Hypercholesterolaemia specifically related to increased levels of LDL-cholesterol (LDL-C) is one of the most relevant risk factors for atherosclerotic cardiovascular disease. In Argentina, there is an estimated self-reported prevalence of hypercholesterolaemia of 28% in the adult population.1 Severe hypercholesterolaemia (SH) is considered when LDL-C levels exceed 190 mg/dl, a condition that requires the initiation of intensive pharmacological treatment, and familial hypercholesterolaemia (FH) – a common genetic disease that is underdiagnosed and undertreated – should be considered a potential causal factor.

Statins are the cornerstone in the prevention of atherosclerotic cardiovascular disease, both primary and secondary prevention. They have been shown to reduce mortality and cardiovascular events in several clinical settings and are the first-line indication for patients with SH.2 However, despite all the available evidence regarding their safety and efficacy, most patients are not medicated. This situation is observed not only in primary, but also in secondary prevention and even in high resource countries. The PURE study reported examples of this problem which, in secondary prevention, found that only 66.5% of patients were treated with statins in high per capita income countries as opposed to 3% in low-income countries.3 Furthermore, most patients on treatment do not meet the targets provided in current guideline recommendations. Different studies have shown, for various reasons, how difficult it is to meet the targets in secondary prevention or high CV risk patients. As an example of this situation, the recent EUROASPIRE V study reports that only about 1/3 of patients in secondary prevention reach LDL-C targets.4 The DA Vinci study, referring to patients with SH in Argentina, shows similar results in terms of reaching this lipid target.5

The effectiveness of statins is mainly impaired by low adherence and suboptimal treatment.2 Adherence to lipid-lowering drugs has been shown to fall dramatically during the first year of treatment.6 This adherence failure, together with the low rate of statin use, is a major problem in both primary and secondary prevention, making it imperative that health policies are implemented to improve the long-term use of statins, as cost-effective medication with extensive evidence and a well-proven safety profile.7

The purpose and main objective of this study was to assess the presence of risk factors, clinical follow-up, statin use and new cardiovascular events in patients diagnosed with SH in a region of Argentina within the public health system.

The total patient sample comprised 115 participants with a diagnosis of SH. Table 1 shows the demographic (mean age, sex), clinical (DLCN score, presence of tendinous xanthomas, corneal arcus, arterial hypertension, smoking, diabetes, sedentary lifestyle, and presence of pre-existing cardiovascular disease), the use of statins, and lipid values of this subgroup recruited in 2015. The average age of participants was 56 years, and 74% were female. Forty-two participants (36.5%) presented at least one modifiable cardiovascular risk factor (diabetes, smoking, hypertension, or HDL-C below 40 mg/dl in men and 50 mg/dl in women) and 33 (28.7%) had at least 2 risk factors.

During the interview undertaken in 2020, 52 women (63.4%) and 13 men (43%) reported being under follow-up and having had clinical monitoring in the last year; this gender difference was at the limit of statistical significance (p = .057). Although at the start of the study (2015), 46 participants (41%) were receiving daily statin medication, only 19 (34.7%) of them reported continuing with it at 5 years; these participants were considered persistent. We found no difference in statin persistence between the 28 participants with a DLCN score ≥ 6 (criteria for probable FH) and participants with a score of less than 6. However, of the 69 participants who were not receiving medication in 2015 and who were counselled to start medication, only 22 participants (31.8%) reported currently taking daily statin medication. Stratified by sex, overall, 33 women (38.8%) reported receiving statins vs. 8 men (26.7%) in 2020, p = .187 (Fig. 1). The reported or detected reasons for not starting medication or for discontinuing medication were not receiving adequate monitoring 65%, not being prescribed by the GP 16%, difficulty in accessing the health centre to obtain the medication 13%, myalgias 4%, and personal reasons 2%.

Figure 1.

Proportion of statin use at the start of the study and at 5 years. Participants that have been persistent since 2015 are marked with stripes.

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During the period of assessment (2015–2020), 18 participants (15.5%) reported admission to hospital for cardiovascular disease (ischaemic heart disease, heart failure, peripheral vascular disease, or ischaemic stroke) and 4 participants (3.4%) died during follow-up due to ischaemic heart disease. None of the 19 persistent participants had cardiovascular events, in contrast, 3 participants (12%) of the 25 non-persistent participants did have events (p = .12). Finally, we found a statistically significant association between having diabetes and the risk of having a cardiovascular event. The odds ratio in patients with diabetes was 3.3 (95% confidence interval 1.04−10.70), with a p-value of .043 (Table 2). However, this association lost statistical significance when adjusting for age and sex (p = .082).

The present study shows a prospective approach in a group of patients with SH, with no secondary causes, with indication for statin treatment, in a population belonging to the public health system of a region of the Province of Buenos Aires that to date has not been studied in our country. After 5 years of follow-up, we observed a low percentage of statin persistence and use, and a high incidence of cardiovascular events commensurate with undertreatment, even though the diagnosis of SH and the therapeutic recommendation were correctly made in this population.

The results of this study show a high proportion (64.3%) of participants at extreme risk for cardiovascular disease who are not adequately monitored and are not receiving lipid-lowering medication. These figures are slightly higher than those reported in previous studies in other parts of the world, where approximately 50% of the candidate patients in the SH population were not receiving statins and, due to this lack of medication in follow-up, had increased cardiovascular risk.11 Moreover, when we analysed the 28 participants with probable FH, we found that only 37% were persistent with statin use at 5 years. In the population diagnosed with FH, there is little published data on adherence to lipid-lowering medication, indicating a radically opposite percentage to that observed in our study; in the CASCADE-HF study, only 25% of patients were not receiving statins, and approximately 15% were not given them due to statin intolerance or allergy.12

In our population, most of the reasons reported for discontinuing medication were financial or a failure in follow-up or treatment behaviour on the part of the primary care physician. The latter situation was potentially aggravated by the COVID-19 pandemic in 2020, partly due to fear of attending the medical establishment for monitoring and due to the reduction or discontinuation of outpatient consultations that affected the public system as it reorganised to meet the demands of the pandemic.13

Regarding cardiovascular events, there are no follow-up cohorts of patients with SH. Taking follow-up data into account from population-based cohorts with FH, the Spanish SAFEHEART registry has reported a 5-year incidence of a non-fatal cardiovascular event in 5.1% of subjects and fatal cardiovascular events in .5%.14 Independent predictors of risk in this population were age, male sex, presence of hypertension, obesity, smoking, LDL-C and lipoprotein levels (a).14 In our SH population we detected a surprisingly higher number of cardiovascular events; 15% of non-fatal cardiovascular events and 3.4% of fatal cardiovascular events. These differences could be explained by low statin use (40% in our population vs. 84.2% in the SAFEHEART population) and our participants had increased baseline cardiovascular risk because of a higher prevalence of diabetes.14 Also, compared to national data, our subgroup had a higher prevalence of diabetes (19% vs. 12%), higher smoking (33% vs. 24%), and sedentary lifestyle (55% vs. 44%).1

There is a national programme of the Argentinian Ministry of Health that seeks to provide essential medicines (based on World Health Organisation recommendations) to the country's public primary healthcare centres (CAPS).15 These essential drugs include treatment for the prevention and management of cardiovascular diseases, and currently include simvastatin 20 mg and rosuvastatin 20 mg. Despite the availability of these drugs, training in the use of medicines and supplies distributed by the Drugs Programmes and Projects Coordination and Rational Therapeutics Training Programmes in Primary Health Care (TRAPS), multiple barriers have resulted in the ongoing inappropriate management of patients with hypercholesterolemia. These barriers include organisational problems with the distribution of medication to the CAPS, the low degree of compliance with the proposed regulations to guide the general practitioner in prescribing medication, errors or omissions by primary care physicians, communication problems with the patient, and lack of time in the consultation.

We should first mention as a limitation of this study that, as it was conducted in the public sector and in a specific region, the sample selected in the cross-section is not representative of the general population. Secondly, we mentioned that the data collected on taking medication, because we used an indirect method (interview), are dependent on the patient's answers and intentions. Another limitation is that we were not able to analyse the last LDL-C value in the participants followed up in 2020 because most did not have the final results. As for the events reported, although they were collected by self-report or family interview in the case of deceased participants, only hard events (hospitalisation, revascularisation, death) were considered, reducing the possibility of false positives. Finally, given the small sample size, we did not have sufficient power to find statistically significant predictors in the multivariate analysis for cardiovascular events. Nevertheless, it does alert us to the real situation of a highly vulnerable sector of the population, which is important information for adopting more specific health behaviours.

The data from follow-up of this series of patients with SH, which includes patients with a clinical diagnosis of FH, show the low use of lipid-lowering treatment in the public sector in Argentina, mostly due to a lack of control, prescribing, and medical follow-up. However, from this finding, we can observe the higher incidence of fatal and non-fatal cardiovascular events compared to other cohorts of patients with similar characteristics in other countries. Although statins have been included as essential medicines and are provided free of charge in the CAPS, there are still many cultural, organisational, socio-economic, and educational barriers that are impeding the correct treatment of this population at high cardiovascular risk.

No specific grants from agencies in the public, commercial or non-profit sectors were received for this study.

The authors have no conflict of interests to declare.