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ORIGINAL RESEARCH article

Front. Public Health, 02 November 2023
Sec. Health Economics

Does obesity Kuznets curve exist in developing economies? Evidence from 38 African countries based on heterogeneous panel data analysis on income-level classification

  • 1School of Management, Jiangsu University, Zhenjiang, China
  • 2Department of Statistics and Actuarial Science, Kwame Nkrumah University of Science, Kumasi, Ghana
  • 3Institute of Applied Systems Analysis (IASA), School of Mathematical Science, Jiangsu University, Zhenjiang, China
  • 4Hospitality Management Department, Takoradi Technical University, Takoradi, Ghana

Introduction: The global pandemic disease known as the obesity epidemic has spread throughout the planet. Particularly, Africa is facing a growing problem of obesity, and the trend is rising. This is a result of a ticking time bomb. Given the claim that multiple socio-economic factors significantly affect the diversity in obesity rates between nations, economic development can be seen as a key contributor to this variation.

Methods: Relying on the aforementioned avowal, this extant research examines the relationship between obesity and economic growth using urbanization, trade openness, and unemployment as intermittent variables within the Obesity Kuznets Curve (OKC) framework. Using panel data from 1990 to 2020, a panel of 38 African countries subdivided into income levels (Low income, Lower-middle income, and Upper-middle income) were analyzed. With the presence of residual cross-sectional reliance and slope heterogeneity, the Augmented Mean Group (AMG) econometric approach is employed.

Results: Key outcomes from the mentioned estimation method unveiled that economic growth positively impacts obesity among all the study panels. Variably, unemployment was evidenced to have a palpable positive impact on obesity concerning Low-income economies whereas on the side of the Lower-middle income panel together with Upper-middle income economies and the aggregated panel, a significant negative relationship is observed with obesity. Further, urbanization enhanced obesity in the Low-income panel and the aggregated panel of African nations, whereas an adverse effect is identified in both the Lower-middle and Upper-middle economies in Africa. Moreover, except for Low-income African economies, all the other panels of African nations in terms of income levels were noted to have a significant negative effect on obesity from trade openness.

Discussion: Finally, the long-run coefficients indicated that the OKC is valid among all panels of African countries. The study thus preferably suggests in African economies that addressing the inverted U-shape relationship between obesity and economic growth requires a multifaceted approach that considers the evolving dynamics of both factors. Policy makers should, therefore, aim to balance promoting economic growth and safeguarding public health through targeted interventions and long-term strategies.

1. Introduction

In the last two to three decades, obesity and overweight prevalence have increased globally. Since 1980, global obesity has more than doubled, and the majority of the world’s population now lives in nations where obesity kills more people than underweight (14). Obesity and overweight are risk factors for noncommunicable diseases (NCDs) such as cardiovascular diseases (CVDs), type 2 diabetes, musculoskeletal disorders, and cancers (5, 6). It is estimated that overweight people in 2016 accounted for more than 1.9 billion (39%) adults above the age of 18 around the world. Recent figures estimated that approximately 650 million of those who are overweight are obese according to the World Health Organization (4) fact sheet. Further, between 1975 and 2016, the global prevalence of obesity nearly tripled. Obesity has been identified to affect approximately 13% of the global adult population (4). In Africa, approximately 27% of adults aged 20 and above are overweight, with 8% being obese (6). While several African countries face the threat of communicable and poverty-related diseases (such as infant mortality, cholera, malnutrition, and malaria), the prevalence of chronic diseases continues to rise (7, 8). Obesity and overweight were originally only linked to high-income countries, but it is now common in low- and middle-income countries as well. Marshall (9) reported that developing countries are facing a “double burden” of disease. Thus, for instance, malaria and other infectious diseases affect people in several East African countries at an early age. Later in life, high-fat and processed food diets put them at risk of cardiovascular disease and diabetes (10). Evidently, according to some studies, the burden of chronic diseases in many developing nations will soon match the burden of acute infectious diseases (11, 12). The WHO predicts a doubling of mortality rates from ischemic heart disease in the African region by 2030 (13), as well as the largest increase in diabetes prevalence in developing countries by 2045 where economies are moving from low to middle income status (14).

The factors leading to the increase in obesity and overweight are multifaceted. Numerous studies have identified trade openness as one contributing factor to obesity and overweight (15, 16). There is a well-established conceptual framework that links trade openness to improved health outcomes, pointing to a rise in the availability of highly processed, energy-dense, nutrient-poor foods in developing nations as a result (17). Lin et al. (18) argued that the importation of processed food especially sugar is the reason for the increasing average body mass index (BMI) in countries. Empirical investigation by An et al. (19) revealed that, trade openness was found to be positively associated with obesity prevalence in countries, with the effect being strongest in emerging countries. Apart from trade openness, widely documented studies have identified unemployment or involuntary job loss as a factor that affects obesity prevalence among individuals (2022). Others argue that long-term unemployment is correlated with increased risk of obesity as reported by Hofmeister (21). This finding is in tandem with the study of Antelo et al. (23), where authors found out that body mass index of respondents was impacted by long term unemployment or unemployed recently. Evidently, the prevalence of obesity in developed and developing countries, especially urban areas, has increased significantly in recent decades (24). Africa is not an exception to this recent urbanization which has led to rapid development in most of its regions. Despite the increasing prevalence rate of obesity, studies have projected that 20–25% of the African urban population are either obese or overweight (24, 25) and by 2025 it is anticipated that non-industrialized countries will account for three-quarters of the world’s obese population (26). Obesity and overweight have increased dramatically in recent years as a result of nutrition transition - dietary changes (fast food) and sedentary lifestyles. Rapid urbanization, adoption of western diets, changes in the lifestyle and intake of highly processed dietary foods contribute to increased obesity, lower physical activity and raised risk of metabolic and cardiovascular diseases. Apparently, low-and- middle income countries particularly in urban areas in Sub-Saharan African countries, are confronted with an expanding trend of obesity prevalence as reported by Biadgilign et al. (27).

Economic growth is an important element in the increase in the prevalence of obesity in most developed countries (28). With regards to economic growth, many studies conducted argued that obesity prevalence increases as individuals’ incomes increase to a certain threshold. The relationship is negative after that threshold point, resulting in an inverse U-shaped curve (28). Using Oman, Saudi Arabia, United Arab Emirates and Turkey as an example in a study conducted, a long-run coefficients results indicated that as personal income increases it would enable people to be able to afford more food which they might not need necessarily causing them to become overweight and obese. However, if they reach a certain threshold, they will want to eat healthier and reduce their caloric intake (29). Aggregate data from South Africa shows that there is an existence of obesity inequalities. That is, poor men are less likely to be obese than their richer counterparts (30). Nevertheless, individuals’ consumption reduces as they reach a specific financial level, combined with a better understanding of nutrition.

Although numerous empirical studies have been conducted to determine whether there is a causal relationship between economic growth, urbanization, trade openness, and unemployment, little attention has been paid to the nexus between the aforementioned factors that contribute to obesity in African countries. Concerning the studies conducted in Africa, Lartey et al. (31) employed multinomial and binomial logistics regressions to investigate the recent changes in the prevalence of obesity among older adults 50 years and above between 2007/08 and 2014/15 in Ghana. Peer et al. (32) in a study to determine the prevalence and determinants of overweight/obesity in the 25–74-year-old urban black population of Cape Town, and to investigate the changes between 1990 to 2008/09 used linear regression model analysis. Qualitatively, Agyemang et al. (33) examined the determinants of the epidemiology of obesity and overweight and the connection with diabetes and cardiovascular diseases in sub-Saharan African regions. Study findings revealed that South Africa was the most affected by obesity and overweight even though all African regions in the study experienced an increase. Socioeconomic level, gender, age, parity, physical inactivity, and increased caloric, fat, and sugar intake are all strong predictors of overweight and/or obesity, according to review findings of Steyn and Mchiza (5) in Sub – Saharan Africa. The use of multivariable logistic regression of pooled datasets from 27 countries (2003–2009) in sub-Saharan African countries established that maternal obesity is linked to a higher risk of neonatal death (34).

Despite the growing need to tackle obesity and overweight as well as other NCDs, studies conducted in Africa are limited compared to Western countries. This extant study compared to other related research therefore uniquely contributes to literature in three main folds.

i. Firstly, this extant study takes into account a panel of African nations that have been subdivided into income levels. Specifically, only few studies concerning obesity have considered country specifics without taking into account the panel setting. For instance, Aydin (29) examined the effect of economic growth on obesity considering the most obese countries as distinct cross-sections. To the best of our familiarity, this is a novel study in Africa which examines the obesity Kuznet curve (OKC) framework considering trade, urbanization and unemployment as additional variables in both panel and sub-panel settings in terms of income levels. Both the aggregated panel and sub-panel classifications are considered in the study with the reason being that, conclusions as well as policy suggestions drawn from the outcomes concerning the aggregated panel, may not be true for all countries at different developmental stages as well as differences in economic structure, technical levels and resource endowment. Thus, employing the sub-panel classifications will enhance the study to determine whether factors unique to the countries within the sub-panels influence the affiliations between economic growth and obesity when examining the OKC hypothesis.

ii. Secondly, the Kuznet curve is a term that refers to Simon Kuznets’ (35) theory that, as a nation develops, a natural cycle takes shape in which quality initially rises and then falls. Nonetheless, as income increases and more resources are available to buy food, the Kuznet curve is extended in this study to form an obesity Kuznet curve. People eat more calories as a result, and obesity rates rise. However, as wealth continues to climb, people’s personal health becomes a more valuable possession and they start to lose weight, which raises their health levels.

iii. Thirdly, in terms of methods, the few related pieces of research which examined the liaison between economic growth and obesity both in and out of Africa ignored issues concerning residual cross-sectional reliance and heterogeneity among slopes which lead to spurious outcomes being provided. Thus, to resolve the mentioned issues which most related works have paid less attention, this recent study employs the Augmented Mean Group (AMG) estimation method to examine the OKC conjuncture concerning the relationship between economic growth and obesity.

The successive sections of this research work are thus organized as follows; Section 2 explores the various panel econometric methods used; Section 3 presents the empirical outcomes from the study’s analysis whereas Section 4 outlines the various discussions concerning the outcomes. Finally, the fifth segment concludes the study with policy suggestions or recommendations.

2. Methods

2.1. Data source and variable description

To achieve the objective of this extant research, panel time series data for African economies spanning from 1990 to 2020 has been utilized. The panel data employed consist of four main variables which includes obesity (measured in age-standardized prevalence of obesity among person aged 18+) as the response variable, economic growth (measured are gross domestic product (GDP), constant 2010 US dollars) as the main explanatory variables of interest whereas trade openness (measured as the value of imports plus exports as percentage of GDP) together with unemployment (measured as unemployment total percentage of labor force, modeled ILO estimate) and urbanization (measured as urban population as the share of total population) functions as control variables. Specifically, the employed panel data was extracted from World Health Organization’s Global Health Observatory database WHO (36) and World Bank Development Indicators WDI (37). Table 1 therefore summarily outlines the description of variables together with their respective data sources.

TABLE 1
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Table 1. Data source and description of variables.

Though the African continent is made up of 54 nations, taking into account the scarcity of data pertaining to some countries and certain variables, this extant study settled on 38 African countries. For instance, the countries which include Sao Tome and Principe together with Seychelles were opted out since they have insufficient data concerning economic growth. Further, Angola, Equatorial Guinea, Eritrea, Ethiopia, Lesotho and Malawi were also eliminated from the list of countries employed due to lack of sufficient data in the case of trade openness. Finally, the panel of 38 African countries selected for the study were subdivided into three sub-panels by using the gross national income (GNI) criterion from World Bank and Lending Group classification (38). Precisely, the income group classification includes, Low income (GNI less than 1,045 USD), Lower-middle income (GNI from 1,046 USD to 4,095 USD) and Upper-middle African countries (GNI from 4,096 to 12,695 USD). Numerically, the low-income African nations panel consisted of 18 countries, the Lower-middle income panel of African nations consisted of 15 countries whereas that of Upper-middle income African states’ panel comprised of five nations. Notably Table 1 outlines the details concerning the specific countries in each panel mentioned. Summarily, the list of countries employed for this extant study are outlined in Table 2.

TABLE 2
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Table 2. Classification of African countries by income levels.

2.2. Reasons for variables selection

Before estimating the panel econometric model as specified in Eq. (2), it is of much importance to discuss the essence of employing the study’s variables of interest in the midst of other variables which may deem potential. The study adopted three theories to discuss the reasons based on which the variables of importance were selected. The social-ecological model was adopted to explain the reason why economic growth and urbanization were selected for the study. The social-ecological model of health proposes that various factors affect an individual’s health, including biological and genetic factors, social connections and family relationships, environmental circumstances, and larger social and economic patterns (39). The association between economic growth and obesity is investigated in the literature via several transmission mechanisms, which is of interest to us. Economic growth, without a doubt, is the principal mechanism by which emerging economies may lift themselves out of poverty at the moment. Additionally, it has probably been one of the most significant influencers on health advancements throughout human history, as Egger et al. (40) reported. However, as a result of the law of diminishing returns, the benefits of sustained economic growth begin to dwindle and expenses begin to rise after a certain point (41). According to this argument, there may exist a theoretical GDP that is high enough to create adequate wealth, and promote good health, and happiness but not so high that it results in obesity and an unsustainable carbon footprint (42). Additionally, the impact of economic growth can be explained by technological advancements, which alter food prices and the economy’s structure. With the advancement of technology, a wider variety of foods has become more accessible. As a result, this might be viewed as a contributing factor to obesity, as it enables more convenient and excessive eating. On the other hand, as an individual’s financial situation improves, he or she is able to consume more food. Food consumption increases in this situation until income hits a turning point. As a result of this increase in food intake, obesity rates rise.

The social-ecological model further proposes that there are several levels of influence, and that these levels interact and reinforce one another. The model has been widely employed to elucidate how individuals’ physical activity and dietary choices are influenced by investigating the ever-changing environmental circumstances in which these behaviors take place (43). For instance, at the individual level factors such as genetics, behavior, and lifestyle choices can contribute to obesity. Urbanization can impact these factors by changing the food environment and opportunities for physical activity. The relationship between urbanization and obesity (also known as urban obesity), on the other hand, has recently been the subject of research, with recent findings suggesting that urbanization is responsible for shifts in dietary patterns and physical activity levels that tend to increase the risk for obesity (44). Urban obesity, particularly among the poor, is a problem all over Africa. For example, urban obesity is twice as high as it is in rural regions in Kenya, Senegal, and Ghana, and it is nearly three times as high across the continent—roughly a third of Africa’s urban population is obese. Africa confronts a growing obesity problem as a result of rapid urbanization and associated lifestyle changes. The proportion of Africans living in cities is expected to rise to 50% by 2030 and 60% by 2050 across the continent. As a result, increased urbanization is likely to be linked to lifestyle changes such as less physical activity. This is frequently accompanied by an increase in the consumption of high-calorie fast foods and sugary beverages. This combination has contributed to an increase in the prevalence of obesity in major areas and towns in developing countries, including Africa.

The political economy model can be used to explain the relationship between obesity and trade. This model suggests that trade policies and globalization can have significant impacts on the food environment and food systems, which in turn can contribute to the development of obesity (45, 46). Lin et al. (18) expressed in her study that an increase in trade flows would result in an increase in chronic illness and non-communicable diseases. The researcher further expressed that there are three nexus between trade and non-communicable diseases are highlighted in the literature: (a) growth of transnational food corporation (b) global food advertising and promotion (c) trade liberalization (47). Trade liberalization is the process of reducing tariffs and eliminating quotas. The emergence of a supermarket revolution and the quick global expansion of fast-food chains are examples of the growth of multinational food company connection, which is intertwined with broad transformation and control over the world’s food supply. The connection between worldwide food advertising and promotion highlights aggressive advertising and shifting food consumption habits. Furthermore, there is no doubt that higher trade openness results in increased economic growth, which may result in decreases in inequality and poverty rates, as well as a slew of other beneficial externalities. Nonetheless, in recent years, health experts have expressed worry that obesity and trade openness may be associated in some way as well. To be more specific, higher sugar consumption appears to be a significant method via which trade openness may have an impact on obesity rates. It has been argued that trade openness policies remove tariff barriers to imports of sugar-sweetened beverages, which may be connected to both obesity and related disorders (48). In addition, consumption of cheap, nutrient-poor foods is encouraged by the low cost and wide availability of imported goods with high fat and high sugar content (49). Thus, the passage of free trade agreements in Africa, such as the African Continental Free Trade Area (AfCFTA), may have further reduced the prices of refined sugar and other processed foods, which is compounded by allowing fast-food enterprises to expand into developing countries in regions such as Africa, negatively affecting individual consumption habits and leading to excessive food consumption. This may have influenced dietary changes that led to obesity.

Lastly, the social determinants of health model can be used to explain the relationship between obesity and unemployment. This model suggests that social and economic factors, such as income, education, and employment, can impact health outcomes, including obesity (50). When using the social determinants approach, it is important to focus on “the causes of the causes,” looking beyond the person to consider potential determinants that may arise at many levels. While it is obvious that social determinants include elements reflecting psychosocial (such as stress, occupational demands, and purely psychological constructs like depression and anxiety) and sociodemographic (such as gender, nativity, race/ethnicity, socioeconomic position) and characteristics, they also include more upstream elements like neighborhood traits, social structures, and the social environment. Unemployment can impact economic factors, such as income and access to resources, which can in turn impact food choices and physical activity levels. For example, individuals who are unemployed may have limited resources to purchase healthy foods or participate in physical activities that require a membership or equipment. According to a recent Gallup study, the longer someone is unemployed, the higher their chances of being obese, with rates as high as 32.7 percent after a year or more. Obesity is caused by unemployment, according to Cawley (51). He reinforced this argument by stating that unemployed individuals with lower salaries are more prone to purchase less expensive, but more fattening, items in order to save money. Furthermore, it was claimed that because obesity is a debilitating illness, obese employees are more likely to be less productive and, as a result, less likely to be hired, even when all other factors are included. If this results in decreased social position and income, it is believed that a vicious cycle will begin, with people consuming cheaper and fatter foods, which will, in turn, imperil their future employment opportunities. Given the foregoing rationales, economic growth, unemployment, trade openness, and urbanization are anticipated to have a significant link with obesity, and hence are appropriate variables to include in this study.

2.3. Model specification

Following the study of Grecu and Rotthoff (28) together with Aydin (29) this extant study based on the OKC framework seeks to estimate the non-linear (quadratic) relationship between obesity and economic growth. In order to reduce issues concerning the omission of variable bias (OMB), the study further incorporates potential variables of interest which include unemployment rate, and trade openness together with urbanization in a multivariate context. Thus, our proposed extended OKC model is specified as;

o b s = f g d p , g d p 2 , uemp , t r d , u r b     (1)
where obs together with gdp, g d p 2 , uemp, trd, and urb correspondingly represent obesity, economic growth, square of economic growth, trade openness and urbanization. In order to estimate the specified function in Eq. (1) econometrically, the explanatory variables are required to be expressed as a linear combination of their respective parameters. Moreover, due to potential issues of heteroscedasticity, data pertaining to each of the study variables are transformed into natural logarithm. Specifically, the log-transformation is executed prior to the estimation of the model so as to harmonize variance within the data employed. Log-transformation often helps to reduce the spread of data point of the explanatory variables in more constant variance across the range of the data. This harmonization of the variances addresses the issue of heteroscedasticity. In some cases, log-transforming variables in the model reduce the influence of extreme values or outliers in the data (52). Notably, heteroscedasticity is often caused by the presence of outliers and the log-transformation helps to mitigate their effects on the model. Based on these conditions augmented log-nonlinear OKC model in a panel setting is thus formulated as;
lnob s it = δ o + δ 1 lngd p i , t + δ 2 lngd p 2 i , t + δ 3 lnuem p i , t + δ 4 lntr d i , t + δ 5 ln u r b i , t + ε i , t     (2)
where δ o is the constant term, δ 1 , δ 5 are the parameter estimates which capture the effect of economic growth and its square together with unemployment, trade openness and urbanization on obesity prevalence correspondingly. Specifically, for the OKC conjuncture to be valid or confirmed, the coefficient of G D P that is δ 1 has to be positive whereas that of G D P 2 which is δ 2 has to be negative. The positive δ 1 together with the negative δ 2 will therefore infer that, that as a country’s income rises and it undergoes economic development, the prevalence of obesity initially increases but eventually reaches a peak and starts to decline. This implies that obesity rates increase during the early stages of economic development, and then decrease as a country becomes more affluent. Thus, the level of income regarding countries with respect to specific panels in Africa will have attain in order to curb obesity is thus obtained using the relation;
g d p = exp δ 1 2 δ 2     (3)

2.4. Econometric estimation approaches

To estimate the study’s model as defined in Eq. (2), we first determined whether or not residual cross-sectional correlation and heterogeneity existed within the panel data used. Specifically, the presence or lack of residual cross-sectional connectedness and heterogeneity in a panel data environment has implications for the choice of additional econometric methodologies such as panel unit root and cointegration tests, as well as long-run estimate methods. Based on this claim, the Pesaran (53) cross-sectional reliance tests which include CDP test, CDLM and the CDLM-ADJ tests were used. Concerning the heterogeneity test, the Pesaran and Yamagata (54) homogeneity test was also used in the investigation. Bearing in mind the possibility of residual cross-sectional reliance and heterogeneity in a panel data setting, the study went on to look at the integration properties of the used variables using the cross-sectional Augmented Dickey Fuller (CADF) and the cross-sectional Im, Pesaran, and Shin (CIPS) by Pesaran (55). Apart from looking into the stationarity characteristics, we also looked into the long-run correlations between the research variables using the Westerlund and Edgerton (56) bootstrap cointegration test and the Durbin–Hausman panel cointegration (57). The study calculated the long-run relationship between a series of variables using the Augmented Mean Group (AMG) methodology developed by Bond and Eberhardt (58) once the conditions relevant to the afore-mentioned preparatory procedures were satisfied.

Based on shreds of evidence, the AMG estimation approach takes heterogeneity across countries into account and also enables the parameters of non-stationary variables to be examined. Theoretically, the AMG long-run estimation procedure is based on two main stages. From the first stage of the AMG method, the study’s proposed model as specified in Eq. (2) is estimated using T-1 dummies in a differenced form (first difference) through the following panel regression model specified as;

ln Δ o b s it = δ i + δ 1 ln Δ g d p it + δ 2 ln Δ g d p it 2 + δ 3 ln Δuem p it + δ 4 ln Δ t r d it + δ 5 ln Δ u r b it + t = 1 T t Δ D t + ε it     (4)
where Δ D t denotes the first difference order with T-1 time dummies, Θ t represents the coefficients of Δ D t , δ i is the constant term whereas δ 1 ,…, δ 5 capture the parameter estimates of the differenced study variables.

With the second stage, the parameter t is transformed to η_t (i.e., t = η t ) then express in a common dynamic process as follows;

ln Δ O B S it = δ i + δ 1 ln Δ g d p it + δ 2 ln Δ g d p it 2 + δ 3 ln Δuem p it + δ 4 ln Δ t r d it + δ 5 ln Δ u r b it + η t d t + ε it     (5)
lnΔOB S it η t d t = δ i + δ 1 ln Δ g d p it + δ 2 ln Δ g d p it 2 + δ 3 ln Δ uemp it + δ 4 ln Δ t r d it + δ 5 ln Δ u r b it + ε it , and dt is represents the standard dynamic process and estimated coefficients of each dummy.

We can, therefore, deduce that, the cross-section panel model with η_t as specified in Eq. (5) is adjusted before estimating the average parameter estimates in terms of country specifics. Thus for each explanatory variable specified in the study’s model, the parameters to estimate can be computed using the relation:

δ ̂ i A M G = I N i = 1 N δ ̂ i     (6)
where δ ̂ i A M G denotes the AMG estimator.

Specifically, the AMG assumes that the underlying relationship between the response variable and explanatory variables has the same slope across all individual panels. Further the AMG model assumes that there are no unobserved individual-specific fixed effects that are correlated with the explanatory variables. This assumption allows for pooling the data across individuals to estimate the common slope coefficients. Moreover, the error term in the AMG model is assumed to be uncorrelated across time and individuals. This assumption thus implies that there is no serial correlation or autocorrelation in the error term which ensures the efficiency of the estimation. Furthermore, the error terms are assumed to be uncorrelated across individual cross-sections. This thus implies that there is no cross-sectional correlation or contemporaneous correlation among the error terms of different cross-sections.

2.5. Descriptive statistics

Summarily, Table 3 outlines the descriptive statistics pertaining to the study variables (obesity, economic growth, trade openness, unemployment and urbanization) based on their respective means, standard deviations, skewness and kurtosis together with Jarque-Bera test of normality. Specifically, a summary of the descriptive statistics as outlined in Table 3 is performed based on the panel of African economies and three sub-panels in terms of income levels. Due to the larger nature of values pertaining to the mean and standard deviation values of economic growth and urbanization we converted them into millions (10^6). Considering the outcomes from the mentioned table, it is evident that the variable GDP (economic growth) has the highest mean estimates across all panels of African economies followed urbanization and then trade openness with unemployment having the least average value from one country group to the other. According to Mensah et al. (59), the implication of GDP having the highest mean values compared to the other variables may be due to the aggregate demand for high incomes, tax exemptions, devaluations, minimal government expenditure and ultimately low-interest rates evidenced in most of the African economies regardless of their respective income levels. On the side of the increase in production, this outcome in terms GDP having the highest mean value could be due to the surge in comprehensive supply in terms of increased investment. Generally, it is evident there exist some variabilities pertaining to the results from the sub-country panels. Specifically, except for obesity and urbanization, upper-middle-income African states seem in relation of the other groups of Africans comparatively seems to have the highest level of economic growth, trade and unemployment. An implication to this is that, as African economies conduit from low-income level to upper-income level states, the degree of economic growth together with trade and unemployment progresses. Nonetheless, obesity being the main variable of interest seems to be averagely high in Upper middle-income African economies followed by Low-income panel of African nations and then Lower middle African states though the difference existing between the figures reported are very marginal. This outcome descriptively supports the study of Templin et al. (60) who stated that, in most low and upper-middle-income countries, the prevalence of obesity is higher among wealthier individuals than among the poorer.

TABLE 3
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Table 3. Summary of descriptive statistics.

In addition, for the data pertaining to the study variables to be normally distributed, the Jarque-Bera (JB) test together with the skewness and kurtosis examinations are executed. Notably, data concerning a specific variable is said to be normally distributed if the skewness together with the kurtosis are, respectively, 0 and 3 approximately Westfall (61) whereas the JB test is expected to be substantially significant. Summarily, it is evident from Table 2, that none of the variables employed seems to follow the normal distribution since their respective Kurtosis and Skewness values do not meet the thresholds 0 and 3 correspondingly. This is as well supported by the JB test which leads to the rejection of the null conjuncture that data pertaining to the employed variables follows the normal distribution. Since the data for the corresponding variables utilized in the study do not follow the normal curve, the study employs non-parametric approaches to analyze the employed data.

Moreover, the employment of multiple explanatory variables in our proposed model as specified in Eq. (2) can give rise to issues pertaining to high interdependencies (multicollinearity). Thus, in order to verify as to whether there exist any issues of multi-collinearity among the explanatory variables a correlation matrix together with variance inflation factor (VIF) and tolerance tests are executed. Considering the outcomes from the correlation matrix, there exists a weak correlation among each pair of explanatory variables across all the employed panels. This thus gives the indication that the corresponding variables are not highly dependent on each hence there exists no issue of multicollinearity. Further, the respective values of the VIF and Tolerance with respect to the explanatory variables are correspondingly less than the threshold of 5 and as well greater than 0.2. This outcome as a result supports the verdict from the correlation matrix that there exist no multicollinearity issues. The outcomes concerning the correlation matrix together with the VIF and tolerance tests are highlighted in Table 4.

TABLE 4
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Table 4. Multicollinearity examination.

2.6. Cross-sectional spatial pattern of obesity in Africa (1990–2020)

With the aim examining the liaison between obesity and economic growth considering the case of African economies, the distributional pattern of obesity is analyzed from a spatial perspective considering a data span from 1990 to 2020. Figure 1 thus illustrates the spatial pattern of obesity across the African countries employed in the study. It is evident that among the panel of 38 African economies employed, Mauritania together with Burkina Faso, Mali, Niger and Chad averagely recorded the highest level of obesity within the range 32.021–34.198. This was followed by Senegal, The Gambia, Guinea Bissau, Sierra Leone, Botswana and Angola who as well recorded average level of obesity from 30.356–31.908. Further, countries which includes, Guinea, Togo, Namibia, South Africa, Eswatini, Cote D’Ivoire, Benin, Equatorial Guinea, Gabon, D.R.Congo, Zimbabwe, Lesotho, Algeria, Congo, Mozambique, Ethiopia, Nigeria, Zambia, Malawi, Eritrea, Madagascar, and Burundi averagely fell within the obesity prevalence range of 26.678–30.239. Finally, Ghana together with Uganda, Kenya, Tanzania and Rwanda comparatively recorded the least level of obesity prevalence with a recorded range of 25.151–26.394. Summarily, it evident that from the spatial pattern that, obesity prevalence differs or vary across the African economies employed in the study. These variations may be attributed to dietary patterns, lifestyle choices, access to healthcare and socioeconomic conditions. As well the countries involved are characterized by different income levels, they experience economic growth and urbanization. As a result, there may be an increase in obesity rates due to changes in dietary habits, reduced physical activity and increased availability pf processed foods. Nonetheless, this trend may not be uniform across all countries since cultural and regional variables together with developmental stages also play vital roles.

FIGURE 1
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Figure 1. Spatial distributional pattern of obesity across African economies from 1990 to 2020.

3. Results

3.1. Cross-sectional reliance and homogeneity tests

Prior to estimating the proposed model, the study first examined whether there exist any issues concerning residual cross-sectional reliance together with heterogeneity. The results pertaining to both the cross-sectional dependency and heterogeneity tests are outlined in Table 5. Phillips and Sul (56) have reported that cross-sectional reliance among cross-sections in a panel data setting becomes substantial, the efficiency of the estimated outcomes can be greatly reduced. Thus, taking into account the residual cross-sectional dependency test, the CDP test together with CDLM and CDLM-ADJ tests have been employed. Outcomes from the mentioned CD tests depict that, the null conjuncture of cross-sectional independence is rejected among all the variables across the country panels. This, therefore, gives an indication the data containing the variables do not suffer from any issues of residual cross-sectional connectedness. Further, the Pesaran and Yamagata test of homogeneity is employed to examine whether there exist any issues concerning slope homogeneity or not. Relying on the outcomes from the delta Δ ~ and adjusted delta tilde Δ ~ -adj of the homogeneity test, the null hypothesis of slope homogeneity is rejected for all the series of variables among the country panels of African countries employed in the study. This, therefore, gives the indication that there exist issues pertaining to slope heterogeneity among the variables employed across all the country panels in terms of income levels; this leads to the employment of second-generation panel econometric approaches which are robust to the evidenced issues concerning residual cross-sectional reliance and slope heterogeneity.

TABLE 5
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Table 5. Residual cross-sectional reliance and slope homogeneity tests.

3.2. Panel unit root tests

With the presence of issues concerning cross-sectional residuals and slope heterogeneity, the study in this section investigated the integration properties of the series of variables using the CIPS and CADF panel unit root tests. Outcomes concerning the mentioned unit root tests are therefore outlined in Table 6. Results from the aforesaid table depict that, all the variables among the various income level country groupings are characterized by homogeneous order of integration. This indicates that all variables employed in this extant study are non-stationary at levels but becomes stationary when differenced. We thus accomplish that, in the presence of cross-sectional residual correlations and slope heterogeneity issues, all series of variables have the same order integration [I(1)]. The outlined outcome pertaining to the employed panel unit root examinations leads to the test of cointegration among variables which will be unveiled in the succeeding section.

TABLE 6
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Table 6. Results from CADF and CIPS panel unit root tests.

3.3. Panel cointegration outcomes

Bearing in mind variables being integrated of the same order, we further examined whether there exists any long-run relationship (cointegration) among the response and explanatory variables specified in the study’s proposed panel model. Thus, the Westerlund-Edgerton panel cointegration approaches are utilized. Table 7 thus outlines the outcomes pertaining the mentioned methods of panel cointegration. Outcome from the mentioned test of cointegration exhibits that the null hypothesis of non-cointegration among the series of variables is rejected across all the country groupings in terms of income levels. The rejection of the null conjuncture of non-cointegration is due to the fact that all the group and panel statistics with regards to the Westerlund-Edgerton cointegration technique are statistically significant. This thus gives the indication that there exists a long-run relation (cointegration) among the employed variables which thus needs to be estimated.

TABLE 7
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Table 7. Results from Westerlund-Edgerton bootstrap panel cointegration test.

3.4. Panel long-run estimation analysis

In the case where the series of variables are integrated at the same order and as well cointegrated, a vital corollary is to further estimate the evidenced long-run liaison amid the study variables. Thus, considering the existence of issues concerning residual cross-sectional residuals together with slope heterogeneity (as witnessed in Table 5), the Augmented Mean Group (AMG) estimation technique is employed. The outcomes from the AMG approach for all the study panels is as a result outlined in Table 8. By comparing the outcomes from the various panels including the aggregated panel (L-I, L-MI, and UP-MI), the effect of economic growth on obesity is significantly positive across all the panels though the weight of the impact is very substantial in Lower middle-income African economies followed by Upper-middle income countries in Africa. In the case of unemployment, a palpable positive impact is evidenced on obesity in the L-I income panel whereas on the side of L-MI together with UP-MI and the aggregated panel a significant negative relation is observed with obesity. Furthermore, in L-I panel and the aggregated panel of African nations, a positive significant effect on obesity from urbanization is established; nonetheless, the former variable (urbanization) is evidenced to have a negative influence on the latter (obesity) in both the L-MI and UP-MI economies in Africa.

TABLE 8
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Table 8. AMG long -run estimation.

Finally, considering the case of trade openness, with the exception of the L-I economies, all the other country groups (L-MI, UP-MI and aggregated panel of African nations) are characterized by noteworthy negative effects from openness in trade to obesity. Interestingly, the long-run liaison coefficients confirm that the OKC is valid among all the country panels employed in Africa. The implication concerning the validity of the OKC conjuncture among all the panels is that economic growth in African countries regardless of income levels surges the personal income of individuals causing them to be able to afford more food (thus increasing their calories which leads to weight). Nonetheless, after reaching a turning point of income, citizens in the various countries in Africa will have the desire to be healthier, decreasing their caloric intake (and thus reducing their weight as they increase their health levels). Considering the existence of the OKC conjuncture among the panels of African economies, the threshold points for the various panels were as well computed using the parameters estimates of economic growth and its square. Evidently, the threshold point for the aggregated panel of African nations was obtained at 25.241 whereas in the case of the sub-panels in terms of income levels, the threshold points of 1.235, 51.479, and 1.534 were linked to low income, lower-middle income and Upper middle income African nations correspondingly. Aside from estimating the long-run effect of economic growth, urbanization, unemployment and trade openness on obesity, the AMG estimation outcome as outlined in Table 8 comes with post-estimation results based on the Root Mean Square (RMSE) and the Wald Chi-square tests. Results pertaining to the mentioned post-estimation methods exhibit a good sign of fitness for the proposed obesity model among all the panels employed in the study. The summary of the long-run estimation concerning the effect of economic growth, urbanization, unemployment and trade openness together with the confirmation of the OKC conjuncture among the study panels are as well illustrated in Figure 2.

FIGURE 2
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Figure 2. Path diagram illustrating the existence of OKC and effects of GDP, unemployment, trade openness and urbanization on Obesity based on income level distribution in Africa. NB: the green arrow indicates a specific variable leads to the decline in obesity whilst a red arrow as well shows a specific variable enhances or surges the prevalence of obesity.

4. Discussion

Some findings from prior research were verified in this study, although not all. The long-run estimation outcomes per income level show that there is a clear pattern of obesity Kuznets curve which is valid for the aggregated panel, upper-middle-income countries, lower middle-income countries and low-income countries. This study result implies that an increase in income causes people to consume or receive more nutrients than they require which is as a result of economic growth in the country. As individuals consume more and more food because they are able to afford it, their caloric intake increases which result in an increase in their weight. However, if they reach a certain level of income, people will want to eat healthier and reduce their caloric intake (and thus decrease their weight as they increase their health levels). The study results present clear evidence supporting obesity Kuznets curve relationship between economic growth and obesity simply means that as countries’ income increases, the obesity prevalence, and overweight rates increase; thus, health risk increases as there is an increase in incomes. This is consistent with studies conducted by (28, 29, 62, 63) which showed there was an existence of OKC in countries with increased GDP. Obesity rises in tandem with rising affluence, according to our findings. When people initially get out of poverty, their better incomes allow them to increase their calorie consumption by eating more food or eating more densely. It’s also likely that as their wages increases, they’ll exercise less, drive instead of walking, or work in a sedentary job instead of being active all day. However, as earnings increase above a certain threshold, people’s ability to purchase and consume healthier foods, as well as their ability to increase physical activity, improves, lowering obesity rates. Mathieu-Bolh and Wendner (64) argued that weight consciousness reinforces the obesity Kuznets curve, thus, as a country develops, the income effect enhances average food spending and calorie intake. The dynamic status effect, on the other hand, makes low-calorie food more appealing than high-calorie food, which tends to reduce calorie consumption. Individuals will switch low-calorie items for high-calorie foods if the dynamic status effect outweighs the income effect, resulting in lower calorie consumption and lower average obesity rates. In contrast with this study is a study by Talukdar et al. (65) who discovered a positive association between population obesity prevalence and national income, but no indication that the relationship, while diminishing, truly turns negative at higher income levels (obesity Kuznets curve). Further, the OKC conjuncture suggest as countries income increases, the prevalence of obesity initially rises but eventually starts to decline. Relying on this concept, the various threshold points with respect to the panel of African countries employed were analyzed. The threshold points for the sub-panels which includes the low income, lower-middle income and upper-middle income African economies were 1.235, 51.479, and 1.534 correspondingly whereas for the aggregated panel of African countries a threshold point of 25.241 was evidenced. The outlined threshold points imply that at income levels of 1.235, 51.479, and 1.534 (all measured in GDP per capita), the prevalence of obesity in low income, lower-middle income and upper-middle income African nations begins to decline, whereas an income level of 25.241 (measured in GDP per capita) is expected for the relationship between income and obesity to transition from positive to negative in the aggregated panel of African economies. Comparatively, among the sub-panels, Lower-middle income African nations had the highest threshold point whereas African countries with low and upper-middle income levels were characterized by the least threshold points. This analysis demonstrates that, countries within the Lower-middle income African panel will require more years to reach their threshold point compared to the African countries within the Low and Upper-middle sub-panels.

Unemployment from the long-run estimation is witnessed to be positively correlated with obesity in low-income countries but negative in other panels. This result demonstrates that in the case of low-income countries perhaps unemployed people consume more caloric or energy-dense food and stay indoors without working out or engaging in any form of physical activity that requires the use of more energy. This, therefore, increase health risk which is a result of overweight or obesity. Individuals trade off the inconvenience of being overweight or obese for the pleasure of eating and leading a sedentary lifestyle. Furthermore, unemployment has been associated with depression in some studies as reported by Latif (66) and it has been evidenced that it has the tendency of promoting weight gain. Also, unemployed persons are more likely to lose money. As a result, their consumption of a high-cost, high-nutrient diet may decrease, resulting in weight gain which is in line with studies conducted by Latif (66). On the other hand, in the case of the aggregated panel, upper middle income and lower - middle income it was observed that unemployment had a negative relationship with obesity. This can be attributed to the fact that unemployed persons have more time to engage in healthful activities such as physical activity. This physical activity could help them lose weight by increasing their expenditure on calories. During unemployment, an individual’s financial resources (for example, from resource pooling within a spouse or family) may alleviate budgetary constraints on food quality.

The study results further revealed that urbanization was positively associated with obesity in the aggregate panel and low-income countries whiles negatively correlated in upper-middle-income and low-middle-income countries. The positive relationship can be attributed to the fact that rapid urbanization in most countries (low income) may have contributed to the swift change in lifestyle and way of life of the people. For instance, people prefer fast foods which are readily available and prefer sedentary jobs which they believe are less demanding and reputable. In addition, as most countries develop western tastes are much preferred (containing high amount of sugar and calories) compared to the locally made dishes which are very nutritious and healthy. Traditional diet are now been replaced with processed foods (67) because of their convenient nature. This is consistent with a recent study which was conducted in Zambia which linked living in urbanized areas having the potential of increasing obesity and weight (68). Also, urbanization has led to a better road network and availability of contemporary modes of transportation which has made people depend more on cars and commute less. People prefer boarding public transport to exercising by walking short distances, making it difficult for them to burn off the calories consumed, causing obesity. In several African countries despite the widespread poverty, access by the urban poor to cheap meals with high-fat content and sucrose content is easier (67, 69). In line with the study findings are the work of Pirgon and Aslan (44) where authors found out modern structural plans in urban areas families in urban locations do not send their children outside since there are no adequate walking and play places, so parents instead prefer to keep them home playing on a computer or watching television. After a certain age, the youngster develops by getting accustomed to a sedentary lifestyle and finds it difficult to socialize because of it. When it comes to urban planning, a lack of suitable locations for walking and cycling has been linked to obesity. However, negative relationship between urbanization and obesity in upper middle income and low middle-income countries was found in this study. Thus, urbanization is witnessed to contribute to the reduction in obesity in upper middle income and low middle-income countries. This can be as a result of urbanization making people more conscious and concerned of their health compared to those staying in less developed areas. Consistent with this study, Wang et al. (70) reported that the disparity could be owing to their greater access to health-related information. Thus, those staying in urbanized prefer selecting foods which have low calories compared to their counterparts (those living in less urbanized areas) with less health-related knowledge going for foods high in calories. Urbanization has led to creation of sport centers like gyms which are closer citizens and they walk short distances to keep fit or healthy at such places. For instance, in China groups of women meet in the community parks to dance in the form of exercise in urbanized areas.

Finally, the results revealed a strong positive relationship between trade and obesity among low-income countries where as a negative relationship in the aggregated panel, upper middle income and low middle income was found. This negative relationship implies that maybe most African countries are making prices of locally produced food products affordable and cheaper compared to imported food products. Also, domestic food products are likely to be less calorific and nutritional than imported foods, which reduces over nutrition. Further, to improve the quality of fats/oils and reduce sugars in the national food supply and combat the health risk associated with imported foods it is possible governments have utilized tariffs, import limits, or the withdrawal of subsidies for sugar and oil producers. This confirms the study conducted by Mary and Stoler (71) which found that a 1% increase in agricultural trade openness would lead to a decline in the prevalence of obesity by 0.5%. In the case of low-income countries, there is a positive relationship between obesity and trade. This suggests that low-income countries are allowing the influx of imported goods into their countries. For instance, most low-income countries signed a trade agreement termed the African Continental Free Trade Area (AfCFTA) and its promise to diversify economies, reduce reliance on exported goods, and boost regional trade. However, most countries still rely heavily on imported goods from Western countries and do not consider the health impact it has on their citizens. Fox et al. (2) reported that previous trade agreements signed between low-income countries and Western countries have increased people’s interest in the Western diet, which has shaped individuals’ tastes and preferences and increased the demand for obesogenic food products. In addition, increased access to developing countries’ markets for transnational food businesses to offer highly processed food, fast food, and other unhealthy commodities is generally associated with trade openness (72). To further support our study findings (19, 73) also reported in their studies a positive relationship between obesity and trade, and its influence on concentration in developing countries of which low-income countries are not an exception.

This study investigated the non-linear relationship between obesity and economic growth based on the Obesity Kuznet Curve framework. Although this current research has tempted to utilize as many observations as possible and applied robust econometric approaches in achieving the study’s objective, some limitations are worth mentioning. Most importantly, this current study focused on a panel framework and did not consider individual countries within the panel. Nonetheless, suppose respective countries are taken into consideration. In that case, such research will be more interesting since more diverse findings can be achieved and aid policymakers and other relevant parties in designing and implementing effective county-specific policies related to economic indicators-environment linkage. Also, in the case of examining the spatial pattern across African countries, the study only descriptively focused on the prevalence of Obesity among the employed African nations without taking to account the dynamics of the mentioned variable over time. Thus, this extent study recommends that, in future research, the dynamics of obesity over a well-defined period should be further reinvestigated using spatial–temporal analysis. Finally, relying on methods employed, this extant study considered one econometric model (Augmented Mean Group estimator) to estimate the non-linear relationship between economic growth and obesity. Nonetheless, the research could have benefited from a brief discussion of alternative econometric models that could be used to analyze the relationship between economic growth and obesity, such as instrumental variable regression or difference-in-differences estimation. This would provide readers with a better sense of the strengths and weaknesses of the chosen approach.

5. Conclusion and policy suggestions

Obesity has emerged as the world’s most pressing public health issue, with an increased risk of type 2 diabetes, stroke, myocardial infarction, and a variety of malignancies. This study employed a longitudinal panel data set from 1990 to 2020 from 38 Sub-Saharan African countries. The study found that unemployment, trade openness and urbanization was strongly associated with obesity in low-income countries. Furthermore, the study revealed that as the economy of a country develops, the relationship between income and obesity shifts over time. Thus, average obesity rates tend to rise and then fall after reaching a specific development threshold which is defined as the obesity Kuznets curve which is evident in the 38 Sub-Saharan African countries.

The empirical findings from this study are an indication that policymakers should closely monitor the high prevalence of obesity to minimize the negative effects on the population’s health. Based on the study findings the following recommendations are made;

1. First and foremost, government can introduce taxes on junk food, sugar-sweetened beverages or energy-dense foods with low nutritional value. These policies have been proven to be effective in some countries like Canada, the USA, Denmark, Finland, Hungry, Norway and Mexico (74), however, even though they did not completely eradicate the increase in obesity they aided in improving healthy eating habits. For instance, according to a study conducted by (74) a junk-food tax influences customers’ intertemporal choices through budget constraints and calorie awareness. This, as a result, competitive income, intertemporal substitution, and calorie-consciousness effects play a role in the tax’s influence on the body weight of the consumer. It is still clear that most developing countries of which Africa is not an exception still rely on foreign imported foods. Various African governments can introduce taxes to discourage the import of obesogenic foods and also promote domestic consumption of foods that are less caloric and healthy for citizens. A continuous effort from all African governments would make citizens have less taste for imported foods which are mostly junk foods and it can be possible if domestic healthy foods are made available and affordable to all.

2. Furthermore, in order to prevent and control obesity, African governmental policies should be tailored to the stage of the economic cycle, with a particular focus on the long-term unemployed. African nations should adopt measures to encourage healthy lifestyles which should focus on sedentary, long-term unemployed people with lower education levels. As a result, rather than a long-term health strategy, a shorter-term policy tailored to the specific phase of the economic cycle might be more successful. Further health programs and initiatives can be introduced to focus on health literacy understanding in schools, communities and media channels and also include new social media platforms (Facebook, WhatsApp, etc.) which are mostly used by citizens as a key setting for promoting healthy food and physical activity. Health programs should be inclusive for all thus poor obese people or unemployed individuals should be given priority in such health programs. Individuals alternatively, can also limit energy-dense, cook more at home instead of ordering takeout or delivery, take frequent breaks for short bouts of physical activity, schedule structured exercise sessions that can be done at home, establish daily routines, and find different outlets for stress such as meditation, yoga and exercises which have been proven to help in reducing obesity as cited by Zachary et al. (75). Creating public awareness of the importance of self-weighing regularly or daily (DSW). DSW has been demonstrated to be useful for weight loss (76), weight maintenance, and preventing age-related weight gain. Assuming people have access to a bathroom scale, it’s a reasonably cheap and simple instrument that can be used to try to avoid or limit shelter-in-place weight gain.

3. Policymakers and stakeholders in African countries may need to pay attention to the negative health externalities such as obesity, caused by urbanization, and figure out how to effectively address the problem. African policymakers should ensure there is equal distribution of development in both rural and urban areas. Also, healthy infrastructure for active transportation, environmental protection, and access to healthy and less expensive food supplies are all essential for long-term economic growth. Promoting national campaigns to ensure that development plans create safe pedestrian walkways and facilities for physical activities to enable citizens to feel safe going for walks and perhaps cycling.

4. Lastly, the study recommends policymakers to devise policies or initiatives to ensure that country’s economy grows at a steady pace. In this regard, the government should place a priority on implementing suitable health policies, including obesity prevention initiatives, to address the obesity problem. Also, a lancet report (77) has suggested that countries should have a paradigm shift from dominant development that is geared towards economic growth to a paradigm of sustainable development. The practical difficulty of sustainable development is figuring out how to achieve economic growth without compromising our natural environment or our health and well-being. For countries to be able to have sustainable development, it will necessitate policymakers to employ a coordinated policy-driven effort on a number of aspects of the current socioeconomic system (78).

Data availability statement

The datasets presented in this study can be found in online repositories. The names of the repository/repositories and accession number(s) can be found at: https://data.worldbank.org/ and https://www.who.int/data.

Author contributions

SA and IM: conceptualization, data curation, formal analysis, and roles/writing – original draft. HC: funding acquisition and supervision. HC, AY, and BD: investigation. SA, IM, and AY: methodology. IM: software. HC, AY, AT, and FA: validation and visualization. AY, BD, AT, and FA: writing – review and editing. All authors contributed to the article and approved the submitted version.

Funding

This research was funded by National Social Science Foundation of China (NSSFC: 18BGL255).

Conflict of interest

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Publisher’s note

All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article, or claim that may be made by its manufacturer, is not guaranteed or endorsed by the publisher.

References

1. Ng, M, Fleming, T, Robinson, M, Thomson, B, Graetz, N, Margono, C, et al. Global, regional, and national prevalence of overweight and obesity in children and adults during 1980–2013: a systematic analysis for the global burden of disease study 2013. Lancet. (2014) 384:766–81. doi: 10.1016/S0140-6736(14)60460-8

PubMed Abstract | CrossRef Full Text | Google Scholar

2. Fox, A, Feng, W, and Asal, V. What is driving global obesity trends? Globalization or “modernization”? Glob Health. (2019) 15:1–16. doi: 10.1186/s12992-019-0457-y

CrossRef Full Text | Google Scholar

3. Organization WH (2015). Obesity and overweight. Fact sheet no 311. 2015. WHO media Centre. Available at:: http://www.whoint/mediacentre/factsheets/fs311/en/ (Accessed December 24, 2015).

Google Scholar

4. World Health Organization (2021). “Obesity and overweight” (fact sheet) Available at: https://www.who.int/news-room/fact-sheets/detail/obesity-and-overweight (Accessed June, 2021).

Google Scholar

5. Steyn, NP, and Mchiza, ZJ. Obesity and the nutrition transition in sub-Saharan Africa. Ann N Y Acad Sci. (2014) 1311:88–101. doi: 10.1111/nyas.12433

CrossRef Full Text | Google Scholar

6. Ajayi, IO, Adebamowo, C, Adami, H-O, Dalal, S, Diamond, MB, Bajunirwe, F, et al. Urban–rural and geographic differences in overweight and obesity in four sub-Saharan African adult populations: a multi-country cross-sectional study. BMC Public Health. (2016) 16:1126–13. doi: 10.1186/s12889-016-3789-z

PubMed Abstract | CrossRef Full Text | Google Scholar

7. Asfaw, A. The effects of obesity on doctor-diagnosed chronic diseases in Africa: empirical results from Senegal and South Africa. J Public Health Policy. (2006) 27:250–64. doi: 10.1057/palgrave.jphp.3200089

PubMed Abstract | CrossRef Full Text | Google Scholar

8. Kengne, A, and Awah, P. Classical cardiovascular risk factors and all-cause mortality in rural Cameroon. QJM Int J Med. (2009) 102:209–15. doi: 10.1093/qjmed/hcn175

PubMed Abstract | CrossRef Full Text | Google Scholar

9. Marshall, SJ. Developing countries face double burden of disease. Bull World Health Organ. (2004) 82:556.

PubMed Abstract | Google Scholar

10. Bygbjerg, IC. Double burden of noncommunicable and infectious diseases in developing countries. Science. (2012) 337:1499–501. doi: 10.1126/science.1223466

CrossRef Full Text | Google Scholar

11. Boutayeb, A, and Boutayeb, S. The burden of non communicable diseases in developing countries. Int J Equity Health. (2005) 4:1–8. doi: 10.1186/1475-9276-4-2

CrossRef Full Text | Google Scholar

12. Adeboye, B, Bermano, G, and Rolland, C. Obesity and its health impact in Africa: a systematic review. Cardiovasc J Afr. (2012) 23:512–21. doi: 10.5830/CVJA-2012-040

PubMed Abstract | CrossRef Full Text | Google Scholar

13. Mensah, G. Ischaemic heart disease in Africa. Heart. (2008) 94:836–43. doi: 10.1136/hrt.2007.136523

CrossRef Full Text | Google Scholar

14. Federation, ID. (2019). IDF diabetes atlas ninth. 2019.

Google Scholar

15. Blouin, C, Chopra, M, and Van der Hoeven, R. Trade and social determinants of health. Lancet. (2009) 373:502–7. doi: 10.1016/S0140-6736(08)61777-8

CrossRef Full Text | Google Scholar

16. Legge, D, Sanders, D, and McCoy, D. Trade and health: the need for a political economic analysis. Lancet. (2009) 373:527–9. doi: 10.1016/S0140-6736(08)61761-4

CrossRef Full Text | Google Scholar

17. Ng, SW, and Popkin, BM. Time use and physical activity: a shift away from movement across the globe. Obes Rev. (2012) 13:659–80. doi: 10.1111/j.1467-789X.2011.00982.x

CrossRef Full Text | Google Scholar

18. Lin, TK, Teymourian, Y, and Tursini, MS. The effect of sugar and processed food imports on the prevalence of overweight and obesity in 172 countries. Glob Health. (2018) 14:1–14. doi: 10.1186/s12992-018-0344-y

CrossRef Full Text | Google Scholar

19. An, R, Guan, C, Liu, J, Chen, N, and Clarke, C. Trade openness and the obesity epidemic: a cross-national study of 175 countries during 1975–2016. Ann Epidemiol. (2019) 37:31–6. doi: 10.1016/j.annepidem.2019.07.002

PubMed Abstract | CrossRef Full Text | Google Scholar

20. Muenster, E, Rueger, H, Ochsmann, E, Letzel, S, and Toschke, AM. Association between overweight, obesity and self-perceived job insecurity in German employees. BMC Public Health. (2011) 11:1–7. doi: 10.1186/1471-2458-11-162

PubMed Abstract | CrossRef Full Text | Google Scholar

21. Hofmeister, M. Health in the long-term unemployed. Higher risk of obesity. Deutsches Arzteblatt Int. (2013) 110:676. doi: 10.3238/arztebl.2013.0678a

PubMed Abstract | CrossRef Full Text | Google Scholar

22. Schnuerer, I, Baumann, S, Haberecht, K, Gaertner, B, John, U, and Freyer-Adam, J. Patterns of health risk behaviors among job-seekers: a latent class analysis. Int J Public Health. (2015) 60:111–9. doi: 10.1007/s00038-014-0623-1

PubMed Abstract | CrossRef Full Text | Google Scholar

23. Antelo, M, Magdalena, P, Reboredo, JC, and Reyes-Santias, F. How are unemployed individuals with obesity affected by an economic crisis? Sustainability. (2020) 12:2262. doi: 10.3390/su12062262

CrossRef Full Text | Google Scholar

24. Ziraba, AK, Fotso, JC, and Ochako, R. Overweight and obesity in urban Africa: a problem of the rich or the poor? BMC Public Health. (2009) 9:1–9. doi: 10.1186/1471-2458-9-465

CrossRef Full Text | Google Scholar

25. Sodjinou, R, Agueh, V, Fayomi, B, and Delisle, H. Obesity and cardio-metabolic risk factors in urban adults of Benin: relationship with socio-economic status, urbanisation, and lifestyle patterns. BMC Public Health. (2008) 8:1–13. doi: 10.1186/1471-2458-8-84

CrossRef Full Text | Google Scholar

26. WHO, Canada PHAo (2005). Preventing chronic diseases: A vital investment: World Health Organization.

Google Scholar

27. Biadgilign, S, Mgutshini, T, Haile, D, Gebremichael, B, Moges, Y, and Tilahun, K. Epidemiology of obesity and overweight in sub-Saharan Africa: a protocol for a systematic review and meta-analysis. BMJ Open. (2017) 7:e017666. doi: 10.1136/bmjopen-2017-017666

PubMed Abstract | CrossRef Full Text | Google Scholar

28. Grecu, AM, and Rotthoff, KW. Economic growth and obesity: findings of an obesity Kuznets curve. Appl Econ Lett. (2015) 22:539–43. doi: 10.1080/13504851.2014.955251

CrossRef Full Text | Google Scholar

29. Aydin, M. The effect of economic growth on obesity for the most obese countries: new evidence from the obesity Kuznets curve. Eur J Health Econ. (2019) 20:1349–58. doi: 10.1007/s10198-019-01099-2

PubMed Abstract | CrossRef Full Text | Google Scholar

30. Alaba, O, and Chola, L. Socioeconomic inequalities in adult obesity prevalence in South Africa: a decomposition analysis. Int J Environ Res Public Health. (2014) 11:3387–406. doi: 10.3390/ijerph110303387

PubMed Abstract | CrossRef Full Text | Google Scholar

31. Lartey, ST, Magnussen, CG, Si, L, Boateng, GO, de Graaff, B, Biritwum, RB, et al. Rapidly increasing prevalence of overweight and obesity in older Ghanaian adults from 2007-2015: Evidence from WHO-SAGE waves 1 & 2. PLoS One. (2019) 14:e0215045. doi: 10.1371/journal.pone.0215045

PubMed Abstract | CrossRef Full Text | Google Scholar

32. Peer, N, Lombard, C, Steyn, K, Gwebushe, N, and Levitt, N. Differing patterns of overweight and obesity among black men and women in Cape Town: the CRIBSA study. PLoS One. (2014) 9:e107471. doi: 10.1371/journal.pone.0107471

PubMed Abstract | CrossRef Full Text | Google Scholar

33. Agyemang, C, Boatemaa, S, Frempong, GA, and Aikins, A. Obesity in sub-saharan Africa In: Metabolic syndrome Switzerland. United Kingdom: Springer International Publishing (2016). 1–13.

Google Scholar

34. Cresswell, JA, Campbell, OM, De Silva, MJ, and Filippi, V. Effect of maternal obesity on neonatal death in sub-Saharan Africa: multivariable analysis of 27 national datasets. Lancet. (2012) 380:1325–30. doi: 10.1016/S0140-6736(12)60869-1

PubMed Abstract | CrossRef Full Text | Google Scholar

35. Kuznets, S. Economic growth and income inequality. American Economic Review (1995) 45:1–28.

PubMed Abstract | Google Scholar

37. The World Bank (2021). Gross domestic product, constant 2010 US dollars. Retrieved from https://databank.worldbank.org/source/world-development-indicators

Google Scholar

38. The World Bank (2021). World Bank and Lending Group Classification (WLGC, 2021). Retrieved from https://datahelpdesk.worldbank.org/knowledgebase/articles/906519-world-bank-count

Google Scholar

39. Smedley, BD, and Syme, S. Promoting health: intervention strategies from social and behavioral research. Am J Health Promot. (2001) 15:149–66. doi: 10.4278/0890-1171-15.3.149

PubMed Abstract | CrossRef Full Text | Google Scholar

40. Egger, G, Swinburn, B, and Islam, FA. Economic growth and obesity: an interesting relationship with world-wide implications. Econ Hum Biol. (2012) 10:147–53. doi: 10.1016/j.ehb.2012.01.002

PubMed Abstract | CrossRef Full Text | Google Scholar

41. Egger, G. Health,“illth,” and economic growth: medicine, environment, and economics at the crossroads. Am J Prev Med. (2009) 37:78–83. doi: 10.1016/j.amepre.2009.03.004

PubMed Abstract | CrossRef Full Text | Google Scholar

42. Egger, G, and Swinburn, B. (2011). Planet obesity: how we're eating ourselves and the planet to death. Available at: readhowyouwant.com (Accessed February, 2021).

Google Scholar

43. Cassel, KD. Using the social-ecological model as a research and intervention framework to understand and mitigate obesogenic factors in Samoan populations. Ethn Health. (2010) 15:397–416. doi: 10.1080/13557858.2010.481330

PubMed Abstract | CrossRef Full Text | Google Scholar

44. Pirgon, Ö, and Aslan, N. The role of urbanization in childhood obesity. J Clin Res Pediatr Endocrinol. (2015) 7:163–7. doi: 10.4274/jcrpe.1984

PubMed Abstract | CrossRef Full Text | Google Scholar

45. Clark, SE, Hawkes, C, Murphy, SM, Hansen-Kuhn, KA, and Wallinga, D. Exporting obesity: US farm and trade policy and the transformation of the Mexican consumer food environment. Int J Occup Environ Health. (2012) 18:53–64. doi: 10.1179/1077352512Z.0000000007

PubMed Abstract | CrossRef Full Text | Google Scholar

46. Friel, S, Schram, A, and Townsend, B. The nexus between international trade, food systems, malnutrition and climate change. Nat Food. (2020) 1:51–8. doi: 10.1038/s43016-019-0014-0

CrossRef Full Text | Google Scholar

47. Labonté, R, Mohindra, KS, and Lencucha, R. Framing international trade and chronic disease. Glob Health. (2011) 7:21–15. doi: 10.1186/1744-8603-7-21

CrossRef Full Text | Google Scholar

48. Lopez, AM, Loopstra, R, McKee, M, and Stuckler, D. Is trade liberalisation a vector for the spread of sugar-sweetened beverages? A cross-national longitudinal analysis of 44 low-and middle-income countries. Soc Sci Med. (2017) 172:21–7. doi: 10.1016/j.socscimed.2016.11.001

PubMed Abstract | CrossRef Full Text | Google Scholar

49. Cvitanovic, C, Crimp, S, Fleming, A, Bell, J, Howden, M, Hobday, A, et al. Linking adaptation science to action to build food secure Pacific Island communities. Clim Risk Manag. (2016) 11:53–62. doi: 10.1016/j.crm.2016.01.003

CrossRef Full Text | Google Scholar

50. Bennett, GG, Wolin, KY, and Duncan, DT. (2008). Social determinants of obesity. Obesity epidemiology: methods and applications. 342–376.

Google Scholar

51. Cawley, J. An economy of scales: a selective review of obesity's economic causes, consequences, and solutions. J Health Econ. (2015) 43:244–68. doi: 10.1016/j.jhealeco.2015.03.001

PubMed Abstract | CrossRef Full Text | Google Scholar

52. Changyong, FENG, Hongyue, WANG, Naiji, LU, Tian, CHEN, Hua, HE, and Ying, LU. Log-transformation and its implications for data analysis. Shanghai Arch Psychiatry. (2014) 26:105. doi: 10.3969/j.issn.1002-0829.2014.02.009

CrossRef Full Text | Google Scholar

53. Pesaran, MH. (2004). General diagnostic tests for cross section dependence in panels (IZA discussion paper no. 1240). Institute for the Study of Labor (IZA).

Google Scholar

54. Pesaran, MH, and Yamagata, T. Testing slope homogeneity in large panels. J Econ. (2008) 142:50–93. doi: 10.1016/j.jeconom.2007.05.010

CrossRef Full Text | Google Scholar

55. Pesaran, MH. A simple panel unit root test in the presence of cross-section dependence. J Appl Econ. (2007) 22:265–312. doi: 10.1002/jae.951

CrossRef Full Text | Google Scholar

56. Westerlund, J, and Edgerton, DL. A panel bootstrap cointegration test. Econ Lett. (2007) 97:185–90. doi: 10.1016/j.econlet.2007.03.003

CrossRef Full Text | Google Scholar

57. Westerlund, J. Panel cointegration tests of the fisher effect. J Appl Econ. (2008) 23:193–233. doi: 10.1002/jae.967

CrossRef Full Text | Google Scholar

58. Bond, S, and Eberhardt, M. (2013). Accounting for unobserved heterogeneity in panel time series models. United Kingdom: University of Oxford. 1–11.

Google Scholar

59. Mensah, IA, Sun, M, Omari-Sasu, AY, Gao, C, Obobisa, ES, and Osinubi, TT. Potential economic indicators and environmental quality in African economies: new insight from cross-sectional autoregressive distributed lag approach. Environ Sci Pollut Res. (2021) 28:56865–91. doi: 10.1007/s11356-021-14598-8

PubMed Abstract | CrossRef Full Text | Google Scholar

60. Templin, T, Cravo Oliveira Hashiguchi, T, Thomson, B, Dieleman, J, and Bendavid, E. The overweight and obesity transition from the wealthy to the poor in low-and middle-income countries: a survey of household data from 103 countries. PLoS Med. (2019) 16:e1002968. doi: 10.1371/journal.pmed.1002968

PubMed Abstract | CrossRef Full Text | Google Scholar

61. Westfall, PH. Kurtosis as peakedness, 1905–2014. RIP. Am Stat. (2014) 68:191–5. doi: 10.1080/00031305.2014.917055

PubMed Abstract | CrossRef Full Text | Google Scholar

62. Windarti, N, Hlaing, S, and Kakinaka, M. Obesity Kuznets curve: international evidence. Public Health. (2019) 169:26–35. doi: 10.1016/j.puhe.2019.01.004

PubMed Abstract | CrossRef Full Text | Google Scholar

63. Go, Y-H, Lau, L-S, Ng, C-F, and Yiew, T-H. Obesity Kuznets curve hypothesis and global warming: a robust estimation under cross-section dependence. Environ Sci Pollut Res. (2021) 28:63968–76. doi: 10.1007/s11356-021-13264-3

CrossRef Full Text | Google Scholar

64. Mathieu-Bolh, N, and Wendner, R. We are what we eat: obesity, income, and social comparisons. Eur Econ Rev. (2020) 128:103495. doi: 10.1016/j.euroecorev.2020.103495

CrossRef Full Text | Google Scholar

65. Talukdar, D, Seenivasan, S, Cameron, AJ, and Sacks, G. The association between national income and adult obesity prevalence: empirical insights into temporal patterns and moderators of the association using 40 years of data across 147 countries. PLoS One. (2020) 15:e0232236. doi: 10.1371/journal.pone.0232236

PubMed Abstract | CrossRef Full Text | Google Scholar

66. Latif, E. The impact of macroeconomic conditions on obesity in Canada. Health Econ. (2014) 23:751–9. doi: 10.1002/hec.2946

PubMed Abstract | CrossRef Full Text | Google Scholar

67. Toselli, S, Gualdi-Russo, E, Boulos, DN, Anwar, WA, Lakhoua, C, Jaouadi, I, et al. Prevalence of overweight and obesity in adults from North Africa. Euro J Public Health. (2014) 24:31–9. doi: 10.1093/eurpub/cku103

CrossRef Full Text | Google Scholar

68. Moise, IK, Kangmennaang, J, Halwiindi, H, Grigsby-Toussaint, DS, and Fuller, DO. Increase in obesity among women of reproductive age in Zambia, 2002–2014. J Women's Health. (2019) 28:1679–87. doi: 10.1089/jwh.2018.7577

PubMed Abstract | CrossRef Full Text | Google Scholar

69. Fahed, AC, El-Hage-Sleiman, A-KM, Farhat, TI, and Nemer, GM. Diet, genetics, and disease: a focus on the Middle East and North Africa region. J Nut Metabol. (2012) 2012:1–19. doi: 10.1155/2012/109037

PubMed Abstract | CrossRef Full Text | Google Scholar

70. Wang, X, Yin, C, and Shao, C. Heterogeneous relationships between the health-related lifestyle and risk of overweight and obesity in urbanizing China. J Transp Health. (2021) 20:101023. doi: 10.1016/j.jth.2021.101023

CrossRef Full Text | Google Scholar

71. Mary, S, and Stoler, A. Does agricultural trade liberalization increase obesity in developing countries? Review of development economics. (2021). 25, 1326–1350. doi: 10.1111/rode.12757

CrossRef Full Text | Google Scholar

72. Vogli, RD, Kouvonen, A, Elovainio, M, and Marmot, M. Economic globalization, inequality and body mass index: a cross-national analysis of 127 countries. Crit Public Health. (2014) 24:7–21. doi: 10.1080/09581596.2013.768331

CrossRef Full Text | Google Scholar

73. Miljkovic, D, de Miranda, SH, Kassouf, AL, and Oliveira, FC. Determinants of obesity in Brazil: the effects of trade liberalization and socio-economic variables. Appl Econ. (2018) 50:3076–88. doi: 10.1080/00036846.2017.1414939

CrossRef Full Text | Google Scholar

74. Mathieu-Bolh, N. Hand-to-mouth consumption and calorie consciousness: consequences for junk-food taxation. Public Fin Rev. (2021) 49:167–220. doi: 10.1177/10911421211000465

CrossRef Full Text | Google Scholar

75. Zachary, Z, Brianna, F, Brianna, L, Garrett, P, Jade, W, Alyssa, D, et al. Self-quarantine and weight gain related risk factors during the COVID-19 pandemic. Obes Res Clin Pract. (2020) 14:210–6. doi: 10.1016/j.orcp.2020.05.004

PubMed Abstract | CrossRef Full Text | Google Scholar

76. Bhutani, S, and Cooper, JA. COVID-19–related home confinement in adults: weight gain risks and opportunities. Obesity. (2020) 28:1576–7. doi: 10.1002/oby.22904

PubMed Abstract | CrossRef Full Text | Google Scholar

77. Swinburn, BA, Kraak, VI, Allender, S, Atkins, VJ, Baker, PI, Bogard, JR, et al. The global syndemic of obesity, undernutrition, and climate change: the lancet commission report. Lancet. (2019) 393:791–846. doi: 10.1016/S0140-6736(18)32822-8

PubMed Abstract | CrossRef Full Text | Google Scholar

78. Bagnall, A-M, Radley, D, Jones, R, Gately, P, Nobles, J, Van Dijk, M, et al. Whole systems approaches to obesity and other complex public health challenges: a systematic review. BMC Public Health. (2019) 19:1–14. doi: 10.1186/s12889-018-6274-z

CrossRef Full Text | Google Scholar

Keywords: obesity, economic growth, Africa, obesity Kuznets curve, urbanization, trade, unemployment

Citation: Chen H, Atingabili S, Mensah IA, Yaw Omari-Sasu A, Agba Tackie E, Arboh F and Danso BA (2023) Does obesity Kuznets curve exist in developing economies? Evidence from 38 African countries based on heterogeneous panel data analysis on income-level classification. Front. Public Health. 11:1200555. doi: 10.3389/fpubh.2023.1200555

Received: 05 April 2023; Accepted: 26 September 2023;
Published: 02 November 2023.

Edited by:

Piotr Romaniuk, Medical University of Silesia, Poland

Reviewed by:

Damilola Olajide, University of Nottingham, United Kingdom
Pushpendra Singh, Somaiya Vidyavihar University, India

Copyright © 2023 Chen, Atingabili, Mensah, Yaw Omari-Sasu, Agba Tackie, Arboh and Danso. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

*Correspondence: Samuel Atingabili, c2FtbWliaWxsNzNAZ21haWwuY29t

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