key: cord-0019161-swwnizzd authors: López-Campos, Jose Luis; Carrasco Hernández, Laura; Ruiz-Duque, Borja; Reinoso-Arija, Rocio; Caballero-Eraso, Candelaria title: Step-Up and Step-Down Treatment Approaches for COPD: A Holistic View of Progressive Therapies date: 2021-07-12 journal: Int J Chron Obstruct Pulmon Dis DOI: 10.2147/copd.s275943 sha: b71ec10b2e6f1c7bcbae616456516792665bf3bb doc_id: 19161 cord_uid: swwnizzd Recent advances in inhaled drugs and a clearer definition of the disease have made the task of managing COPD more complex. Different proposals have been put forward which combine all the available treatments and the different clinical presentations in an effort to select the best therapeutic options for each clinical context. As COPD is a chronic progressive disease, the escalation of therapy has traditionally been considered the most natural way to tackle it. However, the notion of COPD as a constantly progressing disease has recently been challenged and, in specific areas, this points to the possibility of a de-escalation in treatment. In this context, the clinician requires simple, specific recommendations to guide these changes in treatment in their daily clinical practice. To accomplish this, the first step must be a correct evaluation and an accurate initial preliminary diagnosis of the patient’s condition. Thereafter, the first escalation in therapy must be introduced with caution as the disease progresses, since clinical trials are not designed with clinical decision-making in mind. During this escalation, three possibilities are open to change the current treatment for a different one within the same family, to increase non-pharmacological interventions or to increase the pharmacological therapies. Beyond that point, a patient with persistent symptoms represents a complex clinical scenario which requires a specialized approach, including the evaluation of different respiratory and non-respiratory comorbidities. Unfortunately, there are few de-escalation studies available, and these are mainly observational in nature. The debate on de-escalation in pharmacological treatment, therefore, involves two main discussion points: the withdrawal of bronchodilators and the withdrawal of inhaled steroids. Altogether, the scheme for modifying treatment must be more personalized than just adding molecules, and the therapeutic response and its conditioning factors should be evaluated at each step before proceeding further. In recent decades, advances in inhaled drugs have notably expanded the therapeutic options available for treating chronic obstructive pulmonary disease (COPD). Additionally, the implementation of high-throughput technology and big data analysis have created better opportunities to describe the signs and symptoms of the disease. 1, 2 Consequently, the task of managing COPD correctly has become more complex and there have been calls for a more simple and realistic approach. 3 Different proposals have been put forward combining all the available treatments and different clinical presentations in an effort to select the best therapeutic options for each clinical context. 4 Some proposals are based on different key variables, as in the Global Initiative for Obstructive Lung Disease (GOLD) documents. 5 Others have proposed a phenotype-based approach which has also gained popularity via the Spanish Guidelines for COPD (GesEPOC). 6 Although both initiatives have benefits and drawbacks, 7, 8 they provide an opportunity for clinicians to manage COPD more successfully in their daily clinical practice. Nowadays, at the start of this new decade, COPD management has progressed to the stage where specific patient-based recommendations can be provided. 9 As COPD is a chronic progressive disease, escalation of therapy has been traditionally been considered the natural step in its treatment. However, the notion of COPD as a constantly progressing disease has been recently challenged, 10, 11 and this presents the chance for deescalation of treatment in specific scenarios. Accordingly, clear guidelines are required to understand the different clinical scenarios and how to escalate and de-escalate therapies at the patient level. In this paper, we would like to review the main studies regarding the selection of treatments for COPD. Our aim is to help clinicians in their day-to-day clinical decision-making by considering all the possible options and focusing specifically on the patient. Before we begin to unravel the different clinical options and the determinants that condition clinical decisionmaking in COPD, a brief critical reflection is required to set the scenario on which to base the clinical discussion. In this debate, the main problem is that the available information comes basically from clinical trials designed and carried out by pharmaceutical companies. It is important to note that clinical trials with drugs are designed and conducted under strict conditions according to the requirements of evaluation agencies, mainly the US Food and Drug Administration and the European Medicines Agency. The purpose of these trials is, therefore, not to help clinical decision-making, but to gain approval of medicines by health agencies. If we take into account the different phases of pharmacological development, 12 it is not really until the end of the clinical development, in Phase IV, that the specific response of patients to a certain therapy can begin to be evaluated. This is a very late stage in the process of drug development, but it is precisely this stage that helps clinicians in their real-life decision-making. In fact, while the routine assessment of clinical trial results, in terms of the average response between different treatment groups, gives us a very clear idea of how the drug will perform in a particular clinical context, it tells us very little about how the individual patient reacts when receiving the treatment. Another relevant related concept is the Minimal Clinically Important Difference that could be used to decide escalation or de-escalation treatment. 13 Interestingly, this concept also represents an average response, trying to summarize a complex variable response. In epidemiology, this discrepancy is termed the "ecological fallacy" and represents one of the major challenges in evidence-based medicine. 14,15 Therefore, when clinical practice guidelines recommend a certain treatment for a patient in a particular clinical situation based on clinical trials, they cannot really guarantee that this treatment is right for a particular patient. The best they can do is to state that this patient is more likely to respond to a certain therapeutic option. This nuance is important, because despite the very strong claims which are often made for certain drugs in disease management, it is hardly surprising that they may not be as successful in specific patients in real life. In other words, studies tell us that a certain treatment option is more likely to work, which does not mean that it actually works for a specific patient in a specific clinical context. Subsequent studies by the company, competitors and independent researchers will include a broader population, and will gain better knowledge about effect, eg responders and non-responders in relation to other COPD drugs, and about safety. For this reason, those responsible for developing clinical practice guides usually recommend clinicians to take the guidelines as only a general reference and to adapt them to the real situation of each patient. This is tantamount to saying that the guide document describes how to treat the average patient, but that it is of no use in daily clinical practice. Interestingly, current clinical audits have revealed that a number of recommendations are not fulfilled in daily clinical practice, which does not imply that this clinical practice is not correct, [16] [17] [18] since there are a considerable number of factors that naturally condition clinical practice which are not considered in clinical trials and therefore in the clinical guidelines' recommendations. 19 Therefore, the escalation and de-escalation strategies for chronic diseases are based on the fact that the evidence available for treating individual patients is alarmingly scarce, since clinical trials do not evaluate individual patients, but cohorts. Having said that, in the following sections we will attempt to present a practical approach to the scaling and de-escalation of the treatment in COPD patients. In this context of uncertainty, one of the first problems we face before discussing changes in treatment is the certainty of the COPD diagnosis. Regardless of the debate about the over-or under-diagnosis of COPD, 20 when a patient goes to the doctor for chronic respiratory symptoms, the clinician must decide what the patient's initial diagnosis is. At this point, clinicians have to deal with the ambiguity of the clinical presentation, since the clinical expression of airway diseases has a very limited number of symptoms. In all patients suffering from an airway disease (eg COPD, asthma or bronchiectasis), there is dyspnea, coughing, expectoration, chest tightness and chest noises to varying degrees, with limitation of daily activities as a consequence. Therefore, the diagnosis is reached more through the temporal distribution and variability of the disease over time than by the presence of particular symptoms. Consequently, it is crucial to establish an accurate diagnosis from the beginning. In particular, clinicians must differentiate whether the patient is suffering from COPD or asthma. We know that both diseases have similar clinical expressions and also share many inhaled treatments. However, although the inhaled drugs are similar, the escalation of treatment for the two clinical conditions is completely different. While asthma is an inflammatory disease which is treated with inhaled corticosteroids (ICS) together with long-acting bronchodilators (LABD), COPD is an obstructive disease that is treated with LABD, together with ICS in specific cases. Therefore, treatment for the two conditions involves similar drugs but with a different therapeutic strategy. Accordingly, the first challenge will be to ensure that the patient does indeed have COPD. At the patient's first visit, it is often difficult to identify the disease and differentiate between COPD and asthma for several reasons. Firstly, although in many cases a specific clinical pattern can be clearly identified, the patient sometimes needs to be monitored over a period of time to assess the therapeutic response before establishing a definitive diagnosis. 21 Secondly, there is often a discrepancy between the clinical presentation and the results of the complementary tests which are supposed to confirm the suspected diagnosis. This discrepancy is especially striking in asthma, since confirmation of asthma in a given clinical context can be achieved using different complementary tests, whereas in COPD, only a post-bronchodilator spirometry is needed (Table 1) . In this context, over the last few decades, the term "asthma-COPD overlap (ACO)" has been coined. 22, 23 Although widely used by the scientific community, the concept of ACO has never been clearly defined, and many different terms and criteria have been proposed. 24, 25 Interestingly, the prevalence of ACO varies enormously depending on the diagnostic criteria used. 26 With the experience accumulated and the different studies conducted in recent years, we can confidently state that the term ACO conceals two different, closely interlocking concepts. On the one hand, an ACO case could refer to a patient who has both diseases and who, therefore, meets the diagnostic criteria for both clinical conditions (Table 1) . On the other hand, an ACO case can also be a patient with one disease (COPD or asthma) whose illness, without meeting the criteria for the other disease, behaves in a similar way to the other. To put it simply, this asthma-like clinical behavior in COPD has been associated with blood eosinophil counts. 5 Accordingly, since asthma is treated with ICS, several authors and guidelines have tried to associate the blood eosinophil count with an ICS positive treatment response. 5, 27 However, this association between the eosinophil count in the blood and asthma-like behavior or clinical response to ICS is somewhat controversial. [28] [29] [30] [31] Although guidelines were hastily published to recommend the use of the blood eosinophil count when selecting a treatment with ICS in specific COPD patients, a number of unanswered questions should be clarified before recommending their use as a routine marker in clinical practice. In fact, a recent study does not support the use of the blood eosinophil count as a reliable biomarker of the risk of exacerbation in COPD in a predominantly non-exacerbating population, suggesting a key role of the clinical context. 28 Accordingly, different approaches have been proposed to use the blood eosinophil count more cautiously for selecting treatments by including the clinical context, 32 persistence over time 33 or the combination with exhaled biomarkers, 34, 35 which should further specify the patient's needs and make it more acceptable in the future. While no better biomarkers are available, a better clinical approach would probably involve identifying either concomitant asthma or asthma-like behavior in COPD. Currently, the diagnosis of asthma is based on two conditions: a compatible clinical presentation and complementary tests that confirm the variability of the airway obstruction (Table 1) . With these criteria, a 2×2 table could be constructed to show the presence/absence of these two criteria, before carrying out the diagnostic process described in Figure 1 . These 4 possibilities (based on the clinical presentation and the result of the complementary studies) include the classic COPD, as well as two types of ACO. Type 1 ACO describes the patients with both diseases, whereas in Type 2 ACO the patient has one disease, but the clinical presentation is atypical (Figure 1 ). The immediate consequence of having concomitant asthma or asthma-like behavior is the use of ICS as part of the therapeutic strategy from the beginning. Needless to say, this is based on clinical judgement, since there are no clinical trials on how to treat a COPD patient who presents asthma-like behavior. Consequently, the initial treatment should change ( Figure 2 ) depending on the clinical presentation of Figure 1 . Three key variables have been proposed as the main markers to guide therapy: the perception of dyspnea evaluated by the mMRC score, the number of exacerbations and hospitalizations in the previous year and lung function, as evaluated by postbronchodilator forced expiratory volume in 1 second (FEV 1 ). 5 Since patients seeking help are normally Exposure (> 10 pack-year) + respiratory symptoms + post-bronchodilator FEV1/FVC < 0,7 Symptoms suggestive of asthma: • symptomatic, lung function and previous exacerbations can be selected to identify different patient types to propose the first treatment. Of these, lung function has been shown to markedly improve after double bronchodilation for all combinations. 36 Therefore, it would be reasonable to advise that these cases should start by receiving one LABD, while cases with more pronounced lung function impairment should start by receiving two LABD instead of a single bronchodilation. Although different cutoffs have been identified in observational studies, 37,38 the limit to define severe lung function impairment has been arbitrarily set at 50% or 1 L in post-bronchodilator FEV 1 . On the other hand, the patients' previous exacerbation history may well influence the different types of bronchodilators, whose effectiveness in the prevention of exacerbations has been shown to vary. 39, 40 Likewise, for the reasons explained above, patients with ACO must be treated using a different approach, including ICS in the therapeutic plan. Altogether, the decision about the initial therapy would probably rely on lung function impairment and the risk of exacerbations, as suggested in Figure 2 . After the selection of the initial treatment, this must be carefully evaluated to monitor the initial therapeutic response as well as the tolerance. The first unresolved question is the time that must be spent in active treatment in order to evaluate a particular patient's therapeutic response and tolerance. This first assessment must be made early on, as the inhaled drugs begin to work from the moment they are first inhaled. These effects are more immediate with bronchodilators in the first days after starting treatment, when improvements in lung function and symptoms have been reported. 41 However, the preventive effect of LABDs and ICS on exacerbation risk may require a longer time to evaluate. Finally, we must also add to the equation the resources available to evaluate all first-therapy COPD patients. Altogether, although there is no consensus over the ideal evaluation time, a period of 3 months may be considered sufficient to observe the clinical impact of a first inhaled treatment ( Figure 2 ). The evaluation of the control status at each clinical visit provides relevant prognostic information about the risk of an adverse progression in the coming months, since a lack of control is a warning signal that should prompt investigation and action. 42 For example, continuous prospective evaluation is required in COPD patients since the impact on physical activity over time is heterogeneous and decliners cannot be predicted at baseline. 43 case any adverse effects occur during these first weeks of treatment. In the first assessment after this period of time, the clinical and functional effectiveness should be evaluated in terms of symptoms and exacerbations, daily activities and lung function. Here, we can classify patients as low-impact cases if they do not have high dyspnea, and have no limitations in daily activities, few exacerbations and no hospitalizations, as well as maintaining correct lung function ( Figure 2 ). Accordingly, they should be considered as high-impact if any of these criteria are not met. This concept is analogous to that proposed by the Spanish COPD guidelines (GesEPOC), recently updated for 2021. 6 This classification between high and low impact (or high and low risk, according to GesEPOC terminology) is extremely useful, since it identifies subjects who do not need an intensification of treatment and for whom a de-escalation could even be considered, as will be discussed later. In high-impact patients, it is imperative to verify the correct inhalation technique, adherence to treatment, the appearance of adverse effects and satisfaction with the inhalation device before proceeding with escalation of the inhalation device. 44 While this may seem obvious, the percentage of cases in which this assessment is either not made or not recorded is truly alarming. 17, 18, 45 In patients diagnosed with COPD who are given suitable treatment, with good inhalation technique, good tolerance to treatment, correct compliance and adequate satisfaction with the inhalation device and who, furthermore, persist with a high clinical impact, a change in treatment needs to be planned. Here, there are at least three questions, for which we do not always have an answer. The first issue with this kind of patient is whether to scale or change the molecule and the inhaler. On the one hand, even with a good inhalation technique, as in the clinical scenario that we propose, the patient may feel more comfortable using another inhaler and may handle the device better, which potentially results in a better effectiveness. On the other hand, more importantly, we know that the response to inhaled drugs is individualized. 46, 47 For instance, it has been shown that some patients respond better to a long-acting ß agonist (LABA) or a long-acting muscarinic antagonist (LAMA), and that some patients respond better to one specific LABD than other in the same family. 47 It would therefore be logical, to seek a greater therapeutic response, to propose a change in the molecule. This approach has been recognized as a possibility in recent versions of the GOLD documents. 5 Although in this document the authors apply this concept to double bronchodilator therapy, the same phenomenon also occurs with single bronchodilation 48, 49 and it is also likely to occur with ICS. 50 Question 2: Should We Escalate to Another Pharmacological Option? If we decide to scale treatment, the second question is whether escalating should be pharmacological or nonpharmacological. Interestingly, the GOLD document recommends the addition of a second bronchodilator as the logical step-up to single-agent bronchodilation. 5 However, respiratory rehabilitation has been shown to yield relevant clinical benefits to patients with a good efficacy/safety profile. [51] [52] [53] [54] [55] [56] These findings have led clinicians to debate whether a step-up to a second LABD or the implementation of a respiratory rehabilitation program would be the best strategy for a patient with persistent symptoms despite receiving one LABD. Even considering the limitations of pulmonary rehabilitation in practice, ie the availability of resources, the percentage of responders and the long-term effect achieved, 57,58 evaluating the impact of exercise programs would probably help advance individualized therapy at the patient level better than double bronchodilation. Unfortunately, no clinical trials have addressed this issue, and this uncertainty is yet to be clarified. The third question involves the best change of pharmacological treatment. As the GOLD document indicates, 5 this should be closely related to the underlying problem. Thus, patients can be separated into those whose main problem is exacerbations or respiratory symptoms. As a general rule, if the problem is persistent symptoms, the most logical pharmacological option is to add a second bronchodilator. While it is true that the benefits in dyspnea reported by clinical trials comparing the average differences between using two LABD or one do not usually produce clinically relevant results, 36 the number of patients who achieve significant improvement is normally higher with two LABD. On the other hand, ICS has fewer benefits for dyspnea than LABD (Figure 3 ). The problem is even more complicated when it comes to patients with persistent exacerbations (Figure 3 ). In this case, the addition of an ICS appears to reduce the risk of exacerbations and this effect is consistent across all ICS clinical trials. Since the trials of double bronchodilator therapy versus simple bronchodilator therapy have reported an inconsistent reduction in the risk of exacerbations, 59-61 the first option would probably be to add an ICS. However, when a LABA/ LAMA combination is compared with LABA/ICS, the results are not consistent and probably depend on the type of patient. 62 Accordingly, there is no consensus about how to define this patient type given the controversy surrounding eosinophils, as commented above. Additionally, when combining a LABD and an ICS, the general recommendation is to associate a LABA with the ICS. This is because there have been few association studies of LAMA with ICS. [63] [64] [65] Notably, the results we do have are promising and it should not be ruled out as a future option. Finally, inhaled triple therapy has represented an advance in the treatment of patients with a high clinical impact, since it allows adherence to be improved at a lower cost, when compared to open triple options. 66, 67 The analysis of the differences in the available triple therapies options has been recently evaluated. 66 Beyond this point, the escalation of therapies for the patient with persistent high impact despite a correct therapy including good inhalation technique and treatment adherence represents a clinical challenge and requires a specialized respiratory clinic. The best treatment for such complex patients is, therefore, not to continue escalating. In this scenario, the clinician must stop and reevaluate different respiratory and non-respiratory comorbidities that may influence the perceived symptoms and the risk of exacerbations ( Figure 3 ). The problem here is the number of possible conditions that may influence clinical outcomes and the fact that none of the clinical guidelines or recommendation documents show how to implement this approach systematically. This evaluation of comorbidities is key, since none of these comorbid conditions are treated with LABD or ICS, and the approach must therefore be tailor-made for the patient. The number of some of these conditions and diagnostic tests are summarized in Figure 3 . Obviously, the priority of one or the other would very much depend on the clinical presentation. Although an evaluation of each of these comorbidities falls beyond of the scope of the present review, 68 we will now comment a few of them of clinical importance. Step 1 Step 2 Step 3: specialized evaluation Starting situation The presence of a chronic bronchial infection in COPD is of special interest. 69 This clinical situation has been associated with the presence of bronchiectasis. However, recent evidence has shown that COPD patients may have a chronic bronchial infection that causes a major clinical impact and which affects the progression of the disease without the presence of bronchiectasis. 70 Patients with chronic bronchial infection have increased local and systemic inflammation, more frequent and severe exacerbations and an accelerated progression of the disease. 70 The possibility of a chronic bronchial infection must be taken into account in all patients with an unfavorable clinical course, even if they do not have purulence in the study in a stable clinical situation. Working groups have recently been created to advise clinicians on how to proceed in patients with COPD and chronic bronchial infection. 71 The selection of the patient who requires home mechanical ventilation represents another challenge in this type of complex patient. 72 Although the ventilation/perfusion ratio is probably the most relevant cause of respiratory insufficiency in COPD, at least three different conditions can affect the underlying cause and the response to home mechanical ventilation: obesity and the relation to hypoventilation, muscle function, 73 and different comorbidities including, most importantly, sleep apnea-hypopnea syndrome and chronic heart failure. 74 Therefore, there is a need for a systematic thorough evaluation of these patients that helps deciding the best ventilatory strategy. 74 Finally, other relevant clinical conditions such as mood disorders, vitamin D deficiency, nutritional status, anemia, lung cancer and many others ( Figure 3) should be systematically explored and corrected in the persistently highimpact patient with correct inhaled therapy before continuing escalation. If, after a systematic approach, none of these are present or if they are corrected and the patient's symptoms persists, then the options we have to improve the clinical situation are those shown in Figure 3 , Point 2, and include pulmonary rehabilitation, increasing the dose of ICS, oral therapies, surgical options and finally palliative care. Palliative care seeks to prevent or treat symptoms of a disease, the side effects of treatment, and the psychological, social and spiritual problems of patients and their caregivers related to a serious or life-threatening illness or treatment. 75 Consequently, the goal of such care is not to prolong life expectancy, but to improve its quality. Unfortunately, palliative care is insufficient in COPD, and the lack of medical training and protocols and strategies for COPD 76 give COPD patients less chance of receiving it than cancer patients. 77, 78 Stepping Down in COPD Management If the evidence for escalation of treatment is controversial, that for de-escalation is even more so, since there have been fewer de-escalation studies and these are mainly observational in nature. The debate on de-escalation in pharmacological treatment involves two arguments: the withdrawal of one LABD in patients with double bronchodilation therapy and the withdrawal of ICS. The historical debate to treat COPD was to start with a LAMA or an ICS/LABA combinations. With the introduction of LABA/LAMA combinations the question arose if there was an over-prescription of ICS, which started the discussion and studies of withdrawal of ICS. Since then, the debate over the withdrawal of ICS has generated considerable confusion. First, we must remember that, despite the fact that ICS improve various aspects of COPD, their main use is to reduce the risk of future exacerbations. This means that before a patient with COPD undergoes treatment with ICS, two possible scenarios must be considered, depending on whether or not the patient continues to have exacerbations while receiving ICS. In the first case, that of a patient who has not had exacerbations in the previous year, various studies have explored the effect of suspending treatment with ICS. Although the initial studies produced confusing results, 79-81 more recent studies have confirmed the safety of discontinuing ICS in non-exacerbating patients. 82, 83 In the second case, that of a patient who keeps having frequent exacerbations despite receiving ICS, it would initially not be best to advise giving up the ICS. However, one can always argue that the ICS is not doing its job if the patient continues to have exacerbations. In fact, the GOLD document recommends discontinuation if ICS has no effect. 5 The WISDOM study reported that most of the patients in the study had no exacerbations when the ICS were progressively removed but with differences in different patient types. 84 It seems therefore that the key factor is the selection of the patient. Previous studies have identified several sub-groups of patients prone to worsening exacerbations after discontinuation of ICS, including women, elderly patients, and smokers. 85 Additionally, the time of the year was also highlighted as a relevant factor in the discontinuation of ICS. 86 Interestingly, the WISDOM data revealed that a blood eosinophil count might predict https://doi.org/10.2147/COPD.S275943 International Journal of Chronic Obstructive Pulmonary Disease 2021:16 2072 a deleterious response to ICS withdrawal. 87 Despite the ongoing debate about the general use of blood eosinophils as a biomarker for treatment selection (see above), the experiences of this population in this specific clinical context should be explored further. Of note, some studies have shown that approximately 20% of patients who discontinue the use of ICS have an exacerbation, which occurs within the first 3 months after removal. 88 Therefore, it seems sensible that, if in doubt, the patient's case should be reviewed soon after to evaluate the clinical effect. The debate on whether to discontinue a bronchodilator in patients with double bronchodilator therapy has never been discussed in the literature. Since COPD is a disease which is considered progressive, it would be unwise to recommend a de-escalation for patients with the disease whose symptoms are being controlled well using two bronchodilators. The withdrawal of single or double LABD will probably not be addressed if the treatment option is correctly prescribed to cope with the low reserve these patient experiment. However, with a view to adapting the treatment as much as possible to the individual patient, it would be of interest to conduct clinical studies to evaluate this possibility in specific clinical settings. In this potential scenario, the questions that should be answered include what type of patient should de-escalate and which of the two LABD should be withdrawn first, the LABA or the LAMA. To our knowledge, there are currently no trials evaluating this possibility, so we will have to wait for future developments and research into the use of LABD to answer these questions. The escalation and de-escalation of pharmacological treatment in COPD is a challenging dilemma which is affected by many factors. In a strategy of escalation and intensification of treatment, we must bear in mind that: 1) there are individualized responses to different drugs in the same family, 2) the inhalation technique and adherence need to be evaluated before scaling, 3) there are pharmacological and non-pharmacological alternatives to treatment intensification which must be considered together and 4) comorbidities often cause a worsening of the symptoms or affect the clinical expression of the disease. Therefore, the treatment modification scheme must be something more personalized than simply adding molecules, and the therapeutic response and its conditioning factors should be evaluated at each step before proceeding further. Often the best approach is to evaluate the patient correctly prior to deciding on the specific therapeutic approach. Ancochea J; en nombre del Comite Cientifico Big C. 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There is no funding to report. JLLC has received grants, honoraria during the last 3 years for lecturing, scientific advice, participation in clinical studies or writing for publications for (alphabetical order): AstraZeneca, Boehringer Ingelheim, Chiesi, CSL Behring, Esteve, Ferrer, Gebro, GlaxoSmithKline, Grifols, Menarini, Novartis, Rovi, and Teva. The other authors declare no conflicts of interest. The International Journal of COPD is an international, peer-reviewed journal of therapeutics and pharmacology focusing on concise rapid reporting of clinical studies and reviews in COPD. Special focus is given to the pathophysiological processes underlying the disease, intervention programs, patient focused education, and self management protocols. This journal is indexed on PubMed Central, MedLine and CAS. The manuscript management system is completely online and includes a very quick and fair peer-review system, which is all easy to use. Visit http://www.dovepress.com/testimonials.php to read real quotes from published authors.Submit your manuscript here: https://www.dovepress.com/international-journal-of-chronic-obstructive-pulmonary-disease-journal International Journal of Chronic Obstructive Pulmonary Disease 2021: 16