Four studies reported the prevalence of current smoking.10,12,16,18 During 2003–2005, the prevalence of current smoking was similar in Barquisimeto city 21.8%18 and Merida city 23.0%,12 but higher than that observed in Maracaibo city – 14.9% in 2007–2010.16 The EVESCAM national representative data collected from 2014 to 2017 reported a prevalence of 11.7%.10 These results show a trend of reduction of current smoking in the country. In Venezuela, there is an intense campaign to limit tobacco use with increased taxation, banned advertising, and restricted smoking in public places.21 These results are consistent with the current trend in the reduction of tobacco use in the Americas, from 22.1% in 2007 to 17.4% in 2015.22 Data from 2015 presents a large difference in the prevalence among countries, ranging from 6.5% and 7.4% in Panama and Ecuador, respectively, to 35.9% and 38.7% in Cuba and Chile, respectively.22

Four studies reported the prevalence of obesity defined as a body mass index (BMI) ≥30kg/m2.10,11,13,20 Data collected between 2003 and 2005 (CARMELA) reported an obesity prevalence of 25.1% in Barquisimeto city, this prevalence was higher in two studies collected between 2006 and 2010, 33.3% in Maracaibo city and 29.3% in three regions of Venezuela, but most recent data from 2014 to 2017 presented a lower prevalence of obesity of 24.6%.10 Globally, there is a rise in the number of people with obesity, from 105 million in 1975 to 641 million in 201423 and it was expected to observe an increase in the EVESCAM study. However, there was an apparent reduction in Venezuela.

Since 2014, the Venezuelan scenario is, in many aspects, comparable with the economic crisis of Cuba at the beginning of the 90th decade after the dissolution of the Soviet Union and the tightening of the US embargo. During this period, the Cuban gross domestic product fell – 6.7% and there was a severe shortage of food and failure in transportation, leading to an increase in physical activity. This was associated with a population weight loss of 5.5kg or about 1.5 points in the BMI.24 Before the Cuban crisis, the prevalence of obesity was 15%, and decreased to 7.5%, during the five years of the crisis,24 but then, increased progressively to reach 30.6% in women and 18.5% in men in 2014.25 The CHC in Venezuela share components with the Cuban crisis and could explain this apparent reduction in the prevalence of obesity.

Five studies reported the prevalence of diabetes and prediabetes.10,11,15,18,19 From 1999 and 2001, the prevalence of diabetes was 7.8% in men and 7.4% in women of the Zulia State, from 2003 and 2005, 6.0% in Barquisimeto city, and from 2006 and 2010, 8.8% in Maracaibo city and 8.3% in the Andes, Central, and Capital regions. The prevalence of diabetes in the EVESCAM study from 2014 to 2017 was 12.3%, the highest reported in the country, showing an increasing trend in the prevalence of diabetes. Similarly, the prevalence of prediabetes also increased from 14.9% and 19.6% in men and women of Zulia, and 14.6% in the three regions of Venezuela from 2006 to 2010, to 34.9% from 2014 to 2017.

This apparent increase in the prevalence of diabetes and prediabetes could be attributed in part to changes in nutritional behaviors, but also the EVESCAM study was the only one using oral glucose tolerance test (OGTT) which increased the detection of prediabetes and diabetes compared to the rest of studies that only used fasting blood glucose. Like obesity, the prevalence of diabetes is increasing worldwide. Despite the association of obesity and diabetes, in Venezuela, as reported in VEMSOLS study,26 higher BMI was not associated with higher prevalence of diabetes. The 2019 Atlas of the International Diabetes Federation reported that the number of people with diabetes increased from 151 million in 2000 to 463 million in 2014, with a global prevalence of 9.3%, and it is expected to increase by 51% in the next 25 years.27 In the South and Central American Region, the prevalence estimated of diabetes was 9.4% and impaired glucose tolerance of 10.1% in 2019,28 both lower than that observed in the EVESCAM study in 2014–2017(12.3%).10

Three studies reported the prevalence of hypertension.10,14,18 From 2003 to 2005, the prevalence of hypertension was 24.7% in Barquisimeto city,18 from 2006 to 2010 31.3% in the Andes, Central, and Capital regions,14 and from 2014 to 2017 34.1% in the EVESCAM national study.10 These results show an increase in the prevalence of hypertension in the last two decades in multiple regions.29,30 In comparison, results from the PURE-LATAM study reported a prevalence of hypertension of 44.6% in six Latin American countries (Argentina, Brazil, Chile, Colombia, Peru, and Uruguay) in adults 35–70 years old in 2017, ranging from 19.3% in Peru to 52.5% in Brazil,31 with an average rate of control of 20.4%.29,30

In Venezuela, comparing the VEMSOLS (2006–2010) and EVESCAM (2014–2017) studies, the proportion of subjects aware of their own hypertension increased from 67% to 72%, but the proportion of treated reduced from 56% to 51%, possibly related to the severe shortage of medications and high prices. Nevertheless, the proportion of subjects controlled (<140/90mmHg) increased from 9.9% to 33%, indicating an improvement in the management strategy of hypertension. It is critically important to know the role of lifestyle change in this setting.

Each of the seven studies reported the prevalence of dyslipidemias.10–19 The epidemiology of dyslipidemia is difficult to compare across the studies because there are several types of dyslipidemias, without agreements on definitions. Among the dyslipidemias studied, low HDL-cholesterol was the most prevalent, ranging from 57.4% in Maracaibo city to 84.2% in Merida city, without apparent changes overtime (65.3%, 1999–2001 vs. 63.2%, 2014–2017). High triglycerides was the second most prevalent dyslipidemia, ranging from 22.7% in the national sample to 56.0% in the rural population of Mucuchies in Merida State and lower in 2006–2010 (39.7%) and 2014–2017 (22.7%). The prevalence of high cholesterol showed a large variation, from 5.7% in Barquisimeto city in 2003–2005 (defined as a total cholesterol ≥240mg/dL) to 33.0% in the rural population of Mucuchies in Merida State (defined as a total cholesterol ≥200mg/dL). For VEMSOLS (2006–2010) and EVESCAM (2014–2017), the prevalence of high cholesterol (defined as a total cholesterol ≥200mg/dL) and high LDL-c (defined as LDL-c ≥130mg/dL) was similar, 22.2% vs. 19.8% and 23.3% vs. 20.5%, respectively.

Globally, from 1980 to 2018, there are changes in the prevalence of high cholesterol varied with different populations,31 the total cholesterol values decreased in high-income western regions and central and eastern Europe, and increased in east and southeast Asia, without major changes in other regions. This repositions the epicenter of dyslipidemia from high-income countries in northwestern Europe, North America, and Australasia to middle-income countries in east and southeast Asia, as well as some countries in Oceania and central Latin America.31 A systematic review and meta-analysis of population-based studies assessing dyslipidemias prevalence in Latin America and the Caribbean, with studies published between 1964 and 2016, showed no significant changes in prevalence rates.32 The pooled prevalence in the region since 2005 were high total cholesterol 20.9% (cholesterol ≥240mg/dL) and 34.0% (cholesterol ≥200mg/dL); high LDL-c 19.7% (LDL-c ≥160mg/dL) and 40.4% (LDL-c ≥130mg/dL); low HDL-c 48.2% (HDL-c ≤40mg/dL in men and ≤50mg/dL in women); and high triglycerides 20.4% (triglycerides ≥200mg/dL) or 43.1% (triglycerides ≥150mg/dL).32 The results of this meta-analysis highlight that in Latin America, low HDL-c and high triglycerides are the most common lipid alterations.32 Consequently, a group of experts of the Latin American Academy for the study of Lipids (ALALIP) presented in 2017 a position statement that reinforces the recognition that atherogenic dyslipidemia, the combination of high triglycerides and low HDL-c, is highly prevalent in Latin America, probably as a reflection of genetic predisposition, epigenetic modifications, and unhealthy diet, and therefore needs to be more thoroughly evaluated in a large regional study.33

Six studies reported the prevalence of metabolic syndrome, which also has different definitions.10,12,17–20 The prevalence of metabolic syndrome in Venezuela shows large variation without any apparent trend, ranging from 25.8% in Barquisimeto city in 2003–2005 to 47.6% in the national sample in 2014–2017. But, using the same definition, metabolic syndrome prevalence increased from 35.6% (2006–2010, VEMSOLS) to 47.6% (2014–2017, EVESCAM). A systematic review including studies reporting the prevalence of metabolic syndrome in Latin America presented a weighted mean of 24.9%, with a wide range of variation, from 18.8% in Peru to 43.3% in Puerto Rico.34

Since the first definition of metabolic syndrome, there has been considerable disagreement about clinical relevance and utility identifying people at risk.35 In 2020, a Cardiometabolic-Based Chronic Disease (CMBCD) model that provides a preventive care plan designed to implement early and sustainable evidence-based therapeutic targeting to promote cardiometabolic health was proposed that provides pragmatic context for the metabolic syndrome.36,37 The CMBCD model integrates two novel diagnostic frameworks for adiposity and dysglycemia, Adiposity-Based Chronic Disease (ABCD)38 and Dysglycemia-Based Chronic Disease (DBCD).39 The ABCD model is a complication-centric rather than a BMI-centric approach that incorporates adipose tissue distribution and function in addition to just amount, and the DBCD model is a complication-centric, rather than glucocentric approach that configures insulin resistance, prediabetes, type 2 diabetes, and vascular complications along a spectrum. A CMBCD preventive care plan emphasizes the proactive search for cardiovascular complications and incorporates primordial prevention of cardiovascular risk development in the general population (stage 1), primary prevention of disease in patients at risk and with pre-disease (stage 2), secondary prevention of disease progression in patients with early disease (stage 3), and tertiary prevention of worsening symptom burden in patients with late disease (stage 4).37

Two studies reported the prevalence of insufficient physical activity using the International Questionnaire of Physical Activity (IPAQ), defined as less than 150min of moderate-intensity, 75min of vigorous-intensity physical activity per week, or a combination of the two.10,15 Both studies reported a similar prevalence, 34.3% in Maracaibo city (2007–2010) and 35.2% in the national sample (2014–2017), inferring that between those time periods the prevalence of insufficient physical activity remained steady. In a global study including 1.9 million subjects, the prevalence of insufficient physical activity was 27.5% in 2016, stable since 2001, but with regional differences.40 In Latin America and the Caribbean, insufficient physical activity increased from 33.4% in 2001 to 39.1% in 2016,40 it is likely that this prevalence is currently lower in Venezuela based on the severe shortage of gasoline and transportation. However, the high level of insecurity and violence reduce the exposure of people to activities outside their homes, mitigating any presumed benefit.

In EVESCAM (2014–2017), dietary intake was assessed using a semi-quantitative food frequency questionnaire and a dietary diversity score. The most frequently consumed foods were coffee, arepas (a salted corn flour cake), and cheese. Western foods were consumed infrequently with over 75% of participants consuming French fries, burgers, and fast foods only monthly or less frequently. Dietary diversity is low with the CHC in Venezuela. Although dietary diversity was similar in both genders, females had healthier diets than males, with lower consumption of white bread, red meat, and soft drinks. Men, younger individuals, and those with higher SES were more likely to consume red meat and soft drinks once or more weekly. Women and those with higher SES were more likely to consume vegetables and cheese once or more daily. Participants with obesity, type 2 diabetes, and hypertension had a lower daily intake of red meat and arepas compared to participants without these risk factors. Nutrition transition, replacement of healthy foods by ultra-processed foods, which is observed elsewhere in Latin America, seems not to be the case in Venezuela.41