European Guidelines on cardiovascular disease prevention - 2021
MUDr. Yvona Pospíšilová
Department of Internal Medicine, Hematology and Oncology FN Brno and
Masaryk University Brno
pospisilova.yvona@fnbrno.cz
2-3/2023

The characteristics of people who tend to stay healthy:
•No use of tobacco
•Adequate physical activity, at least 30 min. five times a week
•Healthy eating habits
•No overweight
•Blood pressure below 140/90 mm Hg
•Blood cholesterol below 5 mmol/l
•Normal glucose metabolism
•Avoidance of excessive stress

European Guidelines on cardiovascular disease prevention in clinical practice – version 2021
•
•Frank L.J. Visseren et al.: ESC Guidelines on cardiovascular disease prevention in clinical
practice (version 2021). Developed by Task Force for cardiovascular disease prevention in clinical
practice with representatives of the European Society of Cardiology and 12 medical societies
•
•European Heart Journal, 2021 42, 3227-3337, https://doi.org/10.1093/eurheartj/ehab-484
•Published: 22 September 2021
•
•

Screening of risk factors of CVD
•
•testing of risk factors should begin at age 40 years old in men and 50 years old in women or
post-menopausal
•testing of risk factors should be made if the patient is smoker, overweight, there is a family
history of premature CVD (women before 65 and men before 55 aears old), known hyperlipidaemia in
family, chronic renal disease, diabetes mellitus type 2 and in some special cases
•special efforts should be made in socially deprives persons or persons personality D or mentally
or socioeconomic problematic people
•
•

Screening of risk factors of CVD
•
•
•It is not recommended in apparently healthy people, who are younger than 40 years
•because of small risc of development of CVD in that age
•
•

Why is prevention of CVD needed?
•
•Atherosclerotic CVD remains the leading cause of premature death worldwide
•
•Prevention works - 60 % of the reduction relate to changes in risk factors and 40 % of the
reduction relate to improved treatments
•
•Preventive efforts should be lifelong from birth (if nor before) to old age
•

The risk of cardiovascular fatal events in the future 10 years:
•
•
•2016, 2019
•
•Age,  gender, smoking, systolic  blood pressure level, level of total CH
•(SCORE )
•help us to prevent cardiovascular events
•

Yvona2
2016


IMG_20200609_0010
2019


The risk of cardiovascular fatal and non-fatal events in the future 10 years:
•
•
•
•2021
•
•Age,  gender, smoking, systolic  blood pressure level, level of non-HDL-CH and country
•(SCORE 2 and SCORE OP )
•help us to prevent cardiovascular events
•

Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 4 Risk regions based on World Health Organization cardiovascular mortality ...
Oxford University Press

Figure 4 Risk regions based on World Health Organization cardiovascular mortality rates.68,72,73
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
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del)

2021
•
•Low risk:
•Andorra, Belgium, Denmark, France, Israel, Luxembourg, Monaco, the Nederlands, Norway,  Spain,
Switzerland, United Kingdom
•
•Moderate risk:
•Austria, Cyprus, Finland, Germany, Greece, Iceland, Ireland, Italy, Malta, Portugal, San Marino,
Slovenia, Sweden
•
•

2021
•
•High risk:
•Albania, Bosnia and Herzegovina, croatia, Czech Republic, Estonia, Hungary, Kazaghstan, Poland,
Slovakia, Turkey
•
•Very-high risk:
•Algeria, Armenia, Azerbaijan, Belarus, Bulgaria, Egypt, Kyrgyzstan, Latvia, Lithuania, Libya,
Montenegro, Morocco, Romania, Macedonia, Moldova, Russia, Ukraine, Uzbekistan, Georgia,Serbia,
Syria, Macedonia, Tunisia,
•
•

Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 3 Systematic Coronary Risk Estimation 2 and Systematic Coronary Risk Estimation 2-Older
Persons risk charts for ...
Oxford University Press

Figure 3 Systematic Coronary Risk Estimation 2 and Systematic Coronary Risk Estimation 2-Older
Persons risk charts for fatal and non-fatal (myocardial infarction, stroke) cardiovascular
disease.68,72 ASCVD = atherosclerotic cardiovascular disease; CV = cardiovascular; CVD =
cardiovascular disease; SBP = systolic blood pressure; HDL-C = high-density lipoprotein
cholesterol; SCORE2 = Systematic Coronary Risk Estimation 2; SCORE2-OP = Systematic Coronary Risk
Estimation 2-Older Persons; TFYR = The Former Yugoslav Republic; UK = United Kingdom. For
apparently healthy people aged 40–69 years, the SCORE2 algorithm68 is used to estimate 10-year risk
of fatal and non-fatal (myocardial infarction, stroke) CVD. For apparently healthy people ≥70 years
of age, the SCORE2-OP is used.72. Low-risk countries: Belgium, Denmark, France, Israel, Luxembourg,
Norway, Spain, Switzerland, the Netherlands, and the UK. Moderate-risk countries: Austria, Cyprus,
Finland, Germany, Greece, Iceland, Ireland, Italy, Malta, Portugal, San Marino, Slovenia, and
Sweden. High-risk countries: Albania, Bosnia and Herzegovina, Croatia, Czech Republic, Estonia,
Hungary, Kazakhstan, Poland, Slovakia, and Turkey. Very-high-risk countries: Algeria, Armenia,
Azerbaijan, Belarus, Bulgaria, Egypt, Georgia, Kyrgyzstan, Latvia, Lebanon, Libya, Lithuania,
Montenegro, Morocco, Republic of Moldova, Romania, Russian Federation, Serbia, Syria, TFYR
(Macedonia), Tunisia, Ukraine, and Uzbekistan.
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
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del)

Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 3 Systematic Coronary Risk Estimation 2 and Systematic Coronary Risk Estimation 2-Older
Persons risk charts for ...
Oxford University Press

Figure 3 Systematic Coronary Risk Estimation 2 and Systematic Coronary Risk Estimation 2-Older
Persons risk charts for fatal and non-fatal (myocardial infarction, stroke) cardiovascular
disease.68,72 ASCVD = atherosclerotic cardiovascular disease; CV = cardiovascular; CVD =
cardiovascular disease; SBP = systolic blood pressure; HDL-C = high-density lipoprotein
cholesterol; SCORE2 = Systematic Coronary Risk Estimation 2; SCORE2-OP = Systematic Coronary Risk
Estimation 2-Older Persons; TFYR = The Former Yugoslav Republic; UK = United Kingdom. For
apparently healthy people aged 40–69 years, the SCORE2 algorithm68 is used to estimate 10-year risk
of fatal and non-fatal (myocardial infarction, stroke) CVD. For apparently healthy people ≥70 years
of age, the SCORE2-OP is used.72. Low-risk countries: Belgium, Denmark, France, Israel, Luxembourg,
Norway, Spain, Switzerland, the Netherlands, and the UK. Moderate-risk countries: Austria, Cyprus,
Finland, Germany, Greece, Iceland, Ireland, Italy, Malta, Portugal, San Marino, Slovenia, and
Sweden. High-risk countries: Albania, Bosnia and Herzegovina, Croatia, Czech Republic, Estonia,
Hungary, Kazakhstan, Poland, Slovakia, and Turkey. Very-high-risk countries: Algeria, Armenia,
Azerbaijan, Belarus, Bulgaria, Egypt, Georgia, Kyrgyzstan, Latvia, Lebanon, Libya, Lithuania,
Montenegro, Morocco, Republic of Moldova, Romania, Russian Federation, Serbia, Syria, TFYR
(Macedonia), Tunisia, Ukraine, and Uzbekistan.
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
the Oxford University Press, Standard Journals Publication Model
(https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_mo
del)

Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 3 Systematic Coronary Risk Estimation 2 and Systematic Coronary Risk Estimation 2-Older
Persons risk charts for ...
Oxford University Press

Figure 3 Systematic Coronary Risk Estimation 2 and Systematic Coronary Risk Estimation 2-Older
Persons risk charts for fatal and non-fatal (myocardial infarction, stroke) cardiovascular
disease.68,72 ASCVD = atherosclerotic cardiovascular disease; CV = cardiovascular; CVD =
cardiovascular disease; SBP = systolic blood pressure; HDL-C = high-density lipoprotein
cholesterol; SCORE2 = Systematic Coronary Risk Estimation 2; SCORE2-OP = Systematic Coronary Risk
Estimation 2-Older Persons; TFYR = The Former Yugoslav Republic; UK = United Kingdom. For
apparently healthy people aged 40–69 years, the SCORE2 algorithm68 is used to estimate 10-year risk
of fatal and non-fatal (myocardial infarction, stroke) CVD. For apparently healthy people ≥70 years
of age, the SCORE2-OP is used.72. Low-risk countries: Belgium, Denmark, France, Israel, Luxembourg,
Norway, Spain, Switzerland, the Netherlands, and the UK. Moderate-risk countries: Austria, Cyprus,
Finland, Germany, Greece, Iceland, Ireland, Italy, Malta, Portugal, San Marino, Slovenia, and
Sweden. High-risk countries: Albania, Bosnia and Herzegovina, Croatia, Czech Republic, Estonia,
Hungary, Kazakhstan, Poland, Slovakia, and Turkey. Very-high-risk countries: Algeria, Armenia,
Azerbaijan, Belarus, Bulgaria, Egypt, Georgia, Kyrgyzstan, Latvia, Lebanon, Libya, Lithuania,
Montenegro, Morocco, Republic of Moldova, Romania, Russian Federation, Serbia, Syria, TFYR
(Macedonia), Tunisia, Ukraine, and Uzbekistan.
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
the Oxford University Press, Standard Journals Publication Model
(https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_mo
del)

Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 3 Systematic Coronary Risk Estimation 2 and Systematic Coronary Risk Estimation 2-Older
Persons risk charts for ...
Oxford University Press

Figure 3 Systematic Coronary Risk Estimation 2 and Systematic Coronary Risk Estimation 2-Older
Persons risk charts for fatal and non-fatal (myocardial infarction, stroke) cardiovascular
disease.68,72 ASCVD = atherosclerotic cardiovascular disease; CV = cardiovascular; CVD =
cardiovascular disease; SBP = systolic blood pressure; HDL-C = high-density lipoprotein
cholesterol; SCORE2 = Systematic Coronary Risk Estimation 2; SCORE2-OP = Systematic Coronary Risk
Estimation 2-Older Persons; TFYR = The Former Yugoslav Republic; UK = United Kingdom. For
apparently healthy people aged 40–69 years, the SCORE2 algorithm68 is used to estimate 10-year risk
of fatal and non-fatal (myocardial infarction, stroke) CVD. For apparently healthy people ≥70 years
of age, the SCORE2-OP is used.72. Low-risk countries: Belgium, Denmark, France, Israel, Luxembourg,
Norway, Spain, Switzerland, the Netherlands, and the UK. Moderate-risk countries: Austria, Cyprus,
Finland, Germany, Greece, Iceland, Ireland, Italy, Malta, Portugal, San Marino, Slovenia, and
Sweden. High-risk countries: Albania, Bosnia and Herzegovina, Croatia, Czech Republic, Estonia,
Hungary, Kazakhstan, Poland, Slovakia, and Turkey. Very-high-risk countries: Algeria, Armenia,
Azerbaijan, Belarus, Bulgaria, Egypt, Georgia, Kyrgyzstan, Latvia, Lebanon, Libya, Lithuania,
Montenegro, Morocco, Republic of Moldova, Romania, Russian Federation, Serbia, Syria, TFYR
(Macedonia), Tunisia, Ukraine, and Uzbekistan.
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
the Oxford University Press, Standard Journals Publication Model
(https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_mo
del)

Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 5 Schematic representation of increasing 10-year cardiovascular disease risk thresholds
across age groups. CVD ...
Oxford University Press

Figure 5 Schematic representation of increasing 10-year cardiovascular disease risk thresholds
across age groups. CVD = atherosclerotic cardiovascular disease.
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
the Oxford University Press, Standard Journals Publication Model
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del)

Apparently healthy people – no reccomended treatment
•
•
•SCORE 2 < 2,5% for age < 50
•
•SCORE 2 < 5% for age 50-69
•
•SCORE OP < 7,5% for age >70

Apparently healthy people –  treatment should be reccomended
•
•
•SCORE 2 - 2,5-7,5% for age < 50
•
•SCORE 2  - 5-10% for age 50-69
•
•SCORE OP - 7,5-15% for age ≥ 70

Apparently healthy people –  treatment is reccomended
•
•
•SCORE 2 ≥ 7,5% for age < 50
•
•SCORE 2 ≥ 10% for age 50-59
•
•SCORE OP ≥ 15% for age ≥ 70

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CVD Risk Calculator app
•
•https://www.escardio.org/Education/ESC-Prevention-of-CVD-Programme/Risk-assessment/esc-cvd-risk-ca
lculation-app
•
•http://www.hearstscore.org
•
•http://www.u-prevent.com

People at very high total CV Risk (no use of SCORE)
•
•Subjects with cardiovascular disease (heart or brain vessel disease, peripheral artery disease)
•
•Subjects with very high levels of individual risk factors
•
•Subjects with chronic kidney disease (CKD)
•
•Subjects with Type 1 diabetes mellitus with  microalbuminuria
•
•Subjects with Type 2 diabetes mellitus
•

People at very high total CV Risk (no use of SCORE)
•
•Atherosclerotic plaques in coronary or carotic vessels
•
•Total CH  > 8 mmol/l
•
•Familial hypercholesterolaemia
•
•Systolic blood pressure  > 180/110 mm Hg
•
•Several serious risk factors
•
•

Other important risk factors of CVD
•
•Other important risk factors:
•high pulse rate
•
•Psychological risk factors
•low socio-economic status
•social isolation and low social support
•stress at work and in family life
•type D personality (feeling anxious, irritable or depressed, avoidance of sharing thouts and
feeling with other people)
•

Other important risk factors of CVD
•Hypertension
•Obstructive  sleep dyspnea, chronic obstructive pumonary disease, sleep disorders
•Erectile dysfunction in men
•Inflamatory conditions, infections (periodontitis, influenza), autoimmune diseases, antiretroviral
therapy
•Smoking (also passive, all types-including light, pipes, waterpipes) – many other parts of smoking
are harmful
•Cancer
•Migraine in women
•Obesity, sedentery lifestyle, non-alcoholic fatty liver disease
•Family history of premature CVD (before the age of 55 years in men and 65 years in women)
•Alcohol, dyslipidemia
•Heart failure, valvular heart disease, atrial fibrilation

Imaging methods in cardiovascular disease prevention
•
•
•Coronary artery calcium score as the most important examination
•Carotid ultrasound (no measurement of the intima-media thickness but the presence of plaques and
their characteristics is important)
•
•Measurement of ankle-brachia index (ABI < 0,9) – not now recomended
•Exercise electrocardiography or echocardiography in men?
•Multislice computed coronary angiography ?
•Coronary wall magnetic resonance imaging ?

Other important risk factors of CVD- ????? – not now recomended
•
•Other important risk factors in blood:
•high CRP
•high fibrinogen
•high homocysteine
•
•Other important risk factors in lipids:
•low HDL-CH
•high Lipoprotein a
•high non-fasting triglycerides
•high Apo-B lipoproteins
•

Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 2 Examples of a stepwise approach to risk stratification and treatment options. ASCVD =
atherosclerotic ...
Oxford University Press

Figure 2 Examples of a stepwise approach to risk stratification and treatment options. ASCVD =
atherosclerotic cardiovascular disease; CKD = chronic kidney disease; DM = diabetes mellitus; FH =
familial hypercholesterolaemia; TOD = target organ damage.
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
the Oxford University Press, Standard Journals Publication Model
(https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_mo
del)

•
ardilla


Nutrition -2021
•Adopt a more plant- and less animal based food pattern
•Saturated fatty acids should acount for < 10% of total energy intake
•Trans-unsaturated fatty acids should be minimized as far as possible
•< 5 g of total salt intake per day
•30-45 g og fibre per day (preferably wholegrain products)
•200 g of fruit per day
•200 g of vegetables per day
•30 g unsalted nuts per day
•Fish at last twice a week, one of which to be fatty fish
•Red meat should be reduced to a maxium of 35-500 g a week, processed meat shiould be minimized
•Sugar – sweetened beverages, such as soft drinks and fruit juices, must be discouraged
•Alcohol consumption should be limited to a maximum of 100 g/week
•
•
•

„Mediterranean style eating patterns“ – preventin of CVD - greater adherence to a Mediterranean
diet is associated with a 10% reduction in CV incidence or mortality and an 8% reduction in
all-cause mortality.
•
•Olive oil
•decreasing of blood pressure, decreasing of  TG, antitrombogenic, decreasing of insulin
rezistance, antioxidans
•
•Fish (omega-3 fatty acids)
•salamon, sardine, trout, tuna
•decreasing of TG, anti-inflammatory
•
•

„ Mediterranean style eating patterns“  – preventin of CVD - greater adherence to a Mediterranean
diet is associated with a 10% reduction in CV incidence or mortality and an 8% reduction in
all-cause mortality.
•
•
•Alcohol
•increasing of HDL-CH, antiagregans, decreasing of fibrinogen, decreasing of insulinorezistence,
antioxidans-flavonoidy (red wine)
•
•
•Walnuts
•omega-3 fatty acids, fibres, potassium, magnesium, vitamin E

Nutrition - 2021
•
•Alcohol?
•Maximum 20g/day of alcohol for men and 10g/day of alcohol for women - 2016,
•from 2021:
•Maximum 100g of alcohol/week
•(…..↓ cardiovascular disese,
•↑ cancers….)
•
•Coffee!? – 3-4 cups a day can be moderately benefical, about 9 cups harmful….
•Tea!?
•
•Regular physical aktivity!!

Coffee
•
•Studies – more than 400 000 persons:
•1 cup/day decreases mortality about 6 % in males and about 5 % in females
•2-3 cups/day decreases mortality about 10 % in males and about 13% in females
•4-5 cups/day decreases mortality about 12 % in males and about 16 % in females
•6 and more cups/day decreases mortality about 10 % in males and about 15 % in females
•
•Ming Ding et al.: Caffeinated and Decaffeinated Coffee Consumption and Risk of Type 2 Diabetes
(Diabetes Care, 37, 2014:569-585)
•

•
•Non-filtered coffee contains LDL-C-raising cafestol and kahweol, and may be associated with an up
to 25% increased risk of ASCVD mortality by consumption of nine or more drinks a
day.446 Non-filtered coffee includes boiled, Greek, and Turkish coffee and some espresso coffees.
Moderate coffee consumption (3–4 cups per day) is probably not harmful, perhaps even moderately
beneficial.447

DM and coffee….
•
•increasing of insulin sensitivity
•includes potassium, magnesium, fibre
•includes antioxidants
•includes polyfenols – Chlorogen- acid – antioxidant + antiinflamatory efect
•includes niacin, B - vitamins B

Tea
•
•China Kadoorie Biobank
•199 293 men + 288 082 women (30-79 let)
•
•drinking tea every day for several years leads to reduction of risk of ischaemic heart disease by
about 8 %
•Li X, Yu C, Guo et al.: Tea consumption and risk of ischaemic heart disease, Heart 2017,
103:783-789

Key Messages – recommendation 2021
•Risk factors and risk classification
•The major risk factors for ASCVD are cholesterol, BP, cigarette smoking, DM, and adiposity.
•Risk factors are treated in a stepwise approach to reach the ultimate treatment goals in
apparently healthy people, patients with established ASCVD, and patients with DM.
•10-year CVD risk is estimated in apparently healthy people aged 40–69 years with SCORE2, and in
people aged ≥70 years with SCORE2-OP.
•Age-specific 10-year CVD risk thresholds—together with consideration of risk modifiers, frailty,
comorbidities, lifetime CVD risk, treatment benefit, polypharmacy, and patient preferences—guide
treatment decisions for lipid and BP treatment.
•There are various options of communicating the (residual) CVD risk, and this should be tailored to
the individual patient.
•

Key Messages - recommendation 2021
•Risk modifiers
•Psychosocial stress is associated with risk of ASCVD.
•Current risk scores may under- or overestimate CVD risk in differing ethnic minority groups.
•CAC scoring is the best-established imaging modality to improve CVD risk stratification.
•Frailty is a functional risk factor of both CV and non-CV morbidity and mortality.
•Frailty assessment is not a method to determine eligibility for any particular treatment, but
rather serves to build an individualized care plan with predefined priorities.
•Family history should be enquired about routinely, and a positive family history of premature
ASCVD should be followed by comprehensive CVD risk assessment.
•Current data does not support the use of genomic risk scores in CVD risk assessment in primary
prevention.
•ASCVD development and prognosis are linked to social gradients.
•Air pollution is strongly associated with ASCVD.
•Additional circulating and urine biomarkers should not be routinely measured.
•Assess CVD risk in persons with obesity.
•

•Clinical conditions
•CKD is an independent risk factor for ASCVD, and ASCVD is the leading cause of death in CKD.
•A short-term reduction in albuminuria by approximately 30% upon starting RAAS inhibition is
associated with improved CV and kidney outcomes.
•Similarly, SGLT2 inhibitors are associated with long-term benefits in CV and renal risks.
•AF is associated with an increased risk of death and an increased risk of CVD.
•Ischaemic HF constitutes the most advanced clinical manifestation of atherosclerosis within the
myocardium.
•The diagnosis of overt HF, as well as asymptomatic presentation with LV dysfunction, increases the
risk of CVD events (myocardial infarction, ischaemic stroke, CV death).
•There is an overlap between cancer and CV risk factors; CV risk in patients with cancer depends on
both the CV toxicity of treatments and patient-related factors.
•Signs or symptoms of cardiac dysfunction should be monitored before, periodically during, and
after treatment.
•Exercise should be strongly advised, in particular aerobic exercise, to prevent cardiotoxicity.
•COPD is a major risk factor for CVD, especially ASCVD, stroke, and HF.
•COPD patients are prone to arrhythmias (AF and ventricular tachycardia) and sudden cardiac death.
•All COPD patients should be investigated for CVD.
•Common COPD medications are usually safe in terms of CV adverse events.
•Chronic inflammatory conditions increase CVD risk.
•Infection with HIV is associated with an increased risk of LEAD and CAD.
•There is an association between influenza and periodontitis infections and ASCVD.
•
•

•Clinical conditions
•Migraine, particularly migraine with aura, is an independent risk factor for stroke and ischaemic
cardiac disease.
•The risk of ischaemic stroke in subjects with migraine with aura is magnified by the use of
combined hormonal contraceptives and cigarette smoking.
•Non-restorative sleep and a sleep duration that varies significantly up or down from the optimum
of 7 h are associated with increased CV risk.
•Mental disorders are common in the general population (12-month prevalence of 27%) and are
associated with excess mortality.
•The onset of CVD increases the risk of mental disorders by 2.2-fold, leading to a worse prognosis.
•Some mental disorders—even symptoms of anxiety and depression—are associated with the development
of CVD and with a worse prognosis in those with existing CVD (CHD, arterial hypertension, AF, HF).
•Excess mortality is mainly caused by behaviour-dependent risk factors (e.g. smoking addiction) and
an impaired capacity for self-care (e.g. treatment adherence).
•NAFLD is associated with other cardiometabolic risk factors.
•Patients with NAFLD should be evaluated for other cardiometabolic risk factors.
•Sex-specific conditions:
•Preeclampsia and pregnancy-related hypertension are associated with a higher risk of CVD.
•Polycystic ovary syndrome confers a significant risk for future development of DM.
•ED is associated with future CV events and mortality in men.
•CVD risk should be assessed in men with ED.
•Asking about ED should be a standard procedure in routine CV risk assessment in men.
•




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Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 6 Flow chart of cardiovascular disease risk and risk factor treatment in apparently healthy
persons. ASCVD = ...
Oxford University Press

Figure 6 Flow chart of cardiovascular disease risk and risk factor treatment in apparently healthy
persons. ASCVD = atherosclerotic cardiovascular disease; CKD = chronic kidney disease; CVD =
cardiovascular disease; DM = diabetes mellitus; ESC = European Society of Cardiology; FH = familial
hypercholesterolaemia; LDL-C = low-density lipoprotein cholesterol; LIFE-CVD = LIFEtime-perspective
CardioVascular Disease; SBP = systolic blood pressure; SCORE2 = Systematic Coronary Risk Estimation
2; SCORE2-OP = Systematic Coronary Risk Estimation 2-Older Persons. Solid lines represent default
options for the majority of people. Dotted lines represent alternative choices for some, depending
on the patient-specific characteristics and conditions indicated in the boxes. Ultimate treatment
goals for SBP (<130 mmHg) and LDL-C (according to level of risk) according to the respective ESC
Guidelines are to be pursued as indicated. The stepwise approach has to be applied as a whole:
after STEP 1, considering proceeding to the intensified goals of STEP 2 is mandatory. Risk scores
are available in the ESC CVD Risk Calculator app for mobile devices
(https://www.escardio.org/Education/ESC-Prevention-of-CVD-Programme/Risk-assessment/esc-cvd-risk-ca
lculation-app) and at websites such as https://www.u-prevent.com. aDoes not include patients with
CVD, DM, CKD, or FH. bThe LIFE-CVD model for estimating lifetime CVD risk and treatment benefit is
calibrated for low- and moderate-risk regions (see Box 1).
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
the Oxford University Press, Standard Journals Publication Model
(https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_mo
del)

Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 8 Flow chart of cardiovascular risk and risk factor treatment in patients with type 2
diabetes mellitus. ...
Oxford University Press

Figure 8 Flow chart of cardiovascular risk and risk factor treatment in patients with type 2
diabetes mellitus. Ultimate treatment goals for SBP (<130 mmHg) and LDL-C (according to level of
risk) according to the respective ESC Guidelines3,4 are to be pursued as indicated. The stepwise
approach has to be applied as a whole: after STEP 1, considering proceeding to the intensified
goals of STEP 2 is mandatory. Risk scores are available in the ESC CVD Risk Calculator app for
mobile devices
(https://www.escardio.org/Education/ESC-Prevention-of-CVD-Programme/Risk-assessment/esc-cvd-risk-ca
lculation-app) and at websites such as https://www.u-prevent.com. ACR = albumin-to-creatinine
ratio; ASCVD = atherosclerotic cardiovascular disease; CKD = chronic kidney disease; CVD =
cardiovascular disease; DAPT = dual antiplatelet therapy; DM = diabetes mellitus; eGFR = estimated
glomerular filtration rate; ESC = European Society of Cardiology; GLP-1RA = glucagon-like peptide-1
receptor agonist; HbA1c = glycated haemoglobin; HF = heart failure; LDL-C = low-density lipoprotein
cholesterol; SBP = systolic blood pressure; SGLT2 = sodium-glucose cotransporter 2; TOD = target
organ damage (retinopathy, nephropathy, neuropathy). aSevere TOD is defined as at least one of:
eGFR <45 mL/min/1.73 m2 irrespective of the presence or absence of albuminuria; eGFR 46–59
mL/min/1.73 m2 and microalbuminuria (ACR 30–300 mg/g or 3–30 mg/mmol); proteinuria (ACR >300 mg/g
or >30 mg/mmol); presence of microvascular disease in at least three different sites (e.g.
microalbuminuria plus retinopathy plus neuropathy). bSee Table 4 for CVD risk groups. cPatients
with prevalent HF or CKD are recommended for SGLT2 inhibitor, and patients post stroke are
recommended for GLP-1RA treatment. dLifetime treatment benefit is expressed as extra CVD-free life
gained from a certain intervention or treatment intensification. See Box 1.
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
the Oxford University Press, Standard Journals Publication Model
(https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_mo
del)

Eur Heart J, Volume 42, Issue 34, 7 September 2021, Pages 3227–3337,
https://doi.org/10.1093/eurheartj/ehab484
The content of this slide may be subject to copyright: please see the slide notes for details.
Figure 7 Flow chart of cardiovascular risk and risk factor treatment in patients with established
atherosclerotic ...
Oxford University Press

Figure 7 Flow chart of cardiovascular risk and risk factor treatment in patients with established
atherosclerotic cardiovascular disease. Ultimate treatment goals for SBP (<130 mmHg) and LDL-C
(according to level of risk) according to the respective ESC Guidelines3,4 are to be pursued as
indicated. The stepwise approach has to be applied as a whole: after STEP 1, considering proceeding
to the intensified goals of STEP 2 is mandatory. ACS = acute coronary syndromes; ASCVD =
atherosclerotic cardiovascular disease; CR = cardiac rehabilitation; CVD = cardiovascular disease;
DAPT = dual antiplatelet therapy; DM = diabetes mellitus; ESC = European Society of Cardiology;
EUROASPIRE = European Action on Secondary and Primary Prevention by Intervention to Reduce Events;
LDL-C = low-density lipoprotein cholesterol; SBP = systolic blood pressure; SMART = Secondary
Manifestations of Arterial Disease. Risk scores are available in the ESC CVD Risk Calculator app
for mobile devices
(https://www.escardio.org/Education/ESC-Prevention-of-CVD-Programme/Risk-assessment/esc-cvd-risk-ca
lculation-app) and at websites such as https://www.u-prevent.com. aFor patients with DM see DM flow
chart (Figure 8). bFor patients with recent ACS, these prevention goals are part of participation
in CR (Class I/A). cFor patients aged ≥70 years, a high 10-year risk may be associated with a lower
absolute lifetime benefit from treatment due to limited life expectancy. dLifetime treatment
benefit is expressed as extra CVD-free life gained from a certain intervention or treatment
intensification.
Unless provided in the caption above, the following copyright applies to the content of this slide:
This article has been co-published with permission in the European Heart Journal and the European
Journal of Preventive Cardiology. © The European Society of Cardiology 2021. All rights reserved.
The articles are identical except for minor stylistic and spelling differences in keeping with each
journal’s style. Either citation can be used when citing this article. For ermissions, please
email: journals.permissions@oup.com.This article is published and distributed under the terms of
the Oxford University Press, Standard Journals Publication Model
(https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_mo
del)

Dyslipidaemias
•
•
•
•
•Main and the most important factor of developement of CVD
•No dyslipidaemia – no atherosclerosis

Dyslipidaemias
•25 % adult over 50 years of age and older in developed countries take statins
•statins reduce CV morbidity and mortality in  primary and secondary prevention and in high doses
also slow the progression or even promote regression of atherosclerosis
•atherosclerosis begins in 15 years of age
•recommended controls of levels of lipids in primary prevention: in 30?, 40, 50 a 60 years of age

•Match F, Baigent C, Catapano AL et al.:
•
•ESC Scientific Document Group 2019 ESC/EAS Guidelines for the management of dyslipidaemias,
•
•Eu Heart J 2019, pii:ehz455
•
•DOI:<http://dx.doi.org/10.1093/eurheartj/ehz455>
•

Risk levels of a total CV risk
•
•
•1) Very high risk (documented CVD, Type 2 DM, Type 1 DM with target organ damage, patients with
severe CKD, familial hypercholesterolemia)
•
•
•2) High risk (markedly elevated single risk factors, e.g. severe hypertension, patients with
moderate CKD)

Risk levels of a total CV risk
•
•
•3) Moderate risk ( + modulated risk factors, e.g. obesity, family history of CVD, social class
etc.)
•
•
•4) Low risk
•
•
•Apparently healthy people – now we use SCORE 2 and SCORE OP for CV risk calculation…
•
•
•

Dyslipidaemias
•
•
•Hypercholesterolaemias
•
•Hypertriglyceridaemias (part of „metabolic syndrome“)
•
•Combined hyperlipidaemias
•

Target levels in „healthy persons“
•
•
•Total CH < 5,0 mmol/l
•
•LDL-CH < 3,0 mmol/l
•
•HDL-CH > 1,0 mmol/l
•
•TG < 2,0 mmol/l

Targets of LDL-C levels
•
•
•Very, very high risk (repeated CV event): 1,0 mmol/l
•
•Very high risk: 1,4 mmol/l or decrease 50 %
•
•High risk : 1,8 mmol/l or decrease 50%
•
•Moderate risk: 2,6 mmol/l or decrease o 50%
•
•Low risk: 3,0 mmol/l
•

Targets of non-HDL-CH
•
•
•LDL-CH 2,6 mmol/l – non-HDL-CH 3,4 mmol/l
•
•LDL-CH 1,8 mmol/l -  non-HDL-CH 2,6 mmol/l
•
•LDL-CH 1,4 mmol/l - non-HDL-CH 2,2 mmol/l
•
•

Pharmacotherapy of dyslipidaemias
•
•
•Statins (reduce synthesis of cholesterol in the liver by competitively inhibiting HMG-CoA
reductase activity)
•
•Ezetimibe (inhibits intestinal uptake of cholesterol)
•
•Nicotinic acid (intolerance) – not practically used
•
•Fibrates (agonists of PPAR-alfa)
•
•Omega-3-fatty acids (components of fish oil)
•
•Bile acid sequestrants (intolerance) – not practicelly used
•

Statins
•
•decrease CVD about 30-40 %
•decrease total mortality about o 20 %
•
•the main and only causal risk factor of atherosclerosis: LDL-CH
•(the others are only accelerators or markers („no LDL-CH, no atherosclerosis“)
•
•to give the patient most tolerable dosage (for example atorva 80-40 mg, rosuva 20 mg)

New hypolipidaemics
•
•Inhibitors PCSK9:
•(proprotein convertase subtilisin/kexin type 9
•a new class of cholesterol busters:
-crucial protein in LDL cholesterol (LDL-C) metabolism
-pivotal role in the degradation of the LDL receptor)
•Inhibitors PCSK9 increase effect of statins (HMG-CoA reductase inhibitors)
•

PCSK9 inhibitors
•
•
•monoclonaly antibodies against „paraprotein konvertáse subtilisin-kexin“ – this enzyme degradates
LDL-rp
•evolocumab (Repatha), alirocumab (Praluent)
•- s.c. 1 x 2-4/weeks
•- ↓ LDL-Ch about 50 % and Lp(a) about 20-30%
•-↓ CV events about 53 %

Pharmacotherapy  of hypertriglycaridemia
•
•
•
•High risk: Tg > 2,3 mmol/l …statin
•
•
•Very high risk: TG 1,5-5,6 mmol/l…statin + eicosapent. acid 2 x 2g/day
•
•
•Tg > 2,3 mmol/l and target level of LDL-CH… statin + fibrate
•

Dyslipidaemias in old people (age >70)
•
•
•Start:
•
•Secondary prevention - always
•Primary prevention – only in High and Very High Risk

Pharmacotherapy of  dyslipidaemia (in practice)
•
•
•
•Statins!!
•in combination:
•+ Fibrates (increased TG, decreased HDL-CH – as a first step: DM Type 2 with TG > 4 mmol/l
•+ Ezetimibe (increased LDL-C) – as a monotherapy: intolerance of statins
•+ PCSK9 inhibitors
•
•

Secondary risk targets
•
•
•Lp (a) – only very risk persons, family history of premature CVD
•
•
•Apo-B -  people vith metabolic syndrome, DM
•

Other effects of statins
•
•decrease vascular dysfunction
•decrease proliferation in vessel tissue
•decrease proliferative cytokins (TN alfa, PAI-1, Interleukin)
•decrease aggregation of trombocytes
•increase vitamin D levels
•
•increase of glucose levels?

Statins and the risk of development of diabetes
(FDA 28.2.2012)
•
•
•
•
•mechanism is unknown (decreasing insulin sensitivity? decreasing insulin secretion in beta-cells?)
•
•frequency increses with the dose of statin (??)
•8-13 % (simvastatin – atorvastatin – rosuvastatin)
•

Statins and the risk of development of diabetes
(FDA 28.2.2012)
•
•
•
•
•the absolute reduction in the risk of CVD outweighs the posssible adverse effects of a very small
increase in the incidence of diabetes
•
•9:1 (save the life by reducing levels of cholesterol x development of  DM Type 2)

Lipidy a COVID - 19
•
•
•
•Treatment of statin is safe and there is no reason for stoping it
•
•Can also leads to moderation of infection
•
•In combination with Remdesivir maybe it is ideal exchange atorvastatin, simvastatin and
pravastatin to rosuvastatin

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•