RESEARCH ARTICLE

Dietary patterns among adults in three low-

income urban communities in Accra, Ghana

Sandra Boatemaa KushitorID
1,2*, Deda Ogum Alangea3, Richmond AryeeteyID

3, Ama de-

Graft Aikins4

1 Department of Community Health, Ensign Global College, Kpong, Ghana, 2 Department of Food Science

and Centre for Complex Systems in Transition, Stellenbosch University, Stellenbosch, South Africa,

3 Department of Population, Family and Reproductive Health, School of Public Health, University of Ghana,

Legon, Accra, Ghana, 4 Institute of Advanced Studies, University College London, London, United Kingdom

* sandra.kushitor@ensign.edu.gh

Abstract

Objective

Dietary patterns describe the dietary behaviour and habits of individuals. Unhealthy dietary

patterns provide individuals with limited nutrients while increasing the risk of nutrition-related

diseases. Unhealthy dietary patterns are high in urban areas, especially among low-income

urban residents. This study examined dietary patterns in three low-income urban communi-

ties in Accra, Ghana, between 2011 and 2013.

Methods

This study used Wave 2 and 3 data from the Urban Health and Poverty Survey (EDULINK

2011 and 2013). The sample size was 960 in 2011 and 782 in 2013. Dietary pattern was

examined using factor analysis and the NOVA food classification system. Summary statis-

tics were computed for sociodemographic characteristics and diet frequency and pattern.

Differences in dietary behaviours between 2011 and 2013 were also estimated. Three logis-

tic regression models were computed to determine the predictors of dietary patterns.

Results

The frequency of consumption of animal-source foods (ASF) and fruits was higher in 2013

compared with 2011. The intake of processed culinary ingredients (NOVA Group 2), pro-

cessed foods (NOVA Group 3) and ultra-processed foods (NOVA Group 4) was higher in

2013 versus 2011. In 2013, 29% consumed ultra-processed foods compared to 21% in

2011. Three dietary patterns (rice-based, snack-based, and staple and stew/soup) were

identified. About two out of every five participants consumed the food items in the rice (43%)

and staple and sauce patterns (40%). The proportion of participants who consumed the

food items in the snack pattern was 35% in 2011 but 41% in 2013. Respondents aged 25–

34 and those with higher education often consumed the snack-based and rice-based dietary

patterns. In 2013, participants in Ussher Town had a higher probability of consuming food

items in the snack pattern than those living in Agbogbloshie.

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OPEN ACCESS

Citation: Kushitor SB, Alangea DO, Aryeetey R, de-

Graft Aikins A (2023) Dietary patterns among

adults in three low-income urban communities in

Accra, Ghana. PLoS ONE 18(11): e0293726.

https://doi.org/10.1371/journal.pone.0293726

Editor: Charles Odilichukwu R. Okpala, Wroclaw

University of Environmental and Life Sciences:

Uniwersytet Przyrodniczy we Wroclawiu, POLAND

Received: January 26, 2023

Accepted: October 18, 2023

Published: November 9, 2023

Copyright: © 2023 Kushitor et al. This is an open

access article distributed under the terms of the

Creative Commons Attribution License, which

permits unrestricted use, distribution, and

reproduction in any medium, provided the original

author and source are credited.

Data Availability Statement: All relevant data are

within the paper and its Supporting Information

files.

Funding: Funding sources were jointly from

Secretariat of the African Caribbean and Pacific

Group of States (ACP) - ACP-EU Cooperation

Programme in Higher Education (EDULINK),

International Development Research Centre (IDRC)

and New York University’s Global Public Health

Research Challenge Fund. Sandra Boatemaa

Kushitor was supported in part by a travel grant

https://orcid.org/0000-0002-0638-6261
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Conclusions

This study found that between 2011 and 2013, more participants consumed ASFs, fruits,

and processed foods. A complex interplay of personal and socio-cultural factors influenced

dietary intake. The findings of this study mirror global changes in diet and food systems, with

important implications for the primary and secondary prevention of NCDs. Health promotion

programs at the community level are needed to address the increasing levels of processed

food consumption.

1. Introduction

Dietary patterns describe the quantity, diversity, and frequency of different foods and bever-

ages consumed in a population and the habits associated with these dietary characteristics [1].

Dietary patterns show all foods and beverages a person habitually consumes, which affects the

person’s health [2]. These patterns are driven by individual choices influenced by multiple

drivers, including dietary knowledge, social networks, and environmental factors such as food

supply, food processing/preparation technologies, and food affordability [3].

In order to classify dietary habits as healthy or unhealthy, dietary patterns have been mea-

sured using dietary indices and data-driven analysis [4]. Diet indices such as the Healthy Eat-

ing Index (developed by the United States Department of Agriculture), the Healthy Diet

Indicator (developed by the World Health Organisation), and the NOVA classification system

have been designed as a guide in preventing and managing NCDs. The data-driven methods

include factor analysis, cluster analysis and reduced rank regression [5, 6]. Both methods have

produced dietary patterns that can be described as healthy or unhealthy depending on the

combination of food items consumed. Healthy dietary patterns are meals that provide ade-

quate macronutrients and micronutrient needs [2]. Such patterns usually include fruits, vege-

tables, nuts, whole grains and legumes and are associated with a reduced risk of diseases.

Unhealthy dietary patterns include meal combinations high in salts, sugars, oils and refined

grains [7].

Globally, dietary patterns are changing rapidly; the observed changes mirror the so-called

nutrition transition characterised by increasing consumption of diets with limited dietary

quality [7, 8]. Consumption of sugar-sweetened beverages, salt, red meat, and processed meat

exceeds the recommended daily allowance [9]. These changes have been associated with indi-

vidual and environmental factors stipulated by the socio-ecological framework [10, 11].

Individual-level factors related to dietary behaviours include socio-demographic character-

istics (e.g., age, sex, and educational status), self-efficacy and cognition. (e.g. attitudes, knowl-

edge, taste and preferences [12]. Environmental-level factors include social, physical, and

macro-level influences. The social system of an individual, such as family, peer groups, and

friends, provides social support and norms that influence dietary behaviours. The physical

environment examines the availability and accessibility of food products within a given setting.

For example, unhealthy dietary patterns are higher in urban areas compared with rural areas.

The urban food environment is increasingly characterised by easier access to energy-dense

street foods, processed foods, and fast foods. In low-income urban areas, access to calorie-rich

processed foods is increasing due to the relatively lower prices and the convenience of such

foods [13]. The macro-level describes the influence of public policies from government sys-

tems, organisations, businesses, and industries defining access to healthy foods and societal

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from the Centre for Collaboration in Africa,

Stellenbosch University. The funders had no role in

study design, data collection and analysis, decision

to publish, or preparation of the manuscript.

Competing interests: The authors have declared

that no competing interests exist.

https://doi.org/10.1371/journal.pone.0293726


beliefs and diet perceptions. Therefore, the socio-ecological model was applied in this study to

understand the individual and environmental factors that influence an individual’s food

choice.

In Ghana, dietary pattern analysis indicates a high prevalence of unhealthy eating habits

and low dietary diversity [14–16]. Among school children, an unhealthy dietary pattern char-

acterised by consuming processed meat, fried foods and soft drinks was associated with

increased obesity [17]. Ghanaian adolescents consume one or more portions of sugar-sweet-

ened beverages daily–a higher level of consumption than the recommended dietary allowance

[18]. In 2014 and 2015, about 53% of Ghanaian adults did not eat adequate servings of fruits

and vegetables [19]. Furthermore, experts have noticed increased availability and consumption

of polished rice, maize, frozen chicken, vegetable oil, and sugar nationally [20], especially in

Accra [21].

Even though unhealthy food consumption practices are problematic in urban Ghana, large-

scale population-based diet research has focused on rural populations and mostly on children.

Also, dietary studies which generate longitudinal data on adults are almost non-existent in

Ghana [22]. Longitudinal data involves data collection for two or more time points. Longitudi-

nal study designs are essential to assessing dietary change and disentangling complex diet/dis-

ease relationships, essential for understanding population health patterns [23]. For example, in

a systematic review of research conducted between 1998 and 2017, the authors noted that the

increase in obesity in Ghana and Kenya could be explained by the low consumption of fruits

and vegetables but the widespread intake of sugar-sweetened beverages [22]. Unfortunately,

little is known about changes in dietary patterns using longitudinal data among adults in

urban areas in Ghana. Therefore, the researchers recommended longitudinal studies in Africa

on dietary behaviours among adult urban residents [22].

This study was designed to answer the question of dietary patterns and quality changes

among adults in urban poor communities. The findings will inform the implementation and

evaluation of evidence-based dietary interventions, including the recent dietary guidelines for

Ghanaians published by the Ministry of Food and Agriculture [24]. The findings are also of

practical use in health care settings, especially by providing information on patterns of diet

that persist over time and can be targeted for interventions.

This study was conducted in Ga Mashie (James Town and Ussher Town) and Agbog-

bloshie, a low-income community in Accra, Ghana. This low-income urban community has

an obesogenic food environment [25–27]. An earlier study reported discordance between

their dietary knowledge and practice [25]. Furthermore, the communities have previously

been identified as obesogenic, with limited fruit and vegetable vendors and high availability

of convenience stores, street food, and alcohol vendors. Chronic non-communicable dis-

eases (NCDs) are prevalent in the study area [27, 28]. Among the youth, the prevalence of

pre-hypertension and hypertension was 32% and 4%, respectively, in 2011 [29]. Yet, people

living with NCDs in the community cannot manage their conditions adequately and, thus,

often experience complications [28]. The incidence of NCDs has been partly attributed to

poor dietary practices and the lack of understanding of dietary behaviours linked with

NCDs [25, 30].

In order to supplement existing information and thus fill the gap, this current study was

directed to examine diet frequency and quality in Ga Mashie (James Town and Ussher Town)

and Agbogbloshie in Accra, Ghana, using a repeated cross-sectional survey. The specific objec-

tives were to 1) determined changes in selected dietary behaviours between 2011 and 2013; 2)

determined changes in diet quality between 2011 and 2013 using NOVA, and 3) examined the

factors associated with dietary pattern.

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2. Materials and methods

2.1 Source of data

The current analyses used data from the second and third wave surveys of the European

Union Cooperation Programme in Higher Education (EDULINK) Urban Health and Poverty

Project, led by the Regional Institute for Population Studies of the University of Ghana [29,

31]. This data comes from a longitudinal study of health, poverty, and climate change further

details about the EDLINK project can be found in Afrifa-Anane and colleagues [29]. Data on

diet frequency were not collected in Wave 1. The second wave was conducted in 2011 (Novem-

ber to December), and the third wave in 2013 (September to October). The datasets will be

referred to as 2011 for Wave 2 and 2013 for Wave 3.

The EDULINK project was a collaboration between the Ga Mashie Development Agency

(GAMADA) and the local chief’s council. As form of reciprocity in each locality, gifts

(household plastic wares) were given to the households that had been interviewed. This was

done after data collection was completed for the entire community. The director of

GAMADA, a youth activist and three chiefs reviewed the questionnaire, facilitated commu-

nity meetings and were involved in the design of interventions that resulted from the EDU-

LINK project. The EDULINK field team of 58 consisted of 23 RIPS affiliates (students,

research assistants and national service personnel) and 37 hired professional fieldworkers

(ten were local residents recommended by GAMADA). The fieldworkers were grouped into

four teams of fifteen members. At least eight persons in the survey team spoke the local dia-

lect Ga–necessary for speaking to residents in Ga Mashie. During training for the survey,

the team broke up into local Ghanaian language groups after the questionnaires had been

discussed in English, discussed translations of questions and informed consent into the var-

ious local languages, and agreed on standard ways of translating questions and presenting

concepts in the local languages.

In 2011, residential structures were selected proportional to size using a two-stage sampling

approach. The Ghana Statistical Service has previously demarcated the area into 80 enumera-

tion areas (E.A.s): 48 in Usher Town, 24 in James Town, and 8 in Agbogbloshie [27]. Twenty-

eight of these E.A.s were systematically sampled: Agbogbloshie (n = 5), James Town (n = 8)

and Ussher Town (n = 16). All the housing structures in the selected E.A.s were listed to create

a database of residents in the community. Forty residential structures were systematically

determined from each E.A. A total of 974 individuals were interviewed from the 40 residential

structures. In 2013, the 40 structures chosen in 2011 were re-sampled. Due to the high migra-

tion rates in the communities and attrition, some of the households and individuals in the

2011 selected structures were unavailable to participate. The total number of individuals who

responded to the 2013 survey was 782. The response rate was 64% in 2011 and 62% in 2013. In

2013, about 80% of those who refused to participate were unavailable during the survey period,

15% had relocated, and 5% had died.

The data in 2011 and 2013 were used to create a repeated cross-sectional dataset. Only

about 20% of the 2011 respondents were interviewed in 2013 (n = 194). Among the 20% who

could form a panel dataset, about 8% had incomplete data (n = 16). The research team was left

with a sample size of 178. The data analysis showed that 60% of the 178 were individuals aged

15–24 and did not reflect a representative sample of the community. Therefore, the research

team decided to analyse the data as a repeated cross-sectional study. Repeated cross-sectional

datasets allow for the analysis of change over time at the population level but not at the individ-

ual level [32]. The research team present the analysis of dietary frequency and pattern by year.

However, the dietary pattern analysis was conducted on the pooled dataset.

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2.2 Study variables

The NYU-UG Twin Cities food frequency questionnaire. Diet frequency was assessed

using a food frequency questionnaire (FFQ) developed for a previous project, the New York

University-University of Ghana (NYU-UG) project titled “Assessing the Dietary Patterns and
Health Status of Ghanaians in Accra and New York City” [33]. This FFQ was modified by

expert review and pretesting to include foods consumed by residents in the study. The final

FFQ included 87 foods classified into 14 groups: cereal-based porridges; cereal-based staples;

tuber and plantain-based staples; soups; stews/soups/ fats and oils; animal source foods;

baked/roasted/boiled snacks; fried snacks; soft drinks; alcoholic drinks; milk and dairy prod-

ucts; fruits; and vegetables (S1 Table in S1 File). Specific food items were included in each food

group; for example, the food items for the milk and dairy group were milk (evaporated or

fresh), yoghurt/ice cream, butter, cheese/wagashie and others. The FFQ was used to record the

frequency and source of consumption of the listed foods for the seven days preceding the sur-

vey; portion size consumed was not estimated. In addition to the listed foods, an opportunity

was given to respondents to indicate foods they had consumed but were not listed in the FFQ.

The respondents’ other food items were all recoded as part of the listed categories since they

were like the existing list. For example, Fante Kenkey was recoded as Banku/Akple/T.Z./Ken-

key. The FFQ was used to measure dietary frequency and dietary patterns. Two dietary behav-

iour variables were assessed: cooking frequency at home and salt use at the table. The

frequency of cooking at home was reported as “never, daily, 1–2 days per week or 3–6 days per

week”. Also, the frequency of adding salt to food at the table was assessed on a three-point

scale: never, occasionally/rarely, or often.

Socio-demographic characteristics. Since dietary behaviours are grounded in socio-eco-

logical conditions and realities, this study selected age, sex, and level of education as risk fac-

tors at the individual level. Ethnicity and marital status were selected as interpersonal risk

factors. The locality of residence was selected as a community-level risk factor. These variables

were chosen to examine how they are linked with dietary intake frequency, pattern, and qual-

ity. The age of participants was measured in completed years and categorised into 10-year age

groups: 15–24, 25–34, 35–44 and 45+ years. Sex was categorised as 1 for females and 0 for

males. Ethnicity was measured as Ga, Akan, Ewe, Mole-Dagbani, and non-Ghanaians. Partici-

pants who self-reported as Nigerian, Zabarama, Hausa and Fulani were classified as ‘non-Gha-

naians.’ However, the non-Ghanaians have lived in the communities for decades and have

contributed to the multi-cultural/multi-ethnicity context of the area.

2.3 Study analytical approaches

Two approaches were used to examine the dietary pattern in this study: hypothesis-oriented

analysis and data-driven analyses.

Hypothesis-Oriented analysis. This study used the NOVA classification system. The

NOVA classification system was developed for the prevention and management of NCDs [15].

The NOVA system provides a rigorous format for classifying foods based on the level of pro-

cessing and their impact on diet and health [15]. By classifying food items into four groups,

the NOVA system can isolate ultra-processed foods that are nutritionally unbalanced, such as

snacks, drinks and convenience foods formulated from food constituents [15]. The NOVA

classification system is recognised and used by international organisations such as the World

Health Organisation, Pan American Health Organisation and the Food and Agriculture Orga-

nisation to measure diet quality with NCDs [16, 17]. Researchers in different countries and

socio-economic contexts have used it to understand dietary behaviours. These studies indicate

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that individuals with a higher intake of ultra-processed foods have low diet quality but an

increased risk of overweight and obesity, non-communicable diseases, and mortality [18, 19].

Unprocessed and minimally processed foods such as fruits, vegetables, and whole-grain

foods were classified as group one (S2 Table in S1 File). Group two food items were processed

culinary ingredients, group three was accessed food, and group four were ultra-processed,

industrially formulated foods and beverages. Details of these food items can be found in S2

Table in S1 File. The frequency of consumption of foods belonging to each of the four groups

was categorised into less than once a week (�1x/wk), two to three times a week (2-3x/wk),

four to five times a week (4-5x/wk) and more than five times a week (>5x/wk).

Data-driven analysis. Factor analysis was used to identify the underlying dietary patterns

for the pooled dataset. The principal component analysis included 62 food items listed in S3

Table in S1 File. The factors were rotated using the varimax rotation to obtain orthogonal

(uncorrelated) factors. Six factors had eigenvalues >1. However, in the Scree plot, the first

three components stood out before the point where the curve flattened when the elbow rule

was applied. These three factors were also interpretable (S1 Fig in S1 File). The Kaisera-

Mayera-Olkina ratio for the data used for this study was 0.830. Kaisera-Mayera-Olkina values

between 0.8 and 1 indicate adequate sampling [34].

Three meaningful patterns were identified. The three factors explained 80% of the total var-

iance in the dataset. Tabachnick and Fidell suggest that using an alpha level of .01 (two-tailed),

a rotated factor loading for a sample size of at least 300 would need to be at least .32 to be con-

sidered statistically meaningful as a rule of thumb (2007). Although a factor loading of 0.5 is

recommended, we used 0.32 because of interpretability. For example, In S3 Table in S1 File,

cake (FL: 0.51), malt (FL: 0.40) and (FL: 0.48) had factor loadings close to 5. The other items

had a value of 0.30. In Ghana, fizzy drinks are usually consumed with chips, cake, and meat

pie. Therefore, food items with factors loading higher than 0.3 were used to label the dietary

patterns to reflect the dietary behaviours in Ghana.

Individual factor scores for each isolated pattern were saved and used as participants’

scores. The mean score was used as the cut-off point. Participants whose scores were at or

above the mean were categorised as 1, and below the mean were categorised as 0. Therefore,

each participant had a score for the three dietary patterns.

2.4 Statistical analysis

The socio-demographic characteristics of the respondents were assessed using summary statis-

tics, including frequencies and percentages. The frequency of consumption of the 14 food

groups, cooking at home and salt use at the table for each survey year was estimated using

crosstabulations with a Chi-square test for each survey year. The frequency of consumption of

the NOVA food groups was assessed using crosstabulations with a Chi-square test for 2011

and 2013.

This study estimated each dietary pattern by the background characteristics of the respon-

dents using crosstabulations with the Chi-square test. Three logistic regression models were

conducted to determine the relationship between each dietary pattern and the background

characteristics of respondents (age, sex, locality, level of education, study year and marital sta-

tus). An interaction term for study year and locality of residence was added to each model to

account for economic conditions prevailing within each community during the survey years.

About 5% of the variability in the data was explained by staple and rice pattern models. The

snack pattern model had an. All the models were specified correctly based on the linear pre-

dicted value (_hat) and the linear predicted value square (_hat). For example, the snack pattern

had a linear predicted value coefficient of 1.03 with a p-value of 0.000 and the linear predicted

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value squared was 0.024 with a p-vale of 0.871. The analyses were conducted using Stata 17.

The p-values reported were two-tailed, and a cut-off of<0.05 was considered for statistically

significant associations.

3. Results

3.1 Socio-demographic characteristics 2011 and 2013

The current analysis includes data from 960 participants from 2011 and 782 from 2013 who

had complete data on all the relevant variables of interest (Table 1). In both surveys, about

one-third of participants were aged between 15 and 24 years. Almost half had Middle/JHS

level education (44% and 42%, from 2011 and 2013, respectively). About half lived in Ussher

Town, and a third in James Town. Two out of five participants were married in both survey

waves. The majority were Ga-Dangme.

3.2 Diet frequency and behaviours

The frequency of consumption of animal-source foods in 2013 was higher than in 2011

(P = 0.000). The proportion of participants who consumed ASFs more than five times a week

increased from 81% to 87% (Fig 1). Participants who consumed baked snacks five times or

more weekly increased from 1% in 2011 to 3% in 2013 (Fig 2). Fizzy drinks were the single

Table 1. Demographic characteristics of respondents, 2011 and 2013.

Variable 2011 (n = 960) 2013 (n = 782)

Female Male Total Female Male Total

Age

15–24 32.5 34.5 33.4 35.8 38.0 36.6

25–34 32.5 30.5 31.6 33.9 26.6 30.7

35–44 23.8 17.8 21.0 22.4 16.1 19.5

45+ 11.2 17.1 14.0 7.8 19.3 13.2

Level of education

No education 8.3 3.8 6.2 9.7 3.8 7.0

Primary 26.2 12.9 20.2 20.7 11.4 16.6

Middle/JHS 44.6 43.2 44.0 41.6 43.7 42.5

Secondary 18.5 32.4 24.8 23.9 34.1 28.5

Higher 2.4 7.7 4.8 4.1 7.0 5.4

Locality of residence

Agbogbloshie 18.0 16.0 17.1 13.7 13.7 13.7

James Town 30.5 33.3 32.0 26.0 30.2 27.9

Ussher Town 51.6 50.7 50.9 60.3 56.1 58.4

Marital Status

Never married 33.8 17.9 39.6 39.9 44.8 42.1

Currently married 46.9 47.0 44.4 45.0 42.2 43.8

Currently not married 19.2 11.9 16.0 15.0 13.0 14.2

Ethnicity

Akan 30.5 26.5 28.8 25.6 23.2 24.5

Ga-Dangme 53.7 61.7 57.2 56.9 65.2 60.5

Ewe 5.9 4.0 5.1 9.1 4.6 7.2

Mole-Dagbani 3.1 3.5 3.2 3.2 3.2 3.2

Non-Ghanaians 6.8 4.2 5.6 5.2 3.8 4.6

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Fig 1. Frequency of consumption of animal source foods in Agbogbloshie and Ga Mashie, 2011 and 2013.

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Fig 2. Frequency of snack foods consumed in Agbogbloshie and Ga Mashie, 2011 and 2013.

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most frequently consumed snacks. About 11% consumed fizzy drinks five times or more per

week in both surveys. In 2011, nearly two out of five respondents consumed vegetables five

times or more weekly. The proportion of the sample who consumed fruits five times or more a

week was 20% lower in 2013 compared with 2011. The frequency of using salt at the table was

similar between 2011 and 2013 (Fig 3). Across both surveys, about a third of the participants

cooked food at home daily (29% and 33%, respectively). The proportion who never cooked at

home reduced from 12% in 2011 to 7% in 2013 (P = 0.000).

3.3 Diet quality using NOVA

Table 2 shows the respondents’ diet quality for 2011 and 2013, assessed using the NOVA classi-

fication framework. In 2011 and 2013, almost all the participants consumed Group 1 food

items five times or more weekly. The Group 1 items included unprocessed or minimally pro-

cessed foods such as kenkey, rice, and roasted maize. Gradual increase in consumption was

observed for processed culinary ingredients (Group 2), processed foods (Group 3) and ultra-

processed foods (Group 4) food items between surveys. The proportion that consumed Group

2 food items five times or more per week increased from 67% to 83%, and Group 4 food items

Fig 3. Selected dietary behaviours in Agbogbloshie and Ga Mashie, 2011 and 2013.

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from 21% to 29% between 2011 and 2013 (Table 2). Between 2011 and 2013, there was a 10%

difference in the proportion of participants who consumed Group 3 food items five times or

more in a week.

3.4 Dietary pattern

The factor loadings of foods for the identified dietary pattern are presented in S2 Table in S1

File. Three dietary patterns were identified: rice, snack, and staple and stew/soup. Meals fre-

quently consumed by the rice pattern were boiled rice, jollof rice, tomato stew, kenkey and

shito (pepper sauce). The snack pattern was characterised by more frequent consumption of

fruit juices, yoghurt, malt drinks, meat pie, cake, sausage, flour chips, doughnuts, meat pie,

malt drinks, sugar-sweetened beverages, frozen dairy and bananas. The staple and stew/soup

pattern was characterised by fufu, ampesi (boiled yam/plantain), palm soup, light soup,

grounded pepper, kontomire (cocoyam leaves), palava sauce, and garden egg stew.

In 2011, about two out of every five participants consumed food items in the rice (37%) and

staple and sauce patterns (42%) (Fig 4). The proportion of participants who consumed the

food items in the snack pattern was 35% in 2011 but ten points higher in 2013 (41%). The pro-

portion of respondents who belonged to the rice dietary pattern increased between 2011 and

2013 (Fig 4). However, there was a reduction in the portion of those who consumed the staple

pattern between 2011 and 2013.

There were significant associations between snack pattern and age (p<0.000), level of edu-

cation (p = 0.001), and locality of residence (p<0.001) (Table 3). The snack pattern was about

70% less likely among those aged 35–44 years compared with those aged 15–24 years

(p = 0.001) (Table 4). The odds of consuming the snack pattern were higher for respondents

living in Ussher Town in 2013 than those living in Agbogbloshie. Locality of residence and sex

were significantly associated with the rice pattern. Across localities, the rice pattern

Table 2. Diet quality of participants by NOVA classification, 2011 and 2013.

NOVA groups 2011 2013 p-value for trend

Consumed food from Group 1/week

<1 time 0.0 0.1 p<0.0001

2–3 times 0.1 0.1

4–5 times 0.2 0.3

>5 times 99.7 99.5

Consumed food from Group 2/week

<1 time 9.4 4.3 p<0.0001

2–3 times 12.2 6.0

4–5 times 11.1 7.2

>5 times 67.3 82.5

Consumed food from Group 3/week

<1 time 24.6 19.8 p<0.0001

2–3 times 28.0 20.4

4–5 times 17.5 18.0

>5 times 29.9 41.8

Consumed food from Group 4/week

<1 time 39.3 32.3 p<0.0001

2–3 times 26.5 23.7

4–5 times 12.9 15.1

>5 times 21.3 28.9

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consumption was higher among participants in Ussher Town (OR = 2.61) and James Town

(OR = 2.69) compared with Agbogbloshie. There was strong evidence of an association

between age and the staple pattern. A higher proportion of those aged 25–34 years (34%), 35–

44 years (51%), and 45+ years consumed food items in the staple pattern compared to those

aged 15–24 years (29%). The pattern of individuals consuming food items in the staple pattern

as age increases was maintained when other factors when controlled for Table 4.

4. Discussion

This study used different indices to examine the dietary behaviour of residents in three urban

communities in Accra, Ghana, using two surveys conducted in 2011 and 2013. Overall, dietary

behaviour changed between 2011 and 2013. Intake of ASFs and fizzy drinks was higher in

2011 compared with 2013 (refer to Fig 2). When examined with factor analysis, these diet

behaviours showed a pattern of higher rice and snack consumption but lower consumption of

staple foods (refer to Fig 4). Regarding diet quality, there was a significant increase in the con-

sumption of processed foods (refer to Table 2). In addition, trends in consumption varied by

sex, age, locality, year of study, and level of education (refer to Table 4). The consumption of

processed foods was more pronounced among the youth and persons with a higher level of

education.

The results from other studies among urban residents across the globe showed a similar

trend. In the United Kingdom, ultra-processed foods constitute about two-thirds of total

energy intake [35]. In the USA [36] and Nigeria [37], urban residents consumed higher pro-

cessed foods than rural residents. A 2013 survey in Kumasi, Ghana’s second-largest city,

reported that about a quarter of respondents consumed ‘risky’ foods, similar to our findings

(29%) (Refer to Table 2) [38]. Also, another study in Sekondi and Kumasi reported a decrease

in the consumption of traditional snacks, drinks and main meals [39]. In the subsequent

Fig 4. Dietary patterns in Agbogbloshie and Ga Mashie, 2011 and 2013.

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paragraphs, we explain our research findings using factors at the individual, community and

structural levels outlined by the socio-ecological model [10].

At the individual level, the decrease in consumption of staple and stew/sauce pattern can be

explained by concerns consumers have about the safety (physical and microbial), convenience

(cooking time, packaging) and cost of these food items [39]. An analysis of the microbial qual-

ity of foods sold in formal and informal food outlets affirms this concern. In particular, soups,

stew, fufu (cassava and plantain pudding), macaroni, vegetable salad and waakye (boiled rice

with beans) were the most contaminated food samples [40]. Due to job demands, some urban

residents have limited time to purchase and prepare food. In addition, the relatively high cost

of some traditional foods also hinders their consumption [25]. The reverse is valid for the con-

sumption of processed foods in various countries. Processed foods are relatively safe, conve-

nient, and affordable.

We found that the young and those with higher education had a higher intake of processed

foods than adults and those with less education. In Ghana, the level of education is rising,

mainly among the youth. According to the 2014 Ghana Demographic and Health Survey,

about one-tenth of young women and men (15–19 years) had no education, compared to

nearly two-fifths of older women and men (45–49 years) [41]. This suggests that the highly

Table 3. The relationship between characteristics of respondents and dietary patterns.

Characteristics of respondents Snack dietary pattern Rice dietary pattern Staple dietary pattern

OR 95% CI P OR 95% CI P OR 95% CI P

Age

15–24

25–34 0.971 0.72–1.32 0.848 0.968 0.72–1.29 0.830 1.793 1.31–2.44 0.000

35–44 0.690 0.51–0.94 0.018 0.766 0.56–1.04 0.092 2.401 1.74–3.29 0.000

45+ 0.659 0.48–0.89 0.008 0.585 0.42–0.80 0.001 2.673 1.94–3.68 0.000

Sex

Male

Female 0.973 0.79–1.19 0.786 1.241 1.01–1.52 0.040 0.094 0.75–1.12 0.409

Level of education

No education

Primary 0.771 0.49–1.19 0.245 1.001 0.61–1.63 0.997 1.033 0.65–1.62 0.887

Middle/JHS 1.143 0.75–1.71 0.522 1.202 0.76–1.89 0.428 1.457 0.96–2.20 0.077

Secondary 1.268 0.82–1.95 0.285 1.282 0.79–2.06 0.304 1.093 0.70–1.70 0.693

Higher 2.634 1.37–5.03 0.003 1.298 0.70–2.40 0.406 0.823 0.45–1.50 0.526

Locality name

Agbogbloshie

James Town 1.069 0.71–1.59 0.743 2.696 1.62–4.46 0.000 0.473 0.31–0.70 0.000

Ussher Town 1.006 0.69–1.45 0.973 2.610 1.61–4.22 0.000 0.414 0.28–0.59 0.000

Marital status

Never married

Married 0.950 0.75–1.19 0.659 1.195 0.94–1.51 0.139 1.033 0.82–1.29 0.782

Currently not married 0.866 0.63–1.17 0.358 0.869 0.62–1.20 0.399 0.906 0.67–1.23 0.536

Year of study

2011

2013 0.643 0.387 0.089 2.165 1.17–3.99 0.014 1.029 0.61–1.71 0.913

Locality name#Year of study

James Town#2013 1.151 0.620 0.656 0.825 0.40–1.67 0.595 1.708 0.91–3.17 0.091

Ussher Town#2013 1.784 1.008 0.047 0.753 0.38–1.46 0.403 1.100 0.61–1.95 0.746

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educated youth are the population group adopting a lifestyle of consuming snacks and sweet-

ened drinks. Therefore, this dietary behaviour could have been acquired during the schooling

years of the respondents. In low-income urban communities, schools do not typically have

canteens. Students frequently depend on street food vendors and convenience stores for food;

these vendors typically sell snacks and sweetened drinks [42]. In the school environment,

social desirability to adopt snacks and sweetened drinks among peers is expected, as reported

in Ghana [43] and South Africa [44]. Furthermore, although this population are likely to have

high nutrition knowledge, their knowledge may not translate into practice due to the discom-

fort and inconvenience of preparing and adopting healthy behaviours [14, 45].

Dietary habits are influenced by social, cultural and accessibility within a particular location

[16]. While Agbogbloshie has the largest fresh produce market in Accra, increasing access to

fruits and vegetables for its residents, Ga Mashie has community markets with limited vendors

selling fruits and vegetables [27]. In Ga Mashie and Agbogbloshie, more than half of the popu-

lation engages in sales/services such as petty trading, food vending, shopkeeping and bartend-

ing. They operate as mobile or stationary individual enterprises and provide services at least

six days a week. These convenience stores stock limited healthy foods but high-sugar and fatty

foods. The stores co-exist with alcohol stores and drinking bars, all within walking distance

[28]. In a community with limited spaces and time to cook, the food vendors offer residents

convenient access to unhealthy foods, and these outlets’ patronage is pretty high [46].

Two factors at the structural level can explain the study findings. Firstly, agricultural and

trade policies implemented by the government have significantly changed the local food envi-

ronment. Prominent among these policies include the structural adjustment policies and the

Table 4. The distribution of dietary patterns by background characteristics of respondents.

Characteristics of respondents Snack dietary pattern Rice dietary pattern Staple dietary pattern

n (%) P n (%) P n (%) P

Age

15–24 273 (45%) 0.000 284 (47%) 0.021 179 (29%) 0

25–34 212 (39%) 235 (43%) 229 (42%)

35–44 100 (28%) 152 (43%) 181 (51%)

45+ 68 (29%) 81 (35%) 114 (49%)

Sex

Male 140 (41%) 0.869 189 (55%) 0.051 127 (37%) 0.33

Female 175 (40%) 209 (48%) 176 (40%)

Level of education

No education 35 (30%) 0.001 39 (34%) 0.012 50 (44%) 0.002

Primary 100 (31%) 126 (39%) 121 (37%)

Middle/JHS 280 (37%) 323 (43%) 344 (45%)

Secondary 202 (44%) 220 (48%) 160 (35%)

Higher 38 (43%) 45 (51%) 30 (35%)

Locality name

Agbogbloshie 74 (27%) 0.000 80 (29%) 0.000 151 (21%) 0.000

James Town 202 (39%) 253 (48%) 220 (31%)

Ussher Town 379 (40%) 420 (45%) 334 (47%)

Marital status

Never married 150 (45%) 0.062 182 (55%) 0.048 102 (31%) 0.000

Married 127 (38%) 171 (51%) 151 (45%)

Currently not married 38 (35%) 45 (41%) 50 (46%)

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promotion of a private sector-led economy in the 1980s [47]. These policies have facilitated the

importation and domestic production of industrial snacks and beverages. In 2014, sugar was

the fourth largest commodity imported into Ghana [48]. Both multinational and domestic

companies have invested significant amounts of money into producing, distributing, and mar-

keting carbonated soft drinks, energy, sports, and alcoholic drinks. In 2015, for example, about

$100m was invested by a multinational company to improve the infrastructure and operations

of a local brewery [49]. These investments have increased the availability of sugar-sweetened

beverages at very competitive prices.

Secondly, there is a sub-optimal implementation of local and international policies to

improve the food environment [50]. For example, Codex guidelines for nutrition labelling,

false claims and hygiene are barely enforced [51]. Photographic adverts of sugar-sweetened

beverages on significant highways in Accra contain health and fitness claims [52]. The WHO

guidelines for marketing unhealthy foods to young children are also not enforced. In addition,

information on the nutrition composition of food items does not exist even at multinational

food outlets such as Kentucky Fried Chicken (KFC), Burger King, Pizza Inn, Chicken Inn,

Pizza Hut, and Barcelos [50]. Yet, these outlets provide meals with a high energy content of

between 1500 and 2000 kcal per serving [53]. Furthermore, recommendations to tax unhealthy

food items such as alcohol, tobacco and soft drinks are yet to be implemented despite intense

advocacy by civil society [54].

The findings demonstrate that the youth were consuming processed foods more frequently.

Exposure to unhealthy foods during childhood and adolescence increases the risk of addiction

to these foods. The increasing consumption of snacks and sweetened drinks among youth in

Ghana will likely exacerbate the pattern of increased NCDs and associated complications and

premature deaths. Furthermore, research on Ghanaian food habits suggests that people do not

consider snacks as meals [55]. Therefore, they will be less likely to reduce their energy intake

from main meals when consuming energy-dense snacks. This will result in the consumption

of excess calories, leading to significant increases in weight gain over time, even among the

physically active.

This study has some limitations. Firstly, the portion size of the foods consumed was not

assessed. Secondly, the EDULINK surveys used a 7-day FFQ, a handy tool for determining

usual dietary consumption; however, the tool may not accurately reflect long-term dietary

behaviours. Despite these limitations, the study findings are not unique to Ghana. The results

are a replica of global changes in diet and food systems, with important implications for the

primary prevention of NCDs.

Based on a longitudinal study of NCD risk in the community, recommendations for

improving NCD interventions, including dietary behaviours, were suggested [28]. For exam-

ple, at the community level, it was recommended that public health education through local

radio and television programs could be designed to provide residents with knowledge. Such

programs can focus on the dangers of processed foods while promoting cooking and eating

unprocessed foods.

There is an attempt at the structural/policy level to address aspects of dietary habits. The

government has implemented regulations banning the importation and sale of turkey tails and

marketing breast milk substitutes [50]. For instance, the ban on turkey tails has significantly

reduced the availability of high-fat meats. Turkey tails, locally known as ‘chofi’ served with

fried yam and or/and bread, were commonly consumed as street food. Food vendors publicly

displayed and sold it along crucial stops on the Accra-Kumasi highway. In 1999, the govern-

ment implemented a food policy that limited the amount of fat in beef, mutton, pork and poul-

try imported into the country. Through the joint efforts of the Food and Drugs Board (FDB),

the National Security and the Customs, Exercise and Preventive Service (CEPS), the turkey

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tails smuggled into the country were seized and destroyed at the ports of entry before reaching

the market [56]. The success of the turkey tail policy could be an opportunity to implement

other regulations on the food environment, such as the 2019 National Policy for the Preven-

tion and Control of NCDs.

Conclusion

In a poor urban community in Ghana, this examined dietary behaviours between 2011 and

2013. The findings indicate a significant increase in the consumption of ASFs, fruits, and pro-

cessed foods. This dietary behaviour was common among the youth and those with higher

education. Poultry was the dominant ASF consumed. The findings of this study mirror global

changes in diet and food systems, with important implications for the primary and secondary

prevention of NCDs. Public health programs can focus on the regulation of the food environ-

ment in addition to promoting healthy eating behaviours. These health promotion programs

can be implemented through community radios and durbars by the Ga Mashie Development

Agency (GAMADA) and the Ussher Polyclinic Public Health Unit. This study was unable to

gather information on portion size of the meals consumed. This limited the assessment of

changes in macro and micronutrient intakes over time. Future studies can use local modules

to gather data on portion sizes to estimate macronutrients and micronutrients intake.

Supporting information

S1 File.

(DOCX)

Author Contributions

Conceptualization: Sandra Boatemaa Kushitor, Richmond Aryeetey, Ama de-Graft Aikins.

Formal analysis: Sandra Boatemaa Kushitor, Deda Ogum Alangea.

Funding acquisition: Ama de-Graft Aikins.

Methodology: Sandra Boatemaa Kushitor, Deda Ogum Alangea, Richmond Aryeetey.

Project administration: Ama de-Graft Aikins.

Supervision: Ama de-Graft Aikins.

Visualization: Sandra Boatemaa Kushitor.

Writing – original draft: Sandra Boatemaa Kushitor, Deda Ogum Alangea, Richmond Aryee-

tey, Ama de-Graft Aikins.

Writing – review & editing: Sandra Boatemaa Kushitor, Deda Ogum Alangea, Richmond

Aryeetey, Ama de-Graft Aikins.

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