Dyslipidaemia is associated with the onset of cardiovascular disease (CVD) such as myocardial infarction and stroke, the leading cause of morbidity and mortality worldwide.1–3 According to data from the Spanish National Institute of Statistics, diseases of the circulatory system were the leading cause of death in Spain in 2018 (120,859 deaths, 28.3% of total deaths), ahead of cancer (26.4%).4 Therefore, their appropriate prevention and treatment should be considered a healthcare priority in clinical practice.

Dyslipidaemia is one of the main modifiable cardiovascular risk factors (CVR).5 In Spain, 50% of the adult population has a total cholesterol (TC)>200mg/dL.6 Of these, 69% correspond to pure hypercholesterolaemia, 26% to mixed dyslipidaemia and 5% to hypertriglyceridaemia.7 Of the dyslipidaemias, hypercholesterolaemia is considered to account for 54% of the potential risk of myocardial infarction,3 and about 86.8% of patients diagnosed with dyslipidaemia have been found to have an additional CVR factor, primarily established CVD.7

Control of hypercholesterolaemia can be achieved by reducing LDL-C levels, based on dietary/hygiene and/or pharmacological measures.5 With the use of statins, it is estimated that for every reduction in LDL-C levels of 1mmol/L (39mg/dL), the relative cardiovascular risk is reduced by 22%.8 The most recent dyslipidaemia treatment guidelines indicate target thresholds that depend on the patient's CVR and that, in patients with established CVD or very high CVR, reduction should be at least 50% of baseline to achieve an LDL-C<55mg/dL.9,10

Different therapeutic tools are currently available that could achieve target levels of LDL-C control11; however, the evidence indicates that this is still far from being achieved. In Spain, different studies indicate that LDL-C targets are only achieved in 26%–28% of patients at high or very high CVR,12,13 39% in patients on optimised lipid-lowering therapy,14 but this is according to previous targets, which were less demanding than the current targets. Other studies in the European population show that only 33% of dyslipidaemic patients achieve LDL-C targets, which is 18%–20% in patients at very high CVR.15,16

In addition to this low level of control observed in clinical practice, the 2019 published reference guidelines have not been adequately disseminated or implemented partly due to the COVID-19 pandemic. Moreover, the new guidelines introduce much more ambitious and difficult to achieve LDL-C control targets.

All this means the scientific societies need to know how dyslipidaemic patients are currently being controlled in Spain, and how health professionals can be supported so that, each in their own area of care can help reduce CVR in these patients, and achieve improved health outcomes. Not only do the results of LDL-C reduction need to be known, but also the differences between regions, because, for example, there is different access to certain lipid-lowering treatments.17,18

Spain’s dyslipidaemia observatory, a project led by the Spanish Society of Cardiology (SEC) and the Spanish Society of Arteriosclerosis (SEA), was created to learn about healthcare practice in the treatment of dyslipidaemic patients and to identify measures that can help the targets recommended by current clinical practice guidelines be achieved in routine clinical practice. This article describes the design of the observatory.

Spain’s dyslipidaemia observatory is a research project that aims to characterise the current variability in the treatment of hypercholesterolaemia, and in the establishment of therapeutic targets, and the degree of control achieved in clinical practice in the different health areas and regions of Spain.

Dyslipidaemia is a very prevalent health problem in our setting.7,19–22 It is also one of the main modifiable CVR factors, associated with high cardiovascular morbidity and mortality,1–3 and therefore a clear priority for action by scientific societies and health systems.23–25 The available evidence has shown that adequately reducing LDL-C, according to each patient’s CVR, is directly related to a reduction in the risk of a cardiovascular event and its complications.5,9,26,27 Therefore, the main target in the treatment of dyslipidaemia is to reduce LDL-C to the lowest possible levels in the shortest possible time,9 and it is essential to ensure adequate knowledge among the medical community and to raise awareness in patients and their circle.

The recommendations of the 20199 European Society of Cardiology (ESC)/European Atherosclerosis Society (EAS) guidelines9 are the main clinical reference, supported by the recommendations for the treatment of dyslipidaemia in Spain.17,18 LDL-C targets are clearly defined by the patient's CVR and comorbidities, and evidence is available to support treatment decision-making.11 Nevertheless, the degree of control achieved in clinical practice is poor12,28 this could be attributed to factors such as underestimation of the patient's CVR, reluctance regarding potential side effects of treatment, low use of combined lipid-lowering therapy, lack of adherence and/or compliance to treatment, or therapeutic inertia.12 It should be borne in mind that prior therapeutic planning through the use of lipid-lowering treatment tables aimed at achieving therapeutic targets,11 the use of computerised tools incorporated into the clinical history,29 or the application of therapeutic algorithms30 significantly help achieve therapeutic targets, especially in patients at very high CVR.31

Pintó et al.32 observed that in Spain, in dyslipidaemic patients without other CVR factors, 51.9% of physicians set a target of LDL-C<130mg/dL (29% at LDL-C<160mg/dL). In patients with a CVR factor (hypertension, smoking, or diabetes), 49%–55% of physicians set a target of LDL-C<100mg/dL; and in patients with a cardiovascular complication, ischaemic heart disease, or stroke, 71%–88% of physicians aimed to achieve LDL-C<70mg/dL.32 These data already differ from the recommendations applicable at the time of the study,33 and are far from the current recommendations.9

The EUROASPIRE IV study showed that although 86% of patients with chronic coronary syndrome were prescribed statins, only 20% achieved the LDL-C target. 16 In the EUROASPIRE V study, the percentage of patients controlled in secondary prevention rose to 32%, although there were significant areas for improvement in the therapeutic management of these patients (16% without lipid-lowering treatment, and low use of statin and ezetimibe combination).34 In the recent DA VINTER study, the percentage of patients with chronic coronary syndrome who received statins rose to 32%. The DA VINCI study recently found that only 33% of patients achieved the 2019 therapeutic targets (18% in patients in secondary prevention).15 About 20% of patients treated with statins (of any intensity, with or without ezetimibe) were controlled, compared to 58% of patients receiving PCSK9i.15 Galve et al. found similar results, with 26% of patients in secondary prevention with a target LDL-C, and only 14% of the total treated with combination therapy.12 These findings, along with the fact that only 45% of treated patients were receiving a high-intensity statin and treatment was not intensified in 70% of cases,12 show ample room for improvement through optimising lipid-lowering therapy35 and suggest the need for additional therapies and mechanisms to lower LDL-C in patients at high and very high CVR.

The basis of the dyslipidaemia observatory is the need to understand and contextualise these data, in line with the healthcare situation in Spain. This study provides a detailed analysis of the reality of the management and treatment of dyslipidaemia in 145 health areas in Spain (86% of all the health areas), including analyses at national and regional level and by healthcare setting. This is the only study to combine a contextualised analysis of the situation of the treatment of dyslipidaemia, that considers not only data on control achieved, but also the reasons why control is not achieved and the needs and potential areas for improvement that could help improve healthcare practice, representing almost all health areas, as well as both the public and private settings where the disease is managed, and at a multidisciplinary level. The study also provides a different and complementary view to the available information, incorporating the needs reported by health professionals, which are often side-lined, after patient data and a proposal for value initiatives that could help improve how dyslipidaemia is managed in our setting.

The dyslipidaemia observatory, although pioneering and representative of the national situation in Spain, has some limitations, such as the fact that it is based mainly on the experiences and opinions of professionals. This limitation is minimised by the analysis of aggregate data from the last patients seen by the participants (clinical practice data), which also provides valuable information to contrast the practitioner's vision with the real situation in their practice. It is important to bear in mind that the observatory participants were professionals with a special interest in lipids, which may translate into greater knowledge of and compliance with the recommendations than health professionals in general. In this sense, extending the sample with randomised participation, could be considered.

Preventive interventions reduce the risk of cardiovascular disease, but are difficult to implement in practice. Treatment guidelines for dyslipidaemia are clear in terms of therapeutic targets, but achieving these targets is complex, especially considering our country’s regional variability. Spain’s dyslipidaemia observatory is a project led by the SEC and the SEA, which aims to establish how hypercholesterolaemia is being treated in clinical practice in Spain through a detailed analysis of 145 health areas, identifying measures to promote change and thus improve health outcomes.

This work is a study by the Spanish Society of Cardiology and the Spanish Society of Atherosclerosis, sponsored by Daiichi Sankyo Spain.

Juan Cosin-Sales: has received conference honoraria from Almirall, Amgen, Daiichi-Sankyo, Ferrer, MSD, Novartis, Organon, Rovi, Sanofi. He has participated in consulancies for Almirall, Amgen, MSD, Sanofi. He has received research grants from Amgen, Ferrer, MSD and Sanofi. Raquel Campuzano: has received conference honoraria from Amgen, Daiichi-Sankyo, Ferrer, Mylan, MSD, Organon, Sanofi, Servier. Novartis. She has participated in consulancies for Novartis, Amgen, Sanofi, Servier. She has received collaborations in scientific or research projects for Amgen, Daiichi-Sankyo, Ferrer, Organon, Servier, Novartis. José Luis Díaz: has received honoraria for lectures, consultancies, and scientific collaborations from Amgen, Bayer, Boëringher, BMS, Lilly, MSD, Mylan, Novartis, Novo-Nordisk, Pfizer, Rovi, Rubió, Sanofi, Daiichi-Sankyo, Servier. Carlos Escobar: has received conference/consultancy honoraria from Almirall, Amgen, Daiichi-Sankyo, Esteve, Ferrer, MSD, Novartis, Organon, Rovi, Sanofi, Servier and Viatris. María Rosa Fernández: has received conference honoraria from Amgen, Sanofi, Ferrer, Daiichi-Sankyo, Organon, Rovi. She has participated in consultancies for Novartis, Amgen, Sanofi, Amarin. Juan José Gómez-Doblas: has received conference honoraria from Amgen, Sanofi, Daiichi-Sankyo, Organon, MSD. He has participated in consultancies for Amgen, Sanofi, Amarin. He has received contributions for scientific or research projects from Amgen, Sanofi, Ferrer and Daiichi-Sankyo. José María Mostaza: has participated in consultancies and/or conferences, or undertaken projects for Pfizer, Amarin, Ferrer, Sanofi, Amgen, Alter, Servier, Novartis and Daiichi-Sankyo. Juan Pedro-Botet: has recieved conference honoraria from Amarin, Amgen, Daiichi-Sankyo, Esteve, MSD, Sanofi and Viatris. He has participated in consultancies for Amarin, Amgen, Daiichi-Sankyo, Esteve, Ferrer, Sanofi and Viatris. Núria Plana: has received conference honoraria from Amgen, Sanofi, Daiichi-Sankyo Mylan, Alexion. Pedro Valdivielso: has received conference honoraria from Amgen, Sanofi, Ferrer, Amarin, Akcea, Sobi, MSD, Novartis, Daiichi-Sankyo. He has participated in consultances for Daiichi-Sankyo, Amgen, Sanofi, Akcea, Amarin. He has received research grants from Ferrer and Akcea.