muscle imbalance. Identification of patients possessing a fragile respiratory muscle balance could have important implications for the application of specific strategies such as respiratory muscle training, nutrition, or anabolic treatment.
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9.
Gastro-oesophageal reflux in mechanically ventilated patients: effects of an oesophageal balloon.
Orozco-Levi, M, Félez, M, Martínez-Miralles, E, Solsona, JF, Blanco, ML, Broquetas, JM, Torres, A
The European respiratory journal. 2003;(2):348-53
Abstract
Gastro-oesophageal reflux (GOR) and bronchoaspiration of gastric content are risk factors linked with ventilator-associated pneumonia. This study was aimed at evaluating the effect of a nasogastric tube (NGT) incorporating a low-pressure oesophageal balloon on GOR and bronchoaspiration in patients receiving mechanical ventilation. Fourteen patients were studied in a semi-recumbent position for 2 consecutive days. Inflation or deflation of the oesophageal balloon was randomised. Samples of blood, gastric content, and oropharyngeal and bronchial secretions were taken every 2 h over a period of 8 h. A radioactively labelled nutritional solution was continuously administered through the NGT. The magnitude of both the GOR and bronchoaspiration was measured by radioactivity counting of oropharyngeal and bronchial secretion samples, respectively. Inflation of the oesophageal balloon resulted in a significant decrease of both GOR and bronchoaspiration of gastric content. This protective effect was statistically significant from 4 h following inflation throughout the duration of the study. This study demonstrates that an inflated oesophageal balloon delays and decreases gastro-oesophageal and bronchial aspiration of gastric content in patients carrying a nasogastric tube and receiving enteral nutrition during mechanical ventilation. Although the method was found to be safe when applied for 8 h, longer times should be considered with caution.
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10.
Structural and functional changes in the skeletal muscles of COPD patients: the "compartments" theory.
Gea, J, Orozco-Levi, M, Barreiro, E, Ferrer, A, Broquetas, J
Monaldi archives for chest disease = Archivio Monaldi per le malattie del torace. 2001;(3):214-24
Abstract
This review focuses on the structural and functional changes occurring in respiratory as well as peripheral muscles in COPD patients. These changes are particular for each muscle territory or compartment. Respiratory muscles predominantly undergo structural adaptive changes. However, they have to do their job in unfavourable mechanical conditions and thus their function is impaired. Peripheral muscles have to be grouped in at least two different compartments: upper and lower limb muscles. The structure and function are relatively preserved in the former, due to the maintenance of some daily activities involving the arms or even the use of some of these muscles in the ventilatory effort. Lower limb muscles in contrast undergo involute structural changes which result in an impairment in their function and in the global exercise capacity of the individual. Deconditioning due to a reduction in daily activities secondary to ventilatory impairment is probably the driving factor for these changes. Although the level of activity appears to be the main determining factor in changes occurring in different territories, this would be modulated by other local and systemic factors, such as inflammation, oxidative stress, drugs and nutritional abnormalities.