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African Journal of Primary Health Care & Family Medicine

versão On-line ISSN 2071-2936
versão impressa ISSN 2071-2928

Afr. j. prim. health care fam. med. (Online) vol.11 no.1 Cape Town  2019

http://dx.doi.org/10.4102/phcfm.v11i1.1853 

ORIGINAL RESEARCH

 

Development of a Sesotho health literacy test in a South African context

 

 

Marianne ReidI; Mariette NelII; Ega Janse van Rensburg-BonthuyzenI

ISchool of Nursing, Faculty of Health Sciences, University of the Free State, Bloemfontein, South Africa
IIDepartment of Biostatistics, Faculty of Health Sciences, University of the Free State, Bloemfontein, South Africa

Correspondence

 

 


ABSTRACT

BACKGROUND: Research shows that poor health literacy (HL) can be a threat to health and health care. Health literacy is under-researched and poorly understood in developing countries, including South Africa, because of the absence of language and context-specific HL tests
AIM: The researchers aimed to develop an appropriate HL test for use among South African public health service users with Sesotho as their first language.
SETTING: The test was developed in the Free State Province of South Africa, for use among Sesotho speakers.
METHODS: Mixed methods were employed to develop the Sesotho Health Literacy Test (SHLT). The process of developing the test was carried out in distinctive methodological steps.
RESULTS: The stepwise process set out by identifying abstracts (n = 206) referring to HL tests. Sourcing of HL tests followed a tapered process resulting in the use of 17 HL tests. Elements within a conceptual framework guided HL test item selection (n = 47). Two Delphi sessions assisted in reaching consensus regarding final HL test items (n = 40). The readability testing of the SHLT tested 4.19 on the Coleman-Liau Index score. A context-suitable and comprehensive SHLT ensued from this work.
CONCLUSION: The SHLT assessment instrument development creates a platform for HL testing among Sesotho first language speakers in South Africa. The context-sensitive methodology is entrenched in a theoretical framework, distributing HL test items between identified competencies and related skill dimensions and domains. The methodology can be applied to the development of HL tests for other languages and population groups in developing countries.

Keywords: health literacy assessment; primary health care; South Africa; developing countries; public health service; context-sensitive assessment.


 

 

Introduction

Globally, health literacy (HL) is receiving increased attention.1 The concept of HL assessment was first introduced more than four decades ago and constitutes an important skill that enables individuals to maintain their health and use health services.2 From a public health perspective, poor HL has an impeding impact on health and health care. Research conducted in developed countries during the past two decades highlights an array of associated threats, including deficient knowledge and comprehension of health and illness;2,3,4 a diminished ability to use the health care system and manage health-related issues;5,6,7 delays in health care-seeking behaviour; less frequent use of preventive health services; difficulty in communicating with health care workers; suboptimal adherence to medication and appointments;8 lower health status;9,10,11,12 higher morbidity and mortality rates;13 more frequent hospitalisation;14 increased visits to clinicians and associated elevated health care costs.15,16

Health literacy in developing countries, including South Africa, is under-researched and poorly understood. Even though research shows that individuals with poor economic status and low educational levels, who constitute 84% of the South African population, are particularly affected by limited HL,2,17,18 information on the status of HL among South Africans is scant, resulting largely from the absence of milieu-appropriate HL tests.19 Existing HL tests predominantly originated in developed countries, designed for populations in different socio-economic, cultural and health system milieus, and are typically not suitable for use in South Africa, even if translated into a local language. Translation itself does not guarantee the relevance of existing tests for the health system, health concepts, and health and cultural beliefs of the country and target population for which the translated tests are intended. This limitation was demonstrated in a study conducted in the Eastern Cape Province, South Africa,20 among a population with English as a second language using the Rapid Estimate of Adult Literacy in Medicine (REALM) instrument. The study showed that REALM was inappropriate for use in the contextual and cultural milieu, rendering questionable results as a proportion of the participants struggled to comprehend the questions and were unable to complete the test. In order to better understand HL in the country, milieu-appropriate HL tests are needed.

Complicating the development of such tests is the fact that the South African society is particularly diverse. With its 11 official languages, multiplicity of cultures, quadruple burden of disease,21 wide-ranging morbidity and mortality profiles,22 generally low patient empowerment levels and parallel health care systems, that is, the public and private health care sectors,23 the development of appropriate HL tests is not a simple task. One recent study conducted in the Eastern Cape Province reported on a contextually and culturally appropriate item bank of HL questions, namely the Health Literacy Test for Limited Literacy (HELT-LL) for South African patients who make use of the public health care sector.2,24 The HELT-LL is in isiXhosa, one of several languages in South Africa.

With this work, the research team aims to develop a HL test for the Basotho ethnic group, with Sesotho as their first language. Although only 8% of households in the country use Sesotho as the first language, the language spoken most often in households in the Free State Province is Sesotho, with nearly three-quarters (71.9%) of the provincial population using this language at home.17,25 Developing an HL test for this group will be of considerable value in the quest to better understand HL in the province.

This article is intended to explain the methods and processes employed to develop a context-appropriate Sesotho HL test (SHLT). It is believed that the methods and processes used can be applicable for developing context and culturally appropriate HL tests in other languages.

 

Research methods and design

A mixed-methods design was employed to develop the SHLT. The process of developing the test was carried out in eight distinctive steps adapted from Lee and Tsai.26

Step 1 entailed the identification of HL tests. A combination of search words was used (Box 1) to identify abstracts referring to HL tests. EBSCOhost and its included databases served as the electronic platform to identify these tests. Only abstracts in English, as well as studies written in other languages with an English abstract, and publications from 01 Jan. 1995 through 30 April 2017 were included.

 

 

Step 2 involved the sourcing of HL tests acting as assessment instruments of HL meeting specific inclusion criteria: (1) complete HL tests or truncated items of tests available in English; (2) obtainable through open access or contact with authors; and (3) tests that measure non-disease specific HL. A follow-up round eliminated HL tests not suitable or not adaptable to the South African public health care system and Basotho culture.

The comprehensive search strategy of these two steps was structured according to the guidelines of the Centre for Reviews and Dissemination27 and American Dietetic Association.28

Step 3 encompassed the selection of a HL definition to integrate within the conceptual framework towards the development of the SHLT. A definition that reflected a public health perspective and focused on non-disease specific HL was purposefully selected.

Step 4 established the conceptual framework forming the theoretical foundation in guiding item development of the SHLT. The framework was drawn from Sørensen et al.'s29 integrated model of HL, HL skill dimensions identified by Haun et al.30 and the HL definition of Dodson et al.31 endorsed by the World Health Organization.

In Step 5, HL test items were identified and adapted from sourced HL tests. Where needed, identified test items were adapted to the South African public health care system context and Basotho culture.

During Step 6, HL test items were reviewed according to elements in the conceptual framework (Figure 1). The test items were evaluated and modified through a Delphi process.

 

 

In Step 7, a panel of native Sesotho speakers translated HL test items from English to Sesotho.

Step 8 allowed testing the readability of test items according to the Coleman-Liau index.

The core research team, composed of a health communication specialist, communication science specialist and a health systems researcher, conducted Steps 1 to 5. Steps 6 and 7 were completed during a 2-day interdisciplinary workshop. Purposefully selected workshop participants (n = 11) included health communication specialists, a public health specialist who previously developed HL tests and health promotion representatives from the Free State Department of Health, lecturers in African languages, a nutritionist, a sociologist and health systems researcher. Health communication specialists performed Step 8 after the workshop.

Ethical considerations

Ethical approval for the research project was obtained from the Health Sciences Research Ethics Committee of the University of the Free State (ECUFS 111/2014).

 

Results

Step 1 - Identify health literacy tests

A total of 286 abstracts referring to HL tests met the inclusion criteria. After excluding abstracts referring to duplicate HL tests (n = 80), 206 abstracts remained.

Step 2 - Source health literacy tests

From the abstracts identified in Step 1 (n = 206), an elimination process continued whereby 67 HL tests were sourced and 26 HL tests adhered to the inclusion criteria. After a follow-up process, 17 HL tests (Table 1) remained.

 

 

Step 3 - Select a health literacy definition

An HL definition that was usable within the public health perspective and focused on non-disease specific HL was selected. It is endorsed by the WHO:

Health literacy refers to the personal characteristics and social resources needed for individuals and communities to access, understand, appraise and use information and services to make decisions about health. Health literacy includes the capacity to communicate, assert and enact these decisions.31

Step 4 - Establish a conceptual framework

A conceptual framework (see Figure 1) formed the theoretical underpinning in guiding item development of the SHLT. Four essential competencies of HL include accessing, understanding, appraising and applying health-related information. Each competency is linked to related skill dimensions. Access to health care depends on patients' ability to find health-related information and navigate health systems. Understanding health information is influenced by patient's literacy, numeracy and comprehension skills. It is only possible for patients to appraise health information if they are able to critically evaluate health-related decisions. In order to apply these decisions, patients need skills enabling them to communicate on health subjects, apply health information to changing environments, take responsibility for their own health care decisions and express confidence in accomplishing personal and community health. Patients navigate the mentioned competencies and related skill dimensions within three domains, those of health care, disease prevention and health promotion.

Step 5 - Identify and adapt health literacy test items

Items of the HL tests (n = 17) were adapted to the context of the South African public health system and Basotho culture. This process led to the HL test items (n = 47) of the SHLT.

Although existing test items were used as examples, it is important to indicate that no test items were used exactly as they appeared in the original tests. All were adapted or changed for purposes of contextualisation. A test item (number 5) from the Numeracy Understanding in Medicine Instrument was contextualised to the South African public health system using a picture of a typical pill-dispensing bag (see Item 12 of the SHLT in Annexure 1). Another example is the adaption of the Newest Vital Sign nutrition label reflecting ice cream information being replaced by a maize meal label. Maize meal is a staple food source of the Basotho (see Item 10 of the SHLT in Annexure 1).

Step 6 - Review health literacy test items

The identified HL test items (n = 47) were reviewed during two separate Delphi sessions during the workshop. The first Delphi session allowed participants to assess test items with reference to understandability and clarity and appropriateness within the South African public health system and Basotho culture. The results for the first Delphi session were as follows. Of the 47 test items, participants deemed 39 (82.9%) to be understandable and clear and 43 (91.5%) appropriate to the context. The items found not understandable or clear (n = 8) or appropriate (n = 4) were discussed and an attempt made, through group discussion, to adapt items to fit the context of SHLT. Of these, five items could be adapted and were retained, and seven items were eliminated, resulting in a 40-item test. Consensus was considered to be reached when items depicted 50%+ consensus scores.

The second Delphi session (results shown in Tables 2 and 3) created the opportunity for workshop participants to assess the remaining test items' (n = 40) distribution in terms of competencies, skill dimensions and domains as reflected in the conceptual framework. Per illustration, Item 32 in Annexure 1 reflects that 'HIV can spread through shaking hands'. According to Delphi participants, this item was distributed as assessing understanding as competency, comprehension as a skill dimension and was reflected in all three domains.

 

 

 

 

Scales and options to choose from appear in Annexure 1. Three options were given to choose from for each question including 'yes', 'no', 'I don't know/have not been in such a situation' or, for example, 'clinic', 'hospital' and 'I don't know'. With word association test items, two-word association options are given, and the third option provides a chance for a respondent to indicate if he or she is unable to make a word association, for example, 'cough', 'weight gain', 'I don't know'. This design decision was based on Dowse's19 publication with reference to limitations of existing HL measures for use in developing countries. Dowse found that the scaled response option is poorly understood or too abstract for use in culturally diverse or low literacy populations and recommended collapsing scales to three points. The test further contained contextually and culturally appropriate pictures of, for example, a syringe, a prescription label or a mealie meal label, to visually operationalise test items measuring health and nutrition literacy or numeracy, which rendered the test more than just a HL screening tool but also a comprehensive performance-based assessment.34 The SHLT will be interviewer administered. Scoring of test results, that is, whether a respondent's HL is adequate, marginal or inadequate, will be set after upcoming psychometric validation of the test.

Step 7 - Translate test items from English to Sesotho

In Step 7, the test items were translated from English to Sesotho by Sesotho first language workshop participants.

Step 8 - Test Sesotho readability

The Coleman-Liau index score was 4.19, indicating that the test was suitable for Grade 4 reading level.47

 

Discussion

This work sought to conceptualise and develop a contextually relevant SHLT for comprehensive assessment of HL in the Sesotho population of the Free State Province of South Africa. A large number of HL tests have been developed over the past 20 plus years, the vast majority by researchers and practitioners in developed countries,19 and they are thus poorly suited for use in developing countries. Available tests vary from simple and short HL screening tools34,35,43 to complex and comprehensive assessments of HL.31,37,40 Tests further vary in terms of the dimensions of HL they measure. Some tests measure general HL36,37,39 and others measure literacy pertaining to specific diseases or conditions.48,49,50 Very few studies in developing countries are known to have attempted the development of context-relevant HL instruments that encompass multidimensional elements.2 Lee et al.26 found that the development of new HL assessment instruments is rare. Often, existing instruments are simply translated for use in populations other than the intended target population for which it was developed, or instruments are simply modified slightly to fit another context. These methods, however, fall short in allowing for contextual characteristics of the target population. In this article, we described the methods and processes employed to develop the SHLT - a culturally appropriate and context-specific test of HL in populations that use primarily public health services, such as in South Africa, where 71.4% of patients visit public health services first.25

Notwithstanding the fact that more than 60 tests are in existence, Haun et al.30 found that important gaps exist, in terms of competencies, skills and dimensions that existing tests assess. The development of the SHLT was guided by specific theoretical and methodological building blocks, which consisted of, firstly, carefully selecting a definition, secondly, following a specific methodological approach and, thirdly, using a strong conceptual framework.

Health literacy is a complex construct and depending on the goal of a study or measurement, definitions vary greatly.51 Some definitions are less expansive and refer to obtaining, processing, understanding and using health information.52 Others additionally encompass socio-economic, cultural and environmental aspects.39 For the purposes of this work, against the background of the complexity and diversity in the South African milieu, we chose to work with a more expansive definition, in order to facilitate sensitivity to not only educational and intellectual characteristics of the target population but also the socio-economic, cultural, morbidity, mortality and health care systems setting. The definition endorsed by the World Health Organization was selected for this work, for its inclusivity of the wider concept of HL. The definition encompasses the personal characteristics and social resources needed for a population to access, understand, appraise and use information to make decisions about their health and to use health care services, as well as the capacity to communicate, assert and enact these decisions.31

Osborne et al.39 distinguishes between traditional and modern approaches to developing HL tests. Traditional approaches entail using a predefined model,26 while modern means a grounded approach is used.39 Within our research, a combination of these two approaches was employed. Our work was largely traditional in the sense that literature searches and reviews were employed and focused on developing a theoretically sound conceptual framework using previously published literature on HL. Items and scales in previously developed tests were consulted and used as examples during the development of the SHLT, as can be expected when following the traditional approach. An element of the modern approach was incorporated through ensuring that the lives, that is, the cultural, language, educational and health systems context, of the target population were well understood and reflected in the development of test items. The latter was employed throughout the construction of the SHLT. The authors agree with Osborne et al. that this combination of traditional and modern approaches is effective as well as efficient for the development of culturally and contextually appropriate HL tests, particularly in developing countries.

Statistics South Africa defines literacy as the ability to read and write in at least one language. In an education series published in 2016, Statistics South Africa notes that 15.7% of Sesotho-speaking individuals in South Africa between 25 and 64 years of age are illiterate.43 In the Free State, only 80% of individuals 20 years and older have completed primary education (Grade 7). Twenty per cent of the population therefore either has no schooling or has not completed primary education.25 Posel53 found that most of them fall at the lower end of the literacy scale and have difficulty completing HL tasks and further that there is a gap between grade level and literacy level in South Africa. Despite having completed school, many South Africans remain functionally illiterate.54 An HL test pitched at a lower reading level will be more inclusive of a larger group of the target population whose literacy may be on a lower level than the norm for functional literacy. Adult Sesotho-speaking individuals from the Free State Province of South Africa who have completed 4 years of schooling could benefit from the HL test we developed. The methods and processes we employed may have wide application and our experience may be relevant to other developing countries and other languages. The work by Lee and Tsai26 similarly supports the use of methodology that is culturally appropriate and country specific.

The authors acknowledge the exclusive focus on patients within the public health sector during the development of the SHLT items. Further research needs to be conducted as to whether the SHLT items are applicable for patients in the private sector. The length of the SHLT renders it unsuitable in its current format to rapidly screen HL, but it could be usable to determine a patient's HL level. Field-testing of the SHLT has not been completed and is underway. The testing will include cognitive interviews, allowing Sesotho-speaking participants to clarify their understanding of test items. Prior to participants completing the SHLT in order to determine convergent and predictive validity of the test and calibration of the scale, internal validity of the SHLT will also be determined.

 

Conclusion

An HL test is effective when it is contextualised to a specific population. The context would include aspects such as language, culture and the health system in which patients receive care. Efficiency not only depends on the content of a HL test but also on the methodological process followed in the development thereof. Test items of the SHLT are distributed between identified competencies, related skill dimensions and domains as part of the theoretical foundation of the SHLT. The contextually sensitive methodology followed can be adapted or used to develop HL tests for other languages and population groups.

 

Acknowledgements

The authors thank Dr M. Krige for sharing her expertise as a communication science expert, Prof. S.Y.D. Lee, who acted as a critical reader, as well as the workshop participants for their valuable input. The views expressed in this article are those of the authors and not an official position of the University of the Free State or the South African National Research Foundation.

Competing interests

The authors declare that they have no financial or personal relationships that may have inappropriately influenced them in writing this article

Authors' contributions

M.R. conceived of the idea for the study, planned the study, developed the theory and participated in the study design, data collection, development of the health literacy tool, data analysis and the writing of the article. M.N. contributed to the planning and design of the study, collection of data, analysis of the results and writing of the article. E.J.v.R.-B. contributed to the collection of data, development of the health literacy tool and writing of the article. All the authors discussed the results and contributed to the final manuscript.

Funding information

This research was funded by the University of the Free State and the South African National Research Foundation (NRF/Fundisa Grant: 2015/001).

 

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Correspondence:
Marianne Reid
reidm@ufs.ac.za

Received: 11 June 2018
Accepted: 19 Nov. 2018
Published: 24 Apr. 2019

 

 


Annexure 1 - Click to enlarge

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