Samantha A. Natanek

The prevalence of quadriceps weakness in COPD and the relationship with disease severity

Quadriceps strength relates to exercise capacity and prognosis in chronic obstructive pulmonary disease (COPD). We wanted to quantify the prevalence of quadriceps weakness in COPD and hypothesised that it would not be restricted to patients with severe airflow obstruction or dyspnoea. Predicted quadriceps strength was calculated using a regression equation (incorporating age, sex, height and fat-free mass), based on measurements from 212 healthy subjects. The prevalence of weakness (defined as observed values 1.645 standardised residuals below predicted) was related to Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage and Medical Research Council (MRC) dyspnoea score in two cohorts of stable COPD outpatients recruited from the UK (n = 240) and the Netherlands (n = 351). 32% and 33% of UK and Dutch COPD patients had quadriceps weakness. A significant proportion of patients in GOLD stages 1 and 2, or with an MRC dyspnoea score of 1 or 2, had quadriceps weakness (28 and 26%, respectively). These values rose to 38% in GOLD stage 4, and 43% in patients with an MRC Score of 4 or 5. Quadriceps weakness was demonstrable in one-third of COPD patients attending hospital respiratory outpatient services. Quadriceps weakness exists in the absence of severe airflow obstruction or breathlessness.

Downregulation of the serum response factor/miR-1 axis in the quadriceps of patients with COPD

Rationale Muscle atrophy confers a poor prognosis in patients with chronic obstructive pulmonary disease (COPD), yet the molecular pathways responsible are poorly characterised. Muscle-specific microRNAs and serum response factor (SRF) are important regulators of muscle phenotype that contribute to a feedback system to regulate muscle gene expression. The role of these factors in the skeletal muscle dysfunction that accompanies COPD is unknown. Methods 31 patients with COPD and 14 healthy age-matched controls underwent lung and quadriceps function assessments, measurement of daily activity and a percutaneous quadriceps muscle biopsy. The expression of muscle-specific microRNAs, myosin heavy chains and components of the serum response factor signalling pathway were determined by qPCR. Results A reduction in expression of miR-1 (2.5-fold, p=0.01) and the myocardin-related transcription factors (MRTFs) A and B was observed in patients compared with controls (MRTF-A mRNA: twofold, p=0.028; MRTF-B mRNA: fourfold, p=0.011). miR-1 expression was associated with smoking history, lung function, fat-free mass index, 6 min walk distance and percentage of type 1 fibres. miR-133 and miR-206 were negatively correlated with daily physical activity. Insulin-like growth factor 1 mRNA was increased in the patients and miR-1 was negatively correlated with phosphorylation of the kinase Akt. Furthermore, the protein levels of histone deacetylase 4, another miR-1 target, were increased in the patients. Conclusions Downregulation of the activity of the MRTF-SRF axis and the expression of muscle-specific microRNAs, particularly miR-1, may contribute to COPD-associated skeletal muscle dysfunction.

Increased skeletal muscle-specific microRNA in the blood of patients with COPD

Background Skeletal muscle weakness in chronic obstructive pulmonary disease (COPD) carries a poor prognosis, therefore a non-invasive marker of this process could be useful. Reduced expression of muscle-specific microRNA (myomiRs) in quadriceps muscle in patients with COPD is associated with skeletal muscle weakness and changes in muscle fibre composition. Circulating exosomal miRNAs can be measured in blood, making them candidate biomarkers of biopsy phenotype. To determine whether plasma myomiR levels were associated with fibre size or fibre proportion, we measured myomiRs in plasma from patients with COPD and healthy controls. Methods and results 103 patients with COPD and 25 age-matched controls were studied. Muscle-specific miRNA was elevated in the plasma of patients with COPD and showed distinct patterns. Specifically, miR-1 was inversely associated with fat-free mass in the cohort, whereas levels of miR-499 were more directly associated with strength and quadriceps type I fibre proportion. Two miRs not restricted to muscle in origin (miR-16 and miR-122) did not differ between patients and controls. Plasma miR-499 was also associated with muscle nuclear factor κB p50 but not p65 in patients with early COPD whereas plasma inflammatory cytokines were associated with miR-206 in patients with more advanced disease. Conclusions Plasma levels of individual myomiRs are altered in patients with COPD but alone do not predict muscle fibre size or proportion. Our findings are consistent with an increase in muscle wasting and turnover associated with the development of skeletal muscle dysfunction and fibre-type shift in patients with stable COPD.

Heterogeneity of quadriceps muscle phenotype in chronic obstructive pulmonary disease (Copd); implications for stratified medicine?

Quadriceps muscle dysfunction is common in COPD. Determining, and, if possible, predicting quadriceps phenotype in COPD is important for patient stratification for therapeutic trials.

Quadriceps myostatin expression in COPD

To the Editors: Quadriceps muscle dysfunction is well recognised in chronic obstructive pulmonary disease (COPD), and is associated with impaired exercise capacity and increased mortality 1. Functionally, the quadriceps is characterised by reduced strength, increased fatigability and decreased endurance, associated with muscle fibre atrophy and a switch towards more glycolytic muscle fibres (types 1–2). The underlying molecular mechanisms of quadriceps dysfunction in COPD are not well clarified. Myostatin is a member of the transforming growth factor-β family, and is a potent negative regulator of muscle mass, as demonstrated in naturally occurring animal and human genetic mutations, and genetic murine models 2. Myostatin may therefore be a candidate regulator of muscle mass in disorders characterised by muscle atrophy, including COPD. Few data exist regarding myostatin in COPD, but a recent cross-sectional study showed a three-fold increase in vastus lateralis myostatin mRNA transcripts in COPD patients with significant quadriceps weakness compared to healthy controls 3. However, the relationship between quadriceps myostatin expression and functional characteristics of the muscle is not known. We hypothesised that myostatin expression would negatively correlate with quadriceps strength and exercise capacity in COPD. 18 patients with COPD were enrolled from clinics at the Royal Brompton Hospital (London, UK). Exclusion criteria included exacerbation in the previous 4 weeks, coexisting heart, renal or liver failure, or a systemic inflammatory or metabolic disorder. 16 healthy, age-matched controls were recruited by advertisement. All participants gave written informed consent and the protocol was approved by the local Research Ethics Committee. The following were measured in study participants: lung function tests; fat-free mass index, calculated from bioelectrical impedance and normalised to height squared; quadriceps muscle strength, assessed by measuring supine isometric maximal voluntary contraction (MVC) of the leg ipsilateral to the dominant hand and corrected for body mass index (MVC/BMI); quadriceps …

Vastus Lateralis Fiber Shift Is an Independent Predictor of Mortality in Chronic Obstructive Pulmonary Disease

To the Editor: Quadriceps weakness and atrophy is present in approximately 30% of patients with chronic obstructive pulmonary disease (COPD) in secondary care (1, 2). The quadriceps also displays a shift in fiber type so that there are fewer type I (oxidative) fibers and more type II (glycolytic) fibers (3). Pulmonary rehabilitation only partially addresses this fiber shift (4). Muscle mass (5) and strength (6) are both associated with increased mortality, but the prognostic significance of fiber shift is unknown. In a retrospective multicenter analysis of 392 patients from four sites (see Tables E1–E4 in the online supplement), mortality data were collated, as part of audit procedures, on outpatients with stable COPD who had undergone a vastus lateralis biopsy between 1995 and 2013. Data from these subjects have been previously published (e.g., References 2, 4, 5). Fiber proportion, reported as the percentage of type II fibers (type II fiber %), was established by immunohistochemistry. Fiber shift, evaluated as a dichotomous variable, was considered to have occurred when the proportion of type II fibers was greater than 68% (men) or greater than 65% (women) based on normal ranges established from an age-matched healthy population published by Natanek and colleagues (3). Body mass index (BMI), fat-free mass index (FFMI), dominant leg isometric quadriceps maximum voluntary contraction (QMVC and QMVC/BMI), mid-thigh cross-sectional area determined by computed tomography scan (MTCSA), residual volume normalized to total lung capacity (RV/TLC), and percent predicted value for the carbon monoxide transfer factor corrected for hemoglobin (TLCOc), when available, were included in subanalyses. Data were analyzed for the whole dataset and also after splitting the group into those with an FEV1 less than 50% predicted and those with an FEV1 greater than or equal to 50% predicted. Further details on the methodology and statistical analyses are presented in the online supplement. Some of the results of this study have been previously reported in abstract form (7). Patients were followed up for a median of 1,699 days (127–6,601 d); 102 of 392 (26.7%) patients died during follow-up (Table E6). Cohort characteristics are presented in Tables 1 and ​and22 and Tables E1–E5. One hundred fifty-one patients had Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage I/II disease and 241 had GOLD stage III/IV disease. Those who died were older and had a lower FEV1 % predicted, and there was a greater male preponderance (Table E6A). One hundred seventy-seven (45.1%) of the patients had fiber shift. The patients who died had a higher percentage of type II fibers (69.5% [62.2, 76.3%] vs. 66.0% [54.0, 74.2%]; P = 0.002) and a higher proportion of them exhibited fiber shift (58% vs. 41%, P = 0.004). BMI, FFMI, QMVC, MTCSA, and TLCOc were all lower, and RV/TLC higher, in those who died (Table E6B). Table 1. Core Characteristics of the Cohort (n = 392) in Addition to Univariate and Multivariate Analyses Including Type II Fiber Proportion Dichotomized into the Occurrence of Fiber Shift Table 2. Core Characteristics of the Cohort (n = 392) in Addition to Univariate and Multivariate Analyses Including Type II Fiber Proportion as a Continuous Measure In the cohort considered as a whole, both type II fiber % and the presence of fiber shift were univariate predictors of mortality, as were age and FEV1 % predicted (Tables 1 and ​and2).2). In a multivariate analysis including fiber shift as a dichotomous variable, fiber shift was retained, as were age and FEV1 % predicted, Table 1. When age, FEV1 % predicted, and type II fiber % were entered into a multivariate analysis, age and FEV1 % predicted were retained as independent predictors, but the association between fiber type and mortality just missed statistical significance (Table 2). The relationship between FEV1 and fiber proportion is shown in Figure 1A, and survival as a function of fiber shift, adjusted for age and FEV1, is shown in Figure 1B. Additional data regarding other lung function and muscle parameters are presented in Tables E7–E10. FEV1 expressed in liters and TLCOc were also univariate predictors of mortality; however, RV/TLC was not. When including TLCOc in the analysis (n = 209), fiber shift, age, FEV1 % predicted, and TLCOc were all independent predictors of mortality. In other subanalyses, BMI, FFMI, QMVC, QMVC/BMI, and MTCSA were not univariate predictors of mortality. Figure 1. (A) The relationship between type II fiber percentage and FEV1 % predicted (dashed lines demonstrate the 95% confidence interval), and (B) survival curves for those with fiber shift (n = 177) and those without fiber shift (n = 215) after adjusting for ... When limiting the analysis to those with an FEV1 greater than or equal to 50% predicted, age was the only predictor of mortality (hazard ratio [HR], 1.16; 95% CI, 1.07, 1.25; P < 0.0001; Table E11). In a multivariate analysis confined to those with an FEV1 less than 50%, fiber shift was retained as an independent predictor (HR, 1.71; 95% CI, 1.08, 2.71; P = 0.02), as were age (HR, 1.06; 95% CI, 1.03, 1.09; P < 0.0001), and FEV1 % predicted (HR, 0.96; 95% CI, 0.94, 0.99; P = 0.002; Table E12A). In a separate analysis confined to those with an FEV1 less than 50%, type II fiber % was not retained as an independent predictor (HR, 1.014; 95% CI, 0.996, 1.032; P = 0.13), whereas age and FEV1 % predicted were (Table E12B). Fiber shift in the vastus lateralis of patients with COPD was associated with increased mortality, although this association was weaker when lung function and age were included in the analysis. This finding was pronounced in patients with GOLD stage III/IV disease but undetectable in those with GOLD stage I/II disease. The relationship between skeletal muscle atrophy (5) and weakness (6) with mortality has been previously noted in COPD. However, we believe the present analysis is timely because we (3) and others (8) have recently shown that the nature of skeletal muscle involvement in COPD is heterogeneous rather than uniform. No prior study has related quadriceps biopsy appearances to long-term outcome in COPD. Given the known relationship between exercise capacity and survival (9), these data are consistent with our prior studies, which demonstrated a relationship between fiber shift (although not fiber atrophy) and impaired exercise capacity (3) and functional performance (10). Nevertheless, it remains unclear whether fiber shift causes poor exercise tolerance or is a manifestation of exercise intolerance and reduced physical activity, which are both associated with increased mortality in COPD (9, 11). Both concepts can be supported by in vivo models that demonstrate that muscle disuse results in type I to type II fiber shift (12) and that fiber shift toward a type I fiber predominance increases exercise performance (13). Due to the retrospective nature of the current analysis, exercise performance and physical activity data were not available for inclusion in this report, so a causative role for fiber shift in mortality cannot be demonstrated from this study. A prospective study would have been preferable and could also have considered other factors of relevance, including pulmonary rehabilitation over the intervening period. Despite the limitations of the current study, it is doubtful that a prospective study of comparable size and duration will ever be done. Interest in pharmacological management of skeletal muscle dysfunction is growing (14), and addressing fiber shift may eventually become a therapeutic possibility. Further studies to address whether the reversal of fiber shift is of benefit are of value.

Phenotypic Characteristics Associated With Reduced Short Physical Performance Battery Score in COPD

BACKGROUND The Short Physical Performance Battery (SPPB) is commonly used in gerontology, but its determinants have not been previously evaluated in COPD. In particular, it is unknown whether pulmonary aspects of COPD would limit the value of SPPB as an assessment tool of lower limb function. METHODS In 109 patients with COPD, we measured SPPB score, spirometry, 6-min walk distance, quadriceps strength, rectus femoris cross-sectional area, fat-free mass, physical activity, health status, and Medical Research Council dyspnea score. In a subset of 31 patients with COPD, a vastus lateralis biopsy was performed, and the biopsy specimen was examined to evaluate the structural muscle characteristics associated with SPPB score. The phenotypic characteristics of patients stratified according to SPPB were determined. RESULTS Quadriceps strength and 6-min walk distance were the only independent predictors of SPPB score in a multivariate regression model. Furthermore, while age, dyspnea, and health status were also univariate predictors of SPPB score, FEV 1 was not. Stratification by reduced SPPB score identified patients with locomotor muscle atrophy and increasing impairment in strength, exercise capacity, and daily physical activity. Patients with mild or major impairment defined as an SPPB score < 10 had a higher proportion of type 2 fibers (71% [14] vs 58% [15], P = .04). CONCLUSIONS The SPPB is a valid and simple assessment tool that may detect a phenotype with functional impairment, loss of muscle mass, and structural muscle abnormality in stable patients with COPD.

Quadriceps strength and endurance in fibrotic idiopathic interstitial pneumonia

Quadriceps muscle dysfunction is an important contributor to exercise limitation in chronic obstructive pulmonary disease, but little is known about skeletal muscle function and its impact on exercise capacity in patients with fibrotic idiopathic interstitial pneumonia (IIP). The aim of the study was to compare quadriceps strength and endurance in patients with fibrotic IIP and healthy controls, and relate it to exercise capacity.

Expresión y localización del factor de transcripción Yin Yang 1 en el músculo cuádriceps en la enfermedad pulmonar obstructiva crónica

INTRODUCTION Yin Yang 1 (YY1) is a transcriptional repressor that inhibits muscle gene expression and myogenesis. YY1 has not previously been investigated in the skeletal muscle of patients with COPD. The aims of this study were to investigate YY1 expression and localisation in the quadriceps muscle of COPD patients compared to healthy age-matched controls, and examine the relationship between YY1 expression and localisation and quadriceps muscle fibre cross-sectional area (CSA) in COPD patients. PATIENTS AND METHODS 15 COPD patients and 8 age-matched controls underwent lung and quadriceps function assessments and a percutaneous quadriceps biopsy. Quadriceps muscle fibre CSA and fibre proportions and YY1 localisation were determined by immunofluorescence. YY1 was immunoprecipitated from muscle and YY1 levels assessed by western blotting. RESULTS YY1 levels were inversely correlated with type IIx and type I fibre CSA in patients and controls, though YY1 levels were not significantly different between the groups. Nuclear localisation of YY1 was demonstrated in the patients but not in controls. CONCLUSION YY1 expression is associated with smaller quadriceps fibre CSA in COPD and nuclear localisation of YY1 was found in muscle of patients but not controls. Regulation of YY1 appears altered in COPD and may be implicated in COPD-related muscle atrophy.

Skeletal muscle adiposity is associated with physical activity, exercise capacity and fibre shift in COPD

Quadriceps muscle phenotype varies widely between patients with chronic obstructive pulmonary disease (COPD) and cannot be determined without muscle biopsy. We hypothesised that measures of skeletal muscle adiposity could provide noninvasive biomarkers of muscle quality in this population. In 101 patients and 10 age-matched healthy controls, mid-thigh cross-sectional area, percentage intramuscular fat and skeletal muscle attenuation were calculated using computed tomography images and standard tissue attenuation ranges: fat -190– -30 HU; skeletal muscle -29–150 HU. Mean±sd percentage intramuscular fat was higher in the patient group (6.7±3.5% versus 4.3±1.2%, p = 0.03). Both percentage intramuscular fat and skeletal muscle attenuation were associated with physical activity level, exercise capacity and type I fibre proportion, independent of age, mid-thigh cross-sectional area and quadriceps strength. Combined with transfer factor of the lung for carbon monoxide, these variables could identify >80% of patients with fibre type shift with >65% specificity (area under the curve 0.83, 95% CI 0.72–0.95). Skeletal muscle adiposity assessed by computed tomography reflects multiple aspects of COPD related muscle dysfunction and may help to identify patients for trials of interventions targeted at specific muscle phenotypes. CT-based skeletal muscle adiposity markers reflect muscle quality in COPD and help identify patients with fibre shift http://ow.ly/xolWA