Roelinka Broekhuizen

Raised CRP levels mark metabolic and functional impairment in advanced COPD

Background: C-reactive protein (CRP) is often used as a clinical marker of acute systemic inflammation. Since low grade inflammation is evident in chronic diseases such as chronic obstructive pulmonary disease (COPD), new methods have been developed to enhance the sensitivity of CRP assays in the lower range. A study was undertaken to investigate the discriminative value of high sensitivity CRP in COPD with respect to markers of local and systemic impairment, disability, and handicap. Methods: Plasma CRP levels, interleukin 6 (IL-6) levels, body composition, resting energy expenditure (REE), exercise capacity, health status, and lung function were determined in 102 patients with clinically stable COPD (GOLD stage II–IV). The cut off point for normal versus raised CRP levels was 4.21 mg/l. Results: CRP levels were raised in 48 of 102 patients. In these patients, IL-6 (p<0.001) and REE (adjusted for fat-free mass, p = 0.002) were higher while maximal (p = 0.040) and submaximal exercise capacity (p = 0.017) and 6 minute walking distance (p = 0.014) were lower. The SGRQ symptom score (p = 0.003) was lower in patients with raised CRP levels, as were post-bronchodilator FEV1 (p = 0.031) and reversibility (p = 0.001). Regression analysis also showed that, when adjusted for FEV1, age and sex, CRP was a significant predictor for body mass index (p = 0.044) and fat mass index (p = 0.016). Conclusions: High sensitivity CRP is a marker for impaired energy metabolism, functional capacity, and distress due to respiratory symptoms in COPD.

Peroxisome proliferator-activated receptor expression is reduced in skeletal muscle in COPD

Chronic obstructive pulmonary disease (COPD) is a multiorgan systemic disease. The systemic features are skeletal muscle weakness and cachexia, the latter being associated with systemic inflammation. The exact mechanisms underlying skeletal muscle dysfunction in COPD remain obscure. Recent evidence suggests involvement of the peroxisome proliferator-activated receptors (PPARs) and PPAR-γ coactivator (PGC)-1α in regulation of skeletal muscle morphology and metabolism, and mitochondrial transcription factor A (TFAM) has been implicated in the process of mitochondrial biogenesis. The aim of the present exploratory study was, therefore, to compare these factors in the skeletal muscle of nine healthy control subjects and 14 COPD patients stratified by cachexia. PPAR-γ, PPAR-δ and TFAM were measured at the mRNA and protein level by real-time quantitative PCR and Western blotting, respectively. PPAR-α and PGC-1α were meansured at the mRNA level. PPAR-δ and TFAM protein content, as well as PGC-1α mRNA levels, were decreased in the skeletal muscle of COPD patients compared with healthy controls. The cachectic COPD subgroup was further characterised by decreased PPAR-α mRNA expression and decreased TFAM protein and mRNA levels compared with noncachectic COPD patients. In addition, PPAR-α mRNA levels in skeletal muscle correlated negatively with inflammatory markers in plasma. Therefore, a disturbed expression of these regulatory factors may well underlie the disturbed skeletal muscle functioning in chronic obstructive pulmonary disease.

Efficacy and Costs of Nutritional Rehabilitation in Muscle-Wasted Patients With Chronic Obstructive Pulmonary Disease in a Community-Based Setting: A Prespecified Subgroup Analysis of the INTERCOM Trial

RATIONALE Limited data are available on effectiveness and costs of nutritional rehabilitation for patients with COPD in community care. METHODS In a 2-year RCT, 199 COPD patients (FEV(1)%pred. 60% [SD 16%]) and impaired exercise capacity were randomized to the interdisciplinary community-based COPD management program (INTERCOM) or usual care (UC). A prescheduled subgroup analysis was performed on 39 of 199 patients who were muscle wasted and received UC or nutritional therapy in combination with exercise training. Body composition, muscle strength, and exercise capacity were assessed at baseline and 4, 12, and 24 months. RESULTS Between group differences after 4 months in favor of the intervention group: fat free mass index (FFMI 0.9 kg/m(2) [SE = 0.2, P < .001]), body mass index (BMI 1.0 kg/m(2) [SE = 0.4, P = .009]), maximum inspiratory mouth pressure (Pimax 1.4 kPa [SE = 0.5, P = .011]), quadriceps average power (QAP 13.1 Watt [SE=5.8, P = .036]), 6-minute walking distance (6MWD 27 m, [SE = 11.5, P = .028]), cycle endurance time (CET 525 seconds [SE=195, P = .013]), and peak exercise capacity (Wmax 12 Watt [SE = 5, P = .036]). Between group difference over 24 months in favor of the intervention group: Pimax 1.7 kPa (SE = 0.53, P = .004), QAP 19 Watt (SE = 6, P = .005), 6MWD 57 (SE = 19, P = .006), and CET 485 seconds (SE = 159, P = .006). After 4 months total costs were Euro 1501 higher in the intervention group than in the UC group (P < .05), but not significantly different after 24 months. Hospital admission costs were significantly lower in the intervention group -euro 4724 (95% CI -7704, -1734). CONCLUSION This study in muscle-wasted COPD patients with moderate airflow obstruction shows a prolonged positive response to nutritional support integrated in a community-based rehabilitation program.

Cellular protein breakdown and systemic inflammation are unaffected by pulmonary rehabilitation in COPD.

Background: Pulmonary rehabilitation can improve the functional capacity, but has a variable effect on the low fat-free mass (FFM) in patients with chronic obstructive pulmonary disease. Hypothesis: Pulmonary rehabilitation would not affect catabolic drives such as systemic inflammation and also protein breakdown. Methods: Patients (n = 40) were studied at the start of an 8-week in-patient pulmonary rehabilitation programme, at the end of the programme and 4 weeks later. FFM and functional capacity (quadriceps strength, handgrip strength and peak workload) were assessed. Pseudouridine (PSU) urinary excretion (cellular protein breakdown) and inflammatory status were determined. Healthy participants had a single baseline assessment (n = 18). Results: PSU, (IL)-6 and soluble tumour necrosis factor (sTNF)α R75 were increased in patients compared with healthy participants, whereas FFM and functional capacity were reduced (all p<0.01). PSU was inversely related to both FFM and skeletal muscle function. FFM and functional parameters increased with rehabilitation, but PSU and inflammatory status were unaffected. The gain in FFM was lost 4 weeks after the completion of rehabilitation (p<0.01). Conclusion: The anabolic effect of pulmonary rehabilitation improved FFM, but it did not reverse the increased protein breakdown or systemic inflammation. Thus, on cessation of pulmonary rehabilitation the FFM gains were lost owing to a loss of anabolic drive.

Optimizing oral nutritional drink supplementation in patients with chronic obstructive pulmonary disease

Nutritional support is indicated in some patients with chronic obstructive pulmonary disease to restore nutritional status and improve functional capacity. However, the efficacy of nutritional supplements is sometimes disappointing, partly owing to a compensatory drop in habitual food intake. We retrospectively studied the effect of nutritional drink supplements, differing in portion size and energy content, on weight gain and body composition. Thirty-nine patients with stable chronic obstructive pulmonary disease, participating in an 8-week pulmonary rehabilitation programme and eligible for nutritional support, were studied. Group A ( n 19) received three portions of 125 ml (2380 kJ), whereas group B ( n 20) received three portions of 200 ml (3350 kJ) daily. The macronutrient composition of the regimens was similar (20 % protein, 60 % carbohydrates and 20 % fat). Lung function, body weight, body composition (by bio-electrical impedance analysis), habitual dietary intake (by dietary history) and resting energy expenditure (by ventilated hood) were determined. Weight gain was compared with expected weight as predicted by a computer simulation model. Although patients in both groups significantly increased in weight, this increase was higher in group A (A, 3·3 (sd 1·9) kg; B, 2·0 (sd 1·2) kg; P =0·019), while receiving less energy. The observed weight gain in group A was similar to that expected, but in group B it was lower than expected ( P