Azithromycin for prevention of exacerbations of COPD

Lung T-cell responses to nontypeable Haemophilus influenzae in patients with chronic obstructive pulmonary disease

BACKGROUND

Chronic obstructive pulmonary disease (COPD) is characterized by pulmonary inflammation that persists after the cessation of smoking. T cells have a major role in driving inflammation in patients with COPD and are activated by specific antigens to produce mediators, such as cytokines. The antigens that activate lung T cells have not been clearly defined. Nontypeable Haemophilus influenzae (NTHi) is the dominant bacterium isolated from the lungs of patients with COPD.

OBJECTIVE

We sought to measure the response of lung tissue T cells to stimulation with NTHi.

METHODS

We obtained lung tissue from 69 subjects having lobectomies for lung cancer. Of the group, 39 subjects had COPD, and 30 without COPD were classified as control subjects. The lung tissue was dispersed into single-cell suspensions and stimulated with live NTHi. Cells were labeled with antibodies for 5 important inflammatory mediators in patients with COPD and analyzed by using flow cytometry.

RESULTS

NTHi produced strong activation of both TH cells and cytotoxic T cells in the COPD cohort. The COPD cohort had significantly higher levels of cells producing TNF-α, IL-13, and IL-17 in both T-cell subsets. When control subjects were divided into those with and without a significant smoking history and compared with patients with COPD, there was a progressive increase in the numbers of T cells producing cytokines from nonsmoking control subjects to smoking control subjects to patients with COPD.

CONCLUSION

NTHi activates lung T cells in patients with COPD. This proinflammatory profibrotic response might be a key cause of inflammation in patients with COPD and has implications for treatment.

[Alveolar epithelial cell injury as an etiopathogenic factor in pulmonary fibrosis]

Idiopathic pulmonary fibrosis (IPF) is characterized by a progressive accumulation of extracellular matrix and an imbalance between profibrotic and antifibrotic mediators. In the last few years, understanding of the mechanisms of the biology of IPF has increased. One of the most significant discoveries is the finding that alveolar epithelial cell injury plays an important role in the pathogenesis of this disease. In this review, we describe some of the mechanisms involved in alveolar cell injury and their contribution to the development of IPF.

Experimental therapeutics of Nrf2 as a target for prevention of bacterial exacerbations in COPD

A growing body of evidence indicates that oxidative stress plays a central role in the progression of chronic obstructive pulmonary disease (COPD). Chronic oxidative stress caused by cigarette smoke generates damage-associated molecular patterns (DAMPs), such as oxidatively or nitrosatively modified proteins and extracellular matrix fragments, which induce abnormal airway inflammation by activating innate and adaptive immune responses. Furthermore, oxidative stress-induced histone deacetylase 2 (HDAC2) inactivity is implicated in amplifying inflammatory responses and corticosteroid resistance in COPD. Oxidative stress also mediates disruption of innate immune defenses, which is associated with acute exacerbation of COPD. Host defense transcription factor Nuclear factor erythroid 2-related factor 2 (Nrf2) regulates a multifaceted cytoprotective response to counteract oxidative stress-induced pathological injuries. A decrease in Nrf2 signaling is associated with the progression of diseases. Recent evidence indicates that targeting Nrf2 can be a novel therapy to mitigate inflammation, improve innate antibacterial defenses, and restore corticosteroid responses in patients with COPD.

Pulmonary arterial enlargement and acute exacerbations of COPD

BACKGROUND

Exacerbations of chronic obstructive pulmonary disease (COPD) are associated with accelerated loss of lung function and death. Identification of patients at risk for these events, particularly those requiring hospitalization, is of major importance. Severe pulmonary hypertension is an important complication of advanced COPD and predicts acute exacerbations, though pulmonary vascular abnormalities also occur early in the course of the disease. We hypothesized that a computed tomographic (CT) metric of pulmonary vascular disease (pulmonary artery enlargement, as determined by a ratio of the diameter of the pulmonary artery to the diameter of the aorta [PA:A ratio] of >1) would be associated with severe COPD exacerbations.

METHODS

We conducted a multicenter, observational trial that enrolled current and former smokers with COPD. We determined the association between a PA:A ratio of more than 1 and a history at enrollment of severe exacerbations requiring hospitalization and then examined the usefulness of the ratio as a predictor of these events in a longitudinal follow-up of this cohort, as well as in an external validation cohort. We used logistic-regression and zero-inflated negative binomial regression analyses and adjusted for known risk factors for exacerbation.

RESULTS

Multivariate logistic-regression analysis showed a significant association between a PA:A ratio of more than 1 and a history of severe exacerbations at the time of enrollment in the trial (odds ratio, 4.78; 95% confidence interval [CI], 3.43 to 6.65; P<0.001). A PA:A ratio of more than 1 was also independently associated with an increased risk of future severe exacerbations in both the trial cohort (odds ratio, 3.44; 95% CI, 2.78 to 4.25; P<0.001) and the external validation cohort (odds ratio, 2.80; 95% CI, 2.11 to 3.71; P<0.001). In both cohorts, among all the variables analyzed, a PA:A ratio of more than 1 had the strongest association with severe exacerbations.

CONCLUSIONS

Pulmonary artery enlargement (a PA:A ratio of >1), as detected by CT, was associated with severe exacerbations of COPD. (Funded by the National Heart, Lung, and Blood Institute; ClinicalTrials.gov numbers, NCT00608764 and NCT00292552.).

Lung microbiology and exacerbations in COPD

Chronic obstructive pulmonary disease (COPD) is the most common chronic respiratory condition in adults and is characterized by progressive airflow limitation that is not fully reversible. The main etiological agents linked with COPD are cigarette smoking and biomass exposure but respiratory infection is believed to play a major role in the pathogenesis of both stable COPD and in acute exacerbations. Acute exacerbations are associated with more rapid decline in lung function and impaired quality of life and are the major causes of morbidity and mortality in COPD. Preventing exacerbations is a major therapeutic goal but currently available treatments for exacerbations are not very effective. Historically, bacteria were considered the main infective cause of exacerbations but with the development of new diagnostic techniques, respiratory viruses are also frequently detected in COPD exacerbations. This article aims to provide a state-of-the art review of current knowledge regarding the role of infection in COPD, highlight the areas of ongoing debate and controversy, and outline emerging technologies and therapies that will influence future diagnostic and therapeutic pathways in COPD.

Virus infection-induced bronchial asthma exacerbation

Infection with respiratory viruses, including rhinoviruses, influenza virus, and respiratory syncytial virus, exacerbates asthma, which is associated with processes such as airway inflammation, airway hyperresponsiveness, and mucus hypersecretion. In patients with viral infections and with infection-induced asthma exacerbation, inflammatory mediators and substances, including interleukins (ILs), leukotrienes and histamine, have been identified in the airway secretions, serum, plasma, and urine. Viral infections induce an accumulation of inflammatory cells in the airway mucosa and submucosa, including neutrophils, lymphocytes and eosinophils. Viral infections also enhance the production of inflammatory mediators and substances in airway epithelial cells, mast cells, and other inflammatory cells, such as IL-1, IL-6, IL-8, GM-CSF, RANTES, histamine, and intercellular adhesion molecule-1. Viral infections affect the barrier function of the airway epithelial cells and vascular endothelial cells. Recent reports have demonstrated augmented viral production mediated by an impaired interferon response in the airway epithelial cells of asthma patients. Several drugs used for the treatment of bronchial asthma reduce viral and pro-inflammatory cytokine release from airway epithelial cells infected with viruses. Here, I review the literature on the pathogenesis of the viral infection-induced exacerbation of asthma and on the modulation of viral infection-induced airway inflammation.

Previous outpatient antibiotic use in patients admitted to hospital for COPD exacerbations: room for improvement

PURPOSE

Several studies have analyzed factors associated to hospitalization in chronic obstructive pulmonary disease (COPD) patients. However, data are lacking on the quality of treatment received by patients prior to hospital admission. The present study analyzed how often patients requiring hospitalization for a COPD exacerbation had received previous treatment for the exacerbation, particularly antibiotics.

METHODS

This was a multicenter, cross-sectional, observational study conducted in 30 Spanish hospitals among COPD patients aged >40 years who were hospitalized for an acute exacerbation. Patients were grouped according to whether or not they had received treatment prior to admission and, subsequently, according to whether or not they had received antibiotics. Patient eligibility for antibiotic therapy was assessed using both national and European guidelines.

RESULTS

The study population consisted of 298 patients, of which 277 (93 %) were men, with a mean [standard deviation (SD)] age of 69.1 (9.5) years. One hundred and thirty-three patients (45 %) had received treatment prior to admission; among these, 76/133 (57 %) had received antibiotic therapy. However, 81-91 % of these patients fulfilled criteria for this therapy. Antibiotic use was significantly associated with yellow or green-yellow sputum prior to the exacerbation, a higher number of exacerbations in the previous year, more visits to emergency departments, and bronchiectasis. On the other hand, 10-20 % of patients who did receive antibiotics were not eligible for this therapy according to guidelines.

CONCLUSIONS

This study demonstrates a low rate of previous outpatient treatment and antibiotic use among patients with a COPD exacerbation requiring hospital admission.

Azithromycin for prevention of exacerbations in non-cystic fibrosis bronchiectasis (EMBRACE): a randomised, double-blind, placebo-controlled trial

BACKGROUND

Azithromycin is a macrolide antibiotic with anti-inflammatory and immunomodulatory properties. We tested the hypothesis that azithromycin would decrease the frequency of exacerbations, increase lung function, and improve health-related quality of life in patients with non-cystic fibrosis bronchiectasis.

METHODS

We undertook a randomised, double-blind, placebo-controlled trial at three centres in New Zealand. Between Feb 12, 2008, and Oct 15, 2009, we enrolled patients who were 18 years or older, had had at least one pulmonary exacerbation requiring antibiotic treatment in the past year, and had a diagnosis of bronchiectasis defined by high-resolution CT scan. We randomly assigned patients to receive 500 mg azithromycin or placebo three times a week for 6 months in a 1:1 ratio, with a permuted block size of six and sequential assignment stratified by centre. Participants, research assistants, and investigators were masked to treatment allocation. The coprimary endpoints were rate of event-based exacerbations in the 6-month treatment period, change in forced expiratory volume in 1 s (FEV(1)) before bronchodilation, and change in total score on St George's respiratory questionnaire (SGRQ). Analyses were by intention to treat. This study is registered with the Australian New Zealand Clinical Trials Registry, number ACTRN12607000641493.

FINDINGS

71 patients were in the azithromycin group and 70 in the placebo group. The rate of event-based exacerbations was 0·59 per patient in the azithromycin group and 1·57 per patient in the placebo group in the 6-month treatment period (rate ratio 0·38, 95% CI 0·26-0·54; p<0·0001). Prebronchodilator FEV(1) did not change from baseline in the azithromycin group and decreased by 0·04 L in the placebo group, but the difference was not significant (0·04 L, 95% CI -0·03 to 0·12; p=0·251). Additionally, change in SGRQ total score did not differ between the azithromycin (-5·17 units) and placebo groups (-1·92 units; difference -3·25, 95% CI -7·21 to 0·72; p=0·108).

INTERPRETATION

Azithromycin is a new option for prevention of exacerbations in patients with non-cystic fibrosis bronchiectasis with a history of at least one exacerbation in the past year.

FUNDING

Health Research Council of New Zealand and Auckland District Health Board Charitable Trust.

Corticosteroids: still at the frontline in asthma treatment?

Inhaled corticosteroids (ICS) have led to improved asthma control and reduced asthma mortality in the Western world. ICS are effective in combating T-helper type 2-driven inflammation featuring mast cell and eosinophilic airway infiltration. Their effect on innate immunity-driven neutrophilic inflammation is poor and their ability to prevent airway remodeling and accelerated lung decline is controversial. Although ICS remain pivotal drugs in asthma management, research is needed to find drugs complementary to the combination ICS/long-acting β2-agonist in refractory asthma and perhaps a new class of drugs as a first-line treatment in mild to moderate noneosinophilic asthma.

[Spanish COPD Guidelines (GesEPOC): Pharmacological treatment of stable COPD]

Recognizing the clinical heterogeneity of COPD suggests a specific therapeutic approach directed by the so-called clinical phenotypes of the disease. The Spanish COPD Guidelines (GesEPOC) is an initiative of SEPAR, which, together with the scientific societies involved in COPD patient care, and the Spanish Patient Forum, has developed these new clinical practice guidelines. This present article describes the severity classification and the pharmacological treatment of stable COPD. GesEPOC identifies four clinical phenotypes with differential treatment: non-exacerbator, mixed COPD-asthma, exacerbator with emphysema and exacerbator with chronic bronchitis. Pharmacological treatment of COPD is based on bronchodilation in addition to other drugs depending on the clinical phenotype and severity. Severity is established by the BODE/BODEx multidimensional scales. Severity can also be approximated by assessing airflow obstruction, dyspnea, level of physical activity and history of exacerbations. GesEPOC is a new, more individualized approach to COPD treatment according to the clinical characteristics of the patients.

COPD exacerbations: causes, prevention, and treatment

The mechanisms of COPD exacerbation are complex. Respiratory viruses (in particular rhinovirus) and bacteria play a major role in the causative etiology of COPD exacerbations. In some patients, noninfective environmental factors may also be important. Data recently published from a large observational study identified a phenotype of patients more susceptible to frequent exacerbations. Many current therapeutic strategies can reduce exacerbation frequency. Future studies may target the frequent exacerbator phenotype, or those patients colonized with potential bacterial pathogens, for such therapies as long-term antibiotics, thus preventing exacerbations by decreasing bacterial load or preventing new strain acquisition in the stable state. Respiratory viral infections are also an important therapeutic target for COPD. Further work is required to develop new anti-inflammatory agents for exacerbation prevention, and novel acute treatments to improve outcomes at exacerbation.

Consider adding this drug to fight COPD that's severe

Daily use of azithromycin, in conjunction with the usual COPD regimen, has been found to reduce acute exacerbations in patients with moderate to severe disease.

Defining patient-reported outcomes in chronic obstructive pulmonary disease: the patient-centered experience

Patients with COPD have reduced HRQOL, and HRQOL worsens as COPD progresses.Although long-term interventions such as smoking cessation, supplemental oxygen therapy for hypoxemia, LVRS, and lung transplantation may save lives, these and other therapies have variable but important effects on PROs. Measures of HRQOL can serve as measures of disease severity and predict outcome. Moreover, these measures are sensitive to change following interventions, and can thus be used as measures of intervention effect. Future research will provide a better understanding of the effects of COPD on HRQOL and the impact of various interventions.

An integrated approach to the medical treatment of chronic obstructive pulmonary disease

COPD is a treatable condition for which careful and objective evaluation of patients’ lung function, symptoms, exercise capacity, and exacerbation history on an ongoing basis is essential so that treatments may be individualized as much as possible. Although the comparative effectiveness of drug classes has not yet been tested completely in COPD, virtually all inhaled COPD therapies improve lung function, quality of life, and reduce COPD exacerbations, which fulfills the major goals of care. Pulmonary rehabilitation is safe, effective, and a crucial component of COPD therapy. Newer therapies have been developed with the specific purpose of reducing COPD exacerbations and should be prescribed to individuals who have evidence of recurrent exacerbations despite maximal inhaled maintenance medications.

Immunomodulatory effects of antimicrobial agents. Part I: antibacterial and antiviral agents

Despite impressive therapeutic progresses in the battle against infections, microorganisms are still a threat to mankind. With hundreds of antibacterial molecules, major concerns remain about the emergence of resistant and multidrug-resistant pathogens. On the other hand, the antiviral drug armamentarium is comprised of only a few dozens of compounds which are highly pathogen specific, and resistance is also a concern. According to Arturo Casadevall (Albert Einstein College of Medicine, NY, USA), we have now entered the third era of anti-infective strategy, which intends to favor the interplay between active molecules and the immune system. The first part of this review focuses on the potential immunomodulating properties of anti-infective agents, beginning with antibacterial and antiviral agents.

Influence of macrolide maintenance therapy and bacterial colonisation on exacerbation frequency and progression of COPD (COLUMBUS): study protocol for a randomised controlled trial

BACKGROUND

Chronic obstructive pulmonary disease (COPD) is characterised by progressive development of airflow limitation that is poorly reversible. Because of a poor understanding of COPD pathogenesis, treatment is mostly symptomatic and new therapeutic strategies are limited. There is a direct relationship between the severity of the disease and the intensity of the inflammatory response. Besides smoking, one of the hypotheses for the persistent airway inflammation is the presence of recurrent infections. Macrolide antibiotics have bacteriostatic as well as anti-inflammatory properties in patients with cystic fibrosis and other inflammatory pulmonary diseases. There is consistent evidence that macrolide therapy reduces infectious exacerbations, decreases the requirement for additional antibiotics and improves nutritional measures. Because of these positive effects we hypothesised that maintenance macrolide therapy may also have beneficial effects in patients with COPD who have recurrent exacerbations. The effects on development of bacterial resistance to macrolides due to this long-term treatment are unknown. Until now, studies investigating macrolide therapy in COPD are limited. The objective of this study is to assess whether maintenance treatment with macrolide antibiotics in COPD patients with three or more exacerbations in the previous year decreases the exacerbation rate in the year of treatment and to establish microbial resistance due to the long-term treatment.

METHODS/DESIGN

The study is set up as a prospective randomised double-blind placebo-controlled single-centre trial. A total of 92 patients with COPD who have had at least three exacerbations of COPD in the previous year will be included. Subjects will be randomised to receive either azithromycin 500 mg three times a week or placebo. Our primary endpoint is the reduction in the number of exacerbations of COPD in the year of treatment.

DISCUSSION

We investigate whether long-term therapy with macrolide antibiotics can prevent exacerbations in patients with COPD. Additionally, our study aims to assess the effect of long-term use of macrolide on the development of antimicrobial resistance and on inflammatory parameters related to COPD. We believe this study will provide more data on the effects of macrolide treatment in patients in COPD and will add more knowledge on its working mechanisms.

TRIAL REGISTRATION

http://www.clinicaltrials.gov NCT00985244.

The management of asthma and chronic obstructive pulmonary disease: current status and future perspectives

Asthma and chronic obstructive pulmonary disease (COPD) represent the leading chronic respiratory diseases of interest in the word, owing to their high prevalence and burden on the health system. Care of these patients, undergoing frequent exacerbations, is a heavy burden on healthcare systems. In the last few years, large improvements in the management of asthma and COPD have been made, owing to new drugs and management strategies, and to the improvement of the nonpharmacologic treatment of COPD. There are still many unmet needs in the treatment of these diseases. In asthma, strategies to improve control should be implemented. There is a need to use more biomarkers to tailor treatment, in the assessment and choice of appropriate therapy, especially in severe patients. In COPD, there is growing evidence of individual differences in lung function decline rate and associated differences in appropriate management strategies. Early effective and prolonged bronchodilation can slow disease progression and reduce the frequency of exacerbations. New perspectives include the use of biologic drugs (anticytokine monoclonal antibodies) in selected categories of severe asthmatics, potential new inhibitors of chemokines and cytokines involved in the pathobiology of asthma and COPD, and a further improvement of current drugs and better implementation of management strategies, particularly in COPD patients.

Glucocorticoids relieve collectin-driven suppression of apoptotic cell uptake in murine alveolar macrophages through downregulation of SIRPα

The lung environment actively inhibits apoptotic cell (AC) uptake by alveolar macrophages (AMøs) via lung collectin signaling through signal regulatory protein α (SIRPα). Even brief glucocorticoid (GC) treatment during maturation of human blood monocyte-derived or murine bone marrow-derived macrophages (Møs) increases their AC uptake. Whether GCs similarly impact differentiated tissue Møs and the mechanisms for this rapid response are unknown and important to define, given the widespread therapeutic use of inhaled GCs. We found that the GC fluticasone rapidly and dose-dependently increased AC uptake by murine AMøs without a requirement for protein synthesis. Fluticasone rapidly suppressed AMø expression of SIRPα mRNA and surface protein, and also activated a more delayed, translation-dependent upregulation of AC recognition receptors that was not required for the early increase in AC uptake. Consistent with a role for SIRPα suppression in rapid GC action, murine peritoneal Møs that had not been exposed to lung collectins showed delayed, but not rapid, increase in AC uptake. However, pretreatment of peritoneal Møs with the lung collectin surfactant protein D inhibited AC uptake, and fluticasone treatment rapidly reversed this inhibition. Thus, GCs act not only by upregulating AC recognition receptors during Mø maturation but also via a novel rapid downregulation of SIRPα expression by differentiated tissue Møs. Release of AMøs from inhibition of AC uptake by lung collectins may, in part, explain the beneficial role of inhaled GCs in inflammatory lung diseases, especially emphysema, in which there is both increased lung parenchymal cell apoptosis and defective AC uptake by AMøs.

Spanish COPD Guidelines (GesEPOC): pharmacological treatment of stable COPD. Spanish Society of Pulmonology and Thoracic Surgery

Recognizing the clinical heterogeneity of COPD suggests a specific therapeutic approach directed by the so-called clinical phenotypes of the disease. The Spanish COPD Guidelines (GesEPOC) is an initiative of SEPAR, which, together with the scientific societies involved in COPD patient care, and the Spanish Patient Forum, has developed these new clinical practice guidelines. This present article describes the severity classification and the pharmacological treatment of stable COPD. GesEPOC identifies four clinical phenotypes with differential treatment: non-exacerbator, mixed COPD-asthma, exacerbator with emphysema and exacerbator with chronic bronchitis. Pharmacological treatment of COPD is based on bronchodilation in addition to other drugs depending on the clinical phenotype and severity. Severity is established by the BODE/BODEx multidimensional scales. Severity can also be approximated by assessing airflow obstruction, dyspnea, level of physical activity and history of exacerbations. GesEPOC is a new, more individualized approach to COPD treatment according to the clinical characteristics of the patients.

Significance of the microbiome in obstructive lung disease

The composition of the lung microbiome contributes to both health and disease, including obstructive lung disease. Because it has been estimated that over 70% of the bacterial species on body surfaces cannot be cultured by currently available techniques, traditional culture techniques are no longer the gold standard for microbial investigation. Advanced techniques that identify bacterial sequences, including the 16S ribosomal RNA gene, have provided new insights into the depth and breadth of microbiota present both in the diseased and normal lung. In asthma, the composition of the microbiome of the lung and gut during early childhood development may play a key role in the development of asthma, while specific airway microbiota are associated with chronic asthma in adults. Early bacterial stimulation appears to reduce asthma susceptibility by helping the immune system develop lifelong tolerance to innocuous antigens. By contrast, perturbations in the microbiome from antibiotic use may increase the risk for asthma development. In chronic obstructive pulmonary disease, bacterial colonisation has been associated with a chronic bronchitic phenotype, increased risk of exacerbations, and accelerated loss of lung function. In cystic fibrosis, studies utilising culture-independent methods have identified associations between decreased bacterial community diversity and reduced lung function; colonisation with Pseudomonas aeruginosa has been associated with the presence of certain CFTR mutations. Genomic analysis of the lung microbiome is a young field, but has the potential to define the relationship between lung microbiome composition and disease course. Whether we can manipulate bacterial communities to improve clinical outcomes remains to be seen.

Antimicrobial therapy for bronchiectasis

Antibiotics have a role in the management of acute exacerbations of bronchiectasis and may also benefit selected subsets of patients with bronchiectasis as a part of a long-term maintenance strategy. At present, there are no Food and Drug Administration-approved antibiotics for acute or chronic management of bronchiectasis. Clinical trials are underway to determine the efficacy and safety of various inhaled antibiotics for chronic therapy for bronchiectasis. Until those results are available, clinicians need to tailor their therapies to individual patients based on their best clinical judgment and information from data and guidelines currently available in the published literature.

Azithromycin inhibits mucus hypersecretion from airway epithelial cells

To examine the in vivo effects of the 15-member macrolide, azithromycin (AZM), on mucus hypersecretion, we induced hypertrophic and metaplastic changes of goblet cells in rat nasal epithelium by intranasal instillation of ovalbumin (OVA) in OVA-sensitized rats, or by intranasal lipopolysaccharides (LPS) instillation. Oral administration of AZM (5–10 mg/kg) or clarithromycin (CAM, 5–10 mg/kg) significantly inhibited OVA- and LPS-induced mucus production, whereas josamycin (JM) or ampicillin (ABPC) showed no effect. In vitro effects of AZM on airway epithelial cells were examined using NCI-H292 cells and human nasal epithelial cells cultured in air-liquid interface. Mucus secretion was evaluated by enzyme-linked immunosorbent assay using an anti-MUC5AC monoclonal antibody. AZM or CAM significantly inhibited tumor necrosis factor-α (TNF-α) (20 ng/mL)-induced MUC5AC secretion from NCI-H292 cells at 10⁻⁶–10⁻⁷ M, whereas JM or ABPC showed no effect. AZM significantly inhibited TNF-α (20 ng/mL)-induced MUC5AC secretion from human nasal epithelial cells at 10⁻⁴ M. MUC5AC mRNA expression was also significantly inhibited. These results indicate that the 15-member macrolide, AZM, exerts direct inhibitory effects on mucus secretion from airway epithelial cells and that it may be useful for the treatment of mucus hypersecretion caused by allergic inflammation and LPS stimulation.

Chronic obstructive pulmonary disease

Chronic obstructive pulmonary disease (COPD) is characterised by progressive airflow obstruction that is only partly reversible, inflammation in the airways, and systemic effects or comorbities. The main cause is smoking tobacco, but other factors have been identified. Several pathobiological processes interact on a complex background of genetic determinants, lung growth, and environmental stimuli. The disease is further aggravated by exacerbations, particularly in patients with severe disease, up to 78% of which are due to bacterial infections, viral infections, or both. Comorbidities include ischaemic heart disease, diabetes, and lung cancer. Bronchodilators constitute the mainstay of treatment: β(2) agonists and long-acting anticholinergic agents are frequently used (the former often with inhaled corticosteroids). Besides improving symptoms, these treatments are also thought to lead to some degree of disease modification. Future research should be directed towards the development of agents that notably affect the course of disease.

Bronchiectasis and nontuberculous mycobacterial disease

Over the last 30 years it has become increasingly clear that nontuberculous mycobacterial (NTM) lung infections and bronchiectasis are closely related disorders. Although incontrovertible proof is lacking, there is a growing consensus of opinion that NTM lung disease characterized by nodules and bronchiectasis (nodular/bronchiectatic NTM lung disease) may be a consequence of preexisting bronchiectasis that predisposes to NTM infection and disease. To use published diagnostic guidelines effectively, physicians must become familiar with the disease-causing potential of individual NTM species. Essentially all NTM patients have bronchiectasis, so optimal overall patient management requires successful therapeutic strategies for both NTM infection and bronchiectasis.

Transition of patients with COPD across different care settings: challenges and opportunities for hospitalists

Hospitalists play an important role in treating current and preventing future acute exacerbations of chronic obstructive pulmonary disease (AECOPD), which are associated with high rates of medical resource use and morbidity. Comprehensive admission screening and diagnostic tests are important in enabling hospitalists to reliably identify patients with AECOPD, the severity of the episode, and related issues that may prolong patients' hospital length of stay. Recurring exacerbations, especially those that require repeated acute care, can reduce physical activity and accelerate pulmonary decline and risk of death. Recommended pharmacotherapies for AECOPD should include short-acting bronchodilators, systemic corticosteroids, and appropriate antibiotics in cases of suspected bacterial infection. Patients with demonstrable hypoxemia or respiratory failure may benefit from oxygen and/or ventilatory support. Long-term disease management with the goal of preventing future exacerbations should include ongoing emphasis toward smoking cessation and up-to-date vaccination, in addition to prescribing maintenance pharmacotherapies in accordance with respiratory treatment guidelines. Additional benefits may be derived from nonpharmacologic therapies, such as pulmonary rehabilitation, weight-loss recommendations, and treatment of obstructive sleep dyspnea when present. Effective communication among members of the inpatient and outpatient health care teams, the patient, and his or her caregivers is an important aspect of care transitions. Hospital discharge summaries should be transmitted to the patient's primary care physician and be readily available at the first follow-up visit. Discharge coaches and other allied health care providers can aid hospitalists in reinforcing self-management skills and patient education, and in emphasizing the importance of follow-up visits. Recent findings suggest that health and cost benefits are associated with improved COPD management. This article focuses on the pivotal role of the hospitalist in promoting and facilitating the steps toward improving quality outcomes and transitions of care for patients with COPD.

Antibiotics as immunomodulant agents in COPD

It is widely accepted that some antibiotics have activities beyond their direct antibacterial effects. Macrolide is the antibiotic class with more convincing studies and evidence on its immunomodulatory and anti-inflammatory activities. Different clinical studies have shown that macrolide prophylaxis in patients with moderate-severe chronic obstructive pulmonary disease (COPD) can have a significant impact on the exacerbation rate reducing morbidity and, potentially, mortality of the disease. Other antibiotics, such as fluoroquinolones, demonstrate a variety of immunomodulatory effects but only few clinical data are available in COPD. New macrolide derivatives devoid of antibacterial activity have been synthetized. This review analyses the relevance of immunomodulatory and anti-inflammatory effects of antibiotics in the management of COPD.

Vitamin D and Chronic Obstructive Pulmonary Disease

Vitamin D is an important regulator of calcium and bone homeostasis. It is also involved in the regulation of different genes and cellular functions, particularly in the context of inflammation, regeneration and immune control. Conversely, vitamin D deficiency which is often found in chronic, infectious and inflammatory diseases is thought to drive or enhance uncontrolled inflammation. Chronic obstructive pulmonary disease (COPD) is characterized by chronic inflammation of the airways most often because of cigarette smoking. It has been recognized that repetitive airway infections and systemic consequences or co-morbidities also contribute to the progressive nature of COPD. Vitamin D deficiency is known to sneak in from the early stages of COPD, to become highly prevalent at the more severe stages, and may thereby catalyse airway infection, inflammation and systemic consequences. Undoubtedly, vitamin D deficiency enhances bone resorption and osteoporosis in COPD for which appropriate vitamin D supplementation is recommended. However, conflicting evidence has emerged on the extra-calcemic effects of vitamin D in COPD. A recent intervention trial with high-dose supplementation in COPD was only able to reduce exacerbation frequency in the subgroup of patients with lowest baseline vitamin D levels. It confirms that severe vitamin D deficiency is a health hazard but that more clinical and experimental studies are needed to explore how vitamin D deficiency may affect airway biology and systemic effects in the context of smoke-induced lung diseases.

Idiopathic pulmonary fibrosis: pathobiology of novel approaches to treatment

Idiopathic pulmonary fibrosis (IPF) is a progressive disease of unknown cause that conveys a dismal prognosis. In the United States there are currently no licensed therapies for treatment of IPF. The development of effective IPF clinical trials networks across the United States and Europe, however, has led to key developments in the treatment of IPF. Advances in understanding of the pathogenetic processes involved in the development of pulmonary fibrosis have led to novel therapeutic targets. These developments offer hope that there may, in the near future, be therapeutic options available for treatment of this devastating disease.

Clinical phenotypes of COPD: identification, definition and implications for guidelines

The term phenotype in the field of COPD is defined as "a single or combination of disease attributes that describe differences between individuals with COPD as they relate to clinically meaningful outcomes". Among all phenotypes described, there are three that are associated with prognosis and especially are associated with a different response to currently available therapies. There phenotypes are: the exacerbator, the overlap COPD-asthma and the emphysema-hyperinflation. The exacerbator is characterised by the presence of, at least, two exacerbations the previous year, and on top of long-acting bronchodilators, may require the use of antiinflammatory drugs. The overlap phenotype presents symptoms of increased variability of airflow and incompletely reversible airflow obstruction. Due to the underlying inflammatory profile, it uses to have a good therapeutic response to inhaled corticosteroids in addition to bronchodilators. Lastly, the emphysema phenotype presents a poor therapeutic response to the existing antiinflammatory drugs and long-acting bronchodilators together with rehabilitation are the treatments of choice. Identifying the peculiarities of the different phenotypes of COPD will allow us to implement a more personalised treatment, in which the characteristics of the patients, together with their severity will be key to choose the best treatment option.