- Open Access
Can automated content analysis be used to assess and improve the use of evidence in mental health policy? A systematic review
Systematic Reviews volume 7, Article number: 194 (2018)
This review assesses the utility of applying an automated content analysis method to the field of mental health policy development. We considered the possibility of using the Wordscores algorithm to assess research and policy texts in ways that facilitate the uptake of research into mental health policy.
The PRISMA framework and the McMaster appraisal tools were used to systematically review and report on the strengths and limitations of the Wordscores algorithm. Nine electronic databases were searched for peer-reviewed journal articles published between 2003 and 2016. Inclusion criteria were (1) articles had to be published in public health, political science, social science or health services disciplines; (2) articles had to be research articles or opinion pieces that used Wordscores; and (3) articles had to discuss both strengths and limitations of using Wordscores for content analysis.
The literature search returned 118 results. Twelve articles met the inclusion criteria. These articles explored a range of policy questions and appraised different aspects of the Wordscores method.
Following synthesis of the material, we identified the following as potential strengths of Wordscores: (1) the Wordscores algorithm can be used at all stages of policy development; (2) it is valid and reliable; (3) it can be used to determine the alignment of health policy drafts with research evidence; (4) it enables existing policies to be revised in the light of research; and (5) it can determine whether changes in policy over time were supported by the evidence. Potential limitations identified were (1) decreased accuracy with short documents, (2) words constitute the unit of analysis and (3) expertise is needed to choose ‘reference texts’.
Automated content analysis may be useful in assessing and improving the use of evidence in mental health policies. Wordscores is an automated content analysis option for comparing policy and research texts that could be used by both researchers and policymakers.
Academics are increasingly expected to inform policy and influence policymakers to produce and implement evidence-based recommendations. This imperative is based on the assumption that evidence-informed policy will improve outcomes and efficiencies [1,2,3]. Incorporating research evidence into health policy is an increasing focus of research scholarship. The extent to which research is translated into policies can be difficult to appraise given the many, often competing influences on policy decisions [4, 5]. Brownson, Chriqui and Stamatakis  have argued that ‘there is a considerable gap between what research shows is effective and the policies that are enacted and enforced’ (p. 1576). Previous work by Katikireddi, Higgins, Bond, Bonell and Macintyre , on the formulation of health policy in England, has shown that while some health policy recommendations agree with research evidence, many do not, and some promoted interventions have been shown to be ineffective.
Mental health is one area in which policy development is said to often overlook the research evidence base, resulting in mental health systems that have not reduced the disease burden attributable to mental illness [8, 9]. There have been repeated calls to better incorporate scientific evidence on the most effective interventions into mental health policies and services [10,11,12]. Zardo, Collie and Livingstone  have argued that evidence-informed policy requires tools that facilitate the translation of evidence into effective interventions and policies. Brownson, Chriqui and Stamatakis  echoed the need for ‘systematic and evidence-based approaches to policy development’ (p. 1576).
An emergent literature has examined policy and policy processes to account for barriers to research uptake, but the use of research evidence has most often been measured by a qualitative exploration of policymaker perceptions rather than by an examination of the use of research evidence in policy documents [4, 13]. Gibson, Kelvin and Goodyer  have suggested that a ‘potential starting point for evaluating direct use of evidence is to examine policy itself, rather than the policy process’ (p. 8). One significant impediment to successful research translation is the large volume of text that needs to be processed when assessing whether research results have been incorporated into policy [14,15,16]. The dominant method used to examine these texts has been content analysis in which ‘scholars manually code text units and then construct from the existence and frequency of the coded units the occurrence of concepts’ (, p. 6). This approach often involves considerable labour and time to create codes and conduct the analysis . Concerns about the reliability of the coding and analysis have prompted researchers to seek alternative methods to reduce inconsistencies and biases arising from human coding [19, 20].
Automated content analysis is a computerised method used to extract meaningful patterns and associations from large textual documents [21, 22]. The method analyses texts in a similar manner to traditional researcher-driven content analysis in that the method of analysis entails a systematic coding and categorisation of text units based on their frequency and co-occurrence [18, 19, 23]. While some would argue that automated coding lacks the capability of capturing the full textual nuances , others such as Eriksson and Giacomello  remind us that computers only follow researcher instructions. Angus, Rintel and Wiles  argue that automated content analysis techniques aim to support rather than replace researchers and that our understanding of how computers can best support research activities is still evolving.
Several automated content analysis tools have emerged in the last decade that differ in analysis techniques and the level of human involvement required. This paper focuses on one method, Wordscores, an algorithm that was developed by Laver, Benoit and Garry  in 2003. It can be freely downloaded and used as a plug-in to many widely used statistical software packages (e.g. Stata, R and Java).
Wordscores has been documented as the most popular automated content analysis method in political science, where it has been predominantly used to examine political preferences [26, 27]. Wordscores uses supervised text scaling, which here means that sample texts are classified by experts into predetermined categories which are used on new texts to produce policy estimates [14, 27].
Wordscores has most often been used to analyse policy positions in party manifestos, legislative speeches and policy documents to identify shifts in party ideology on a traditional left-right scale. This includes analysis of policy positions in a wide range of health-related areas, such as economic and social welfare policies. While we are unaware of published examples of this approach being applied to the analysis of mental health policy, it has been used in other health-related policy areas to analyse the influence of the tobacco industry on government policies  and in bioethical analyses .
Wordscores classifies documents based on word frequencies . The Wordscores algorithm treats words as data and uses a probabilistic technique to score  known policy positions expressed in texts provided by the researcher that identify specific policy positions by using word frequencies . Wordscores then maps so-called virgin texts, or texts with unknown positions, to the ‘reference texts’ using weighted averages of the word scores used [28, 31]. This technique treats words purely as data and so disregards semantic information. Wordscores identifies similarities and differences in the patterns of word frequencies between texts. If words scored in a virgin text have unequal relative frequencies to reference texts, this difference is expressed as a difference in position between the two texts.
The aim of this review was to systematically investigate the benefits and limitations of using Wordscores in mental health policy research. Our study specifically asked (1) What types of documents have been analysed using Wordscores and in relation to what research questions? and (2) What are the potential strengths and limitations of using Wordscores to examine mental health research and policy? The analysis considered a range of potential applications for automated content analysis with regard to two groups of stakeholders who have interests in the production of evidence-informed mental health policy, namely researchers and policymakers.
The research questions were developed by discussions among all the authors. KA conducted a systematic literature review following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) framework guidelines for reporting of the article selection criteria and results of systematic reviews . KA carried out database searches for peer-reviewed article abstracts, the application of inclusion criteria and rating of relevancy, article classification and rating and data extraction. FO contributed to search development, article selection, interpretation of the results and cross-verified coding. All authors were involved in the thematic synthesis of findings and the generation of conclusions. This review is not registered with PROSPERO. The PRISMA checklist for this review is provided as an additional file (see Additional file 1: PRISMA checklist).
The search was conducted between May 2015 and April 2016 using the primary search string: ab(“evidence” AND “research” AND polic*) AND tx(measur*) AND tx(wordscore* OR “word score*”) AND tx(health OR “mental health” OR wellbeing). Electronic databases ProQuest, CINAHL, EMBASE, PubMed, SCOPUS, PsycINFO, Informit, Cochrane Database of Systematic Reviews and Google Scholar were searched by desktop research method, although the precise strategy was adapted to individual databases . The literature search returned a total of 118 results. Sourced article titles and abstracts were screened for relevance to the review aims and scope. Duplicates were rejected. Full texts of chosen articles were downloaded and analysed for inclusion in the final review.
The literature sample was restricted to peer-reviewed journal articles published between January 2003 and April 2016 because the primary article on the Wordscores method was published in 2003 . Inclusion criteria were (1) articles had to be published in public health, political science, social science or health services disciplines; (2) articles had to be research articles or opinion pieces that used Wordscores; and (3) articles had to discuss both strengths and limitations of using Wordscores for content analysis. Articles that did not meet these criteria were excluded (see Fig. 1 for PRISMA flow chart for the systematic review method).
We defined a ‘strength’ as being the potential of the tool to be suitable for assessment of mental health research/policy content. A ‘limitation’ was the potential of the tool to not be suitable for assessment of mental health research/policy content. These qualitative categories were used for data extraction. They involve a degree of subjective assessment that was informed by reported empirical use and assessment, including connotation, of Wordscores in the articles.
Extraction of data items and attribute appraisal
Subcategories were initially created using a predetermined set of criteria established in a scoping review. The initial list included subcategories: effectiveness, efficiency, usefulness, reliability and expertise required. This list evolved and expanded throughout data analysis, as new subcategories were identified from the literature (Tables 2 and 4 list the final subcategories of strengths/limitations). Each strength/limitation subcategory had to be mentioned in at least two studies to be included in the final analysis. A conclusion on a Wordscores attribute was considered to be made when the article included a declarative statement that included an attribute. Attributes were defined literally (e.g. the statement ‘Wordscores is easy to use’ was coded as ‘strength: easy to use’).
Critical appraisal of studies
The articles were assessed for quality using the McMaster critical appraisal tools . KA used a systematic approach to extract relevant data from articles and populated a modified McMaster Critical Review Form for each article . The modification of the templates included the addition of four components relevant to the study aims, namely, (1) ‘description of Wordscores’, (2) ‘strengths of Wordscores’, (3) ‘limitations of Wordscores’ and (4) ‘policy relevance’. The templates were used to summarise a critical assessment of the authors’ methods, results, conclusions and potential biases in each article. Each article was critically appraised by one researcher, and quality scores (1–17) were assigned. FO reviewed the templates and quality scores and undertook random cross-verification of the results. Only the articles that had a score over 50% (pass) on the schema were included in this review. One article failed to meet this criterion. Twelve articles met the criteria, and a synthesis of their findings is presented next (see Additional file 2 for an example of a populated McMaster Critical Review Form for review and quality assessment of article by Costa, Gilmore, Peeters, McKee and Stuckler ).
Documented uses of the Wordscores method
The 12 articles that comprised the sample explored a range of policy questions and appraised different aspects of the Wordscores method. Tabulated summaries are detailed in Table 1. There were nine primary research articles that reported empirical analyses using Wordscores. The sample included three secondary analysis articles (opinion pieces) that discussed the strengths and limitations of Wordscores using health-related policies as case examples [31, 35, 36]. Seven studies concentrated specifically on testing the Wordscores method for its usefulness [25, 29, 30], reliability [25, 28, 30, 37] and validity [25, 30, 37, 38] or its usefulness in identifying policy positions from texts (i.e. on an ideological left-right policy spectrum or aligned to specific lobby group positions). Another two studies determined the strengths and limitations of the Wordscores method [31, 36]. Two studies explored the capabilities of Wordscores in mapping policy changes over time [39, 40]. The study design of all included articles was automated content analysis. Two main types of article were distinguished: (1) studies that aimed to formally assess Wordscores and (2) those that used Wordscores and provided critical comment on its properties. We distinguish between these two types of studies in our summary tables.
The types of documents analysed using Wordscores included policy drafts , adopted policies , party manifestos [25, 30, 35, 37, 39, 40], plenary speeches [25, 30, 38], transcripts of parliamentary debates , position papers , roll call data , voting recommendations  and cross-sectional survey responses [25, 29, 41]. Ten papers reported analyses of multiple types of documents. Automated content analysis was used to assess policies that were directly health-related in six studies [25, 28, 29, 38, 40, 41]. These included studies of the tobacco industry , abortion [25, 38, 41] and genetics . Social policies [25, 38, 40] and economic policies [25, 38, 39] were analysed using the automated content method in four studies. Wordscores was used for retrospective analysis of policy positions in three studies [30, 37, 40]. The studies were conducted exclusively in Europe (Germany, England, Ireland and Switzerland) and included three cross-national studies [25, 28, 36].
Documented strengths of the Wordscores method
Nine studies documented that Wordscores effectively extracted policy positions from large texts [25, 28, 29, 31, 36,37,38, 40, 41]. These studies confirmed that the technique was effective at consistently generating and comparing policy positions [25, 28, 29, 37, 40]. Baek, Cappella and Bindman  advised that the method could be used to establish the character of whole texts. Bernauer and Bräuninger  concurred that Wordscores can be used to accurately reflect the perceived positions of individuals and groups alike. Table 2 summarises documented strengths in individual studies.
Ease of use
Wordscores was described as an ‘effortless’ , simple [25, 29,30,31, 36, 37] and quick method to use [25, 29, 37] that analysed texts within a few seconds of turnaround time [25, 36]. An important strength was that it calculated policy positions using computer algorithms  integrated with a range of publicly available statistical analysis software [25, 29, 30]. From the perspective of researchers, the automated content analysis was easy to access and use. The computationally straightforward technique [31, 35] had the benefit that the analyst did not need to understand the meaning of the text that was being coded [25, 30, 38, 40]. The studies concluded that this ‘language-blind’ text coding technique [25, 30, 38, 40] can be applied to texts in any language, including those the researcher does not speak . In this regard, Wordscores can greatly simplify the task of content analysis by comparison to traditional content analysis methods.
The authors identified Wordscores as a useful [25, 29, 36, 38, 39, 41] and versatile [25, 29,30,31, 36, 41] content analysis method that allowed a high degree of flexibility in its application [25, 29, 30, 36]. Klemmensen, Hobolt and Hansen  (p. 754), for example, stated that Wordscores was ‘more flexible than any other method for estimating policy positions’. Studies found the technique agreed with expert views when applied to a range of complex topics [25, 29, 37, 40] that included cross-national analysis and different types of political actors. Debus  appreciated the ‘policy blindness’ of Wordscores meaning its lack of discrimination between policy content and issue salience.
Baek, Cappella and Bindman  found Wordscores useful in analysing texts of greatly varying length that had been formulated by a broad range of actors and when texts varied in tone from neutral to advocacy pieces. Studies confirmed that the technique was reliable when analysing texts of different formats: policy documents , party programs [25, 30, 35, 37, 39, 40], agreements, debates and speeches [25, 30, 38], position papers , roll call data , voting recommendations  and cross-sectional survey responses [25, 29, 41].
Another methodological advantage of Wordscores was its ability to provide data on changes in a series of policy positions over time using a method of high face validity [25, 29, 30, 36, 38]. For example, in their analysis of Danish party manifestos and government speeches over a 50-year period, Klemmensen, Hobolt and Hansen  confirmed that Wordscores accurately traced dramatic policy moves over a series of elections.
Reliability and validity
Researchers appreciated the inbuilt uncertainty estimates of Wordscores in producing content analysis results that were reliable [25, 28, 29, 36, 38,39,40,41] and systematic [25, 29, 30, 37] with strong claims for validity [25, 29, 30, 36, 38]. Several studies found Wordscores as effective as, or superior to, manual coding methods [25, 28, 29, 35, 36, 40] because it reduced human error [30, 35]. The cross-validation mechanism  of computing confidence intervals for comparisons of reference and virgin texts was a frequently mentioned advantage of the Wordscores method over other methods [25, 30, 36, 40]. This enabled the researchers to assess whether differences between the positions were significant or could be attributed to measurement error .
Six studies including four formal evaluation studies compared Wordscores analysis of texts with an expert assessment using Comparative Manifesto Project data to assess the reliability of Wordscores. The Comparative Manifesto Project  was a content analysis project in political science in which expert coders undertook content analysis of over 1000 policy texts, and their coding reliability was assessed. Common validity tests to assess Wordscores compared to other methods included concurrent validity and comparative predictive validity. Only one study used Krippendorff’s alpha  as a reliability measure to test Wordscores. Table 3 provides an overview of validity and reliability testing as well as the risk of bias assessments.
Several studies found that Wordscores was as effective as, or superior to, manual coding methods and so cost-effective [25, 30, 36] because it made more efficient use of expensive personnel resources [25, 29, 36]. Available literature suggests that Wordscores is an efficient technique for text content analysis [25, 29, 30, 36, 37, 40]. For example, Klemmensen, Hobolt and Hansen  (p. 754), stated that Wordscores ‘offers a cheap, efficient and language-blind technique for extracting policy positions from political texts’.
Documented limitations of the Wordscores method
None of the studies reviewed reported that Wordscores failed to provide reliable results when applied to complex policies. Nevertheless, some highlighted important limitations of using Wordscores in policy analysis (see Table 4).
One of the most discussed limitations of Wordscores was its decreased accuracy when analysing short documents. Many studies highlighted that the method was better suited to the analysis of lengthy documents [25, 28, 30, 36, 40].
Relationship between words, meaning and context
Another common criticism of Wordscores was its central focus on words as the unit of analysis. Several authors argued that only analysing word frequency produced a one-dimensional analysis [28,29,30, 35, 39] and prevented an understanding based on the nuanced ways that words are used and the context in which policy texts are produced . Costa, Gilmore, Peeters, McKee and Stuckler  expressed reservations about the extent to which words alone could accurately reflect policy positions and argued that Wordscores could only provide comparisons of the policy positions in the studied text with that of the reference texts. Coffé and Da Roit  questioned the assumption that actors consciously choose words that expressed their policy positions. They argued that Wordscores relies on the premise that word choices reflect the ideology of the person/party that addresses them, whereas word choices of actors may not necessarily be deliberate . This raises questions as to the extent to which Wordscores analyses are valid. For these reasons, some authors were unsure whether Wordscores could be applicable to more complex policy contexts [29, 36].
Expertise needed to inform the choice of reference text
Many authors highlighted the fact that the validity of Wordscores analyses depends on the reference texts that are selected by the investigator and used as the basis for appraising virgin texts. This required expert knowledge of the policy area being analysed, contrary to the claims that use of Wordscores does not require expert knowledge. Specifically, some authors argued that reference texts provide better results when they (1) have the same purpose and context (lexicon) as the texts under analysis [25, 29, 30, 35, 40], (2) contain both ‘extreme’ and centre positions [25, 28, 30] and (3) are heterogeneous in terms of word structure and frequency [28, 30, 31, 35]. According to Debus , ensuring the homogeneity of reference texts in language and ideological background (i.e. using documents from the same country) “decreases the chances of cross-national, comparative analysis of policy positions, e.g. the analysis of similar or deviating positions of specific policy area positions of parties belonging to similar ideological ‘families’” (p. 291). It is therefore important that the researcher labels the keywords correctly to enable comparisons . In summary, Wordscores requires researcher expertise and technical skill but less than some other content analysis methods according to Laver, Benoit and Garry .
This review systematically analysed 12 articles on policy that used the Wordscores method. The review found no documented uses of Wordscores in mental health policy analysis, but it has been used in health-related policy analysis, mostly in European countries. Authors who have used Wordscores report it has several strengths that make this a promising tool for investigating various stages of policy development relating to mental health, including its use in understanding the diffusion of research innovation into policy throughout the policymaking process (Fig. 2).
Usefulness in understanding and developing evidence-informed policy
While Wordscores was initially developed for the comparative analysis of policy positions, it has the potential to create evidence reference positions from available texts and to use reference texts to analyse policy drafts, agendas and legislation. Such analyses could be used for academic purposes, i.e. to improve our understanding of the way evidence circulates through policy or as a basis for proactively intervening in the policy development process. For example, the analysis of policy positions at successive time points makes it possible to monitor how evidence is used over time (i.e. during the revisions of a policy). The Wordscores method could thus potentially aid ongoing policy evaluation with its results fed back into the policy development cycle in an adaptive way (see Fig. 3).
What we propose for the future is an innovative use of Wordscores, based on the analysis of ‘research positions’ as opposed to ‘policy positions’. Furthermore, this method could be used to analyse both policy and research to highlight both evidence gaps in policies and policy-focussed research gaps. By improving the efficiency of combined policy and research analysis, Wordscores could provide a useful tool for both academics and policy analysts to better understand the role of research evidence in policy formulation.
Stakeholders who may benefit from automated content analysis could be administrators and other policymakers involved in policy analysis. It could also include researchers who want to understand and/or enhance the use of evidence in policy. In making these suggestions, we note that these uses of automated content analysis tools, like Wordscores, for policy development remain untested and thus would require further evaluation.
Diffusion of mental health research evidence into policy
Social constructivist theories of research utilisation highlight the way in which knowledge is co-created by researchers and users [43, 44]. In this view, knowledge undergoes a continual reshaping that produces new meanings . Policymakers often face competing knowledge claims from scientific researchers, policy entrepreneurs and politicians which they must weigh when using research to formulate specific policies . It could be argued that the applications of Wordscores we have proposed neglect the complex socio-political reality in which policy is made. However, while there may not always be a direct pathway from evidence to policy, our approach may still facilitate knowledge flows and create opportunities to develop evidence-informed policies.
The use of efficient automated content analysis methods such as Wordscores could support policy development by allowing more direct, efficient and effective ways to synthesise and disseminate evidence. At the same time, the Wordscores method can be utilised to measure the diffusion of mental health research into policy because it can provide sequential, repeated and longitudinal measures from draft to implemented policy to revised policy. Research findings on a particular mental health topic could be analysed using Wordscores to identify the main themes, directions or positions that have been included in successive policy drafts. Policy drafts could be analysed using Wordscores to determine their alignment with the current research; existing policies could be analysed using Wordscores to better align policy with the most recent research; and revised policies could be analysed over time to determine how they have changed and if such changes are supported by evidence.
Limitations of Wordscores
The strengths of Wordscores indicate that it can automate some aspects of policy analysis in ways that require limited expert knowledge. However, effective use of the method depends crucially on the careful choice of reference texts. Limitations relating to the analysis of short texts are of little concern because many health research and policy documents are lengthy, and short documents can be easily analysed using traditional methods.
Wordscores may be most appropriate as an initial form of analysis if it is understood that as an automated method it may not capture the entire meaning intended by authors. Other automated content analysis methods (e.g. Leximancer) that use ‘concepts’ as the unit of measurement rather than words can add a more complex layer of information.
This review was restricted to English-language studies. There may have been studies conducted on Wordscores in other languages and published in grey literature that were relevant. The assessment framework was bespoke and so has not been tested or verified by other authors. As outlined in the ‘Methods’ section, we used a systematic approach to extract data and assign it into qualitative categories. However, as with any qualitative approach, this involved a degree of subjectivity, and different methods of data collection may have produced a different outcome. However, in most cases, text analysed was taken literally, i.e. if an author stated that Wordscores was ‘easy to use’, then we created a code ‘easy to use’. The majority of data collection, analysis and synthesis was carried out by the lead author with the second author contributing to search development, article selection, interpretation of the results and cross-verification of coding.
This study was limited by the small pool of publications relevant to our research questions. Few studies were relevant to health policy, none to mental health and only seven studies provided formal evaluations of Wordscores. Reporting of strengths and limitations was also variable, with some studies dedicating more space to describing the strengths and limitations of Wordscores than others. Risk of bias assessment was limited because few studies reported bias and conflicts of interest. This probably reflects differences in the conventions and norms of policy studies in comparison to health and medical research fields.
Authors self-selected to use Wordscores in studies and therefore may have been inclined to be less critical of automated content analysis methods. Publication bias is a consideration, given that researchers may not proceed to publication if they deem the method unsuitable for their purposes. Additionally, the authors of these studies are potential experts in automated content analysis, and thus, their assessments of Wordscores that was ‘easy to use’ may be true of someone with their level of expertise rather than researchers in general. We did not assess the level of expertise of the study authors.
We also acknowledge that there are influences on policy decisions that may not be detectable in policy documents. Consequently, automated content analysis tools comprise only one means of interrogating questions about how research influences policy. Other methods for assessment of policy processes should be used in tandem.
The articles we reviewed highlighted the importance of selecting suitable reference policy texts to a successful analysis. How relevant ‘research position’ texts might be identified and selected in mental health should be the subject of future research. Another issue for future research on evidence-based health policies would be to explore and compare different automated content analysis methods in addition to Wordscores.
There is insufficient evidence to advocate for the application of Wordscores as we have described it. Rather, we propose that these innovative applications of this technology, and other automated content analysis packages, be further investigated. As demonstrated above, Wordscores has both strengths and limitations. However, the review indicates that it is feasible to further explore the efficacy of this, and similar methods, and their potential applications in an area, such as mental health, where this approach has not previously been used. Firstly, the review provides precedents for the use of this approach in policy studies in ways that should be relevant to mental health policy analysis. Secondly, we believe it is possible to transfer a method used to examine policy positions and use it for a comparative analysis of policy and research evidence. The next step is to evaluate the utility of this approach through empirical testing using case studies.
Automated content analysis technologies are continuously being developed. While we have focussed on Wordscores in this study, automated content analysis may assist understanding and facilitating evidence-informed policy more broadly. Automated content analysis provides potential analytical tools that could be utilised at various stages of policy development to examine, and facilitate, the diffusion of research (innovation) into policy. Automated approaches, such as Wordscores, cannot and should not replace expert understanding in policy analysis. Automated content analysis is a complementary method that can, when cross-validated using other methods, provide valid data to assist and support expert understanding. By automating some stages of the analysis process, researcher time can be freed up and the research process expedited compared to human coding. This makes it more feasible to follow policy throughout its life cycle. The use of Wordscores, in particular, allows the creation of reference positions and directions based on available evidence to analyse policy drafts, agendas and published legislation to assess whether changes are in line with available research findings. Further investigation of other automated content analysis tools is warranted. Research using automated content analysis should be encouraged and supported in mental healthcare where there is a critical need for strategic research diffusion into policy at all levels.
Grimshaw JM, Eccles MP, Lavis JN, Hill SJ, Squires JE. Knowledge translation of research findings. Implement Sci. 2012;7:1–17. https://0-doi-org.brum.beds.ac.uk/10.1186/1748-5908-7-50.
Head B. Three lenses of evidence-based policy. Aust J Publ Admin. 2008;67:1–11. https://0-doi-org.brum.beds.ac.uk/10.1111/j.1467-8500.2007.00564.x.
Zardo P, Collie A, Livingstone C. External factors affecting decision-making and use of evidence in an Australian public health policy environment. Soc Sci Med. 2014;108:120–7. https://0-doi-org.brum.beds.ac.uk/10.1016/j.socscimed.2014.02.046.
Gibson J, Kelvin R, Goodyer I. A call for greater transparency in health policy development: observations from an analysis of child and adolescent mental health policy. Evid Policy. 2015;11:7–18. https://0-doi-org.brum.beds.ac.uk/10.1332/174426414X13940168597987.
Milat AJ, Bauman AE, Redman S. A narrative review of research impact assessment models and methods. Health Res Policy Syst. 2015;13:1–7. https://0-doi-org.brum.beds.ac.uk/10.1186/s12961-015-0003-1.
Brownson RC, Chriqui JF, Stamatakis KA. Understanding evidence-based public health policy. Am J Pub Health. 2009;99:1576–83. https://0-doi-org.brum.beds.ac.uk/10.2105/ajph.2008.156224.
Katikireddi SV, Higgins M, Bond L, Bonell C, Macintyre S. How evidence based is English public health policy? Brit Med J. 2011;343:1–7. https://0-doi-org.brum.beds.ac.uk/10.1136/bmj.d7310.
Australian Institute of Health and Welfare (AIHW). Mental health services in Australia 2006–07, mental health series no.11. Cat no. HSE 74. Canberra: AIHW; 2009.
Townsend C, Whiteford H, Baingana F, Gulbinat W, Jenkins R, Baba A, Lieh Mak F, Manderscheid R, Mayeya J, Minoletti A, et al. The mental health policy template: domains and elements for mental health policy formulation. Int Rev Psychiatry. 2004;16:18–23. https://0-doi-org.brum.beds.ac.uk/10.1080/09540260310001635069.
Hanney SR, Gonzalez-Block MA, Buxton MJ, Kogan M. The utilisation of health research in policy-making: concepts, examples and methods of assessment. Health Res Policy Syst. 2003;1:2.
Hyder A, Corluka A, Winch PJ, El-Shinnawy A, Ghassany H, Malekafzali H, Lim M-K, Mfutso-Bengo J, Segura E, Ghaffar A. National policy-makers speak out: are researchers giving them what they need? Health Policy Plan. 2010;26:73–82.
Whiteford H, Harris M, Diminic S. Mental health service system improvement: translating evidence into policy. Aust N Z J Psychiatry. 2013;47:703–6. https://0-doi-org.brum.beds.ac.uk/10.1177/0004867413494867.
Innvaer S, Vist G, Trommald M, Oxman A. Health policymakers’ perceptions of their use of evidence: a systematic review. J Health Serv Res Policy. 2002;7:239–44. https://0-doi-org.brum.beds.ac.uk/10.1258/13558190232043277.
Grimmer J, Stewart BM. Text as data: the promise and pitfalls of automatic content analysis methods for political texts. Polit Anal. 2013;21:267–97. https://0-doi-org.brum.beds.ac.uk/10.1093/pan/mps028.
Oliver K, Lorenc T, Innvær S. New directions in evidence-based policy research: a critical analysis of the literature. Health Res Policy Syst. 2014;12:34.
Orton L, Lloyd-Williams F, Taylor-Robinson D, O’Flaherty M, Capewell S. The use of research evidence in public health decision making processes: systematic review. PLoS One. 2011;6:e21704. https://0-doi-org.brum.beds.ac.uk/10.1371/journal.pone.0021704.
Arnold C, Hug S, Schulz T. Cross-validating measurement techniques of party positioning. In: Paper presented at the annual meeting of the American Political Science Association. Toronto; 2009. http://www.unige.ch/ses/spo/static/simonhug/cvmtpp/cvmtpp.pdf.
Gross J, Acree B, Sim Y, Smith NA. Testing the etch-a-sketch hypothesis: a computational analysis of Mitt Romney’s ideological makeover during the 2012 primary vs. general elections. In: Paper presented at the American Political Science Association annual meeting 2013. Chicago; 2013. https://papers.ssrn.com/sol3/papers.cfm?abstract_id=2299991.
Odena O. Using software to tell a trustworthy, convincing and useful story. Int J Soc Res Methodol. 2013;16:355–72. https://0-doi-org.brum.beds.ac.uk/10.1080/13645579.2012.706019.
Richards L. Qualitative computing - methods revolution? Int J Soc Res Methodol. 2002;5:263–76. https://0-doi-org.brum.beds.ac.uk/10.1080/13645570210146302.
Ampofo L, Collister S, O’Loughlin B, Chadwick A. Text mining and social media: when quantitative meets qualitative, and software meets humans. In: Halfpenny P, Procter R, editors. Innovations in digital research methods. London: Sage; 2015. p. 161–92.
Angus D, Rintel S, Wiles J. Making sense of big text: a visual-first approach for analysing text data using Leximancer and Discursis. Int J Soc Res Methodol. 2013;16:261–7. https://0-doi-org.brum.beds.ac.uk/10.1080/13645579.2013.774186.
Gjerløw H. What’s right? A construct validation of party policy position measures. Oslo: University of Oslo, Department of Political Science; 2014.
Eriksson J, Giacomello G. Content analysis in the digital age: tools, functions, and implications for security. In: Krüger J, Nickolay B, Gaycken S, editors. The secure information society: ethical, legal and political challenges. London: Springer London; 2013. p. 137–48.
Laver M, Benoit K, Garry J. Extracting policy positions from political texts using words as data. Am Polit Sci Rev. 2003;97:311–31.
Baturo A, Dasandi N, Mikhaylov SJ. Understanding state preferences with text as data: Introducing the UN General Debate corpus. Res Pol. 2017;1-9. https://0-doi-org.brum.beds.ac.uk/10.1177/2053168017712821.
Benoit K, Herzog A. Text analysis: estimating policy preferences from written and spoken words. http://www.kenbenoit.net/pdfs/HerzogBenoit_bookchapter.pdf. Accessed 2 June 2016.
Costa H, Gilmore AB, Peeters S, McKee M, Stuckler D. Quantifying the influence of the tobacco industry on EU governance: automated content analysis of the EU tobacco products directive. Tob Control. 2014;23:473–8. https://0-doi-org.brum.beds.ac.uk/10.1136/tobaccocontrol-2014-051822.
Baek YM, Cappella JN, Bindman A. Automating content analysis of open-ended responses: Wordscores and affective intonation. Commun Methods Meas. 2011;5:275–96. https://0-doi-org.brum.beds.ac.uk/10.1080/19312458.2011.624489.
Klemmensen R, Hobolt SB, Hansen ME. Estimating policy positions using political texts: an evaluation of the Wordscores approach. Elect Stud. 2007;26:746–55. https://0-doi-org.brum.beds.ac.uk/10.1016/j.electstud.2007.07.006.
Lowe W. Understanding Wordscores. Polit Anal. 2008;16:356–71. https://0-doi-org.brum.beds.ac.uk/10.1093/pan/mpn004.
Moher D, Liberati A, Tetzlaff J, Altman DG. Preferred Reporting Items for Systematic Reviews and Meta-Analyses: the PRISMA statement. Int J Surg. 2010;8:336–41. https://0-doi-org.brum.beds.ac.uk/10.1016/j.ijsu.2010.02.007.
Law M, Stewart D, Letts L, Pollock N, Bosch J, Westmorland M. Guidelines for critical review form - quantitative studies. Hamilton: McMaster University Occupational Therapy Evidence-Based Practice Research Group; 1998.
Law M, Stewart D, Letts L, Pollock N, Bosch J, Westmorland M. Critical review form - quantitative studies. Ontario: McMaster University Occupational Therapy Evidence-Based Practice Research Group; 1998.
Debus M. Analysing party politics in Germany with new approaches for estimating policy preferences of political actors. Ger Polit. 2009;18:281–300. https://0-doi-org.brum.beds.ac.uk/10.1080/09644000903055773.
Volkens A. Strengths and weaknesses of approaches to measuring policy positions of parties. Elect Stud. 2007;26:108–20. https://0-doi-org.brum.beds.ac.uk/10.1016/j.electstud.2006.04.003.
Budge I, Pennings P. Do they work? Validating computerised word frequency estimates against policy series. Elect Stud. 2007;26:121–9. https://0-doi-org.brum.beds.ac.uk/10.1016/j.electstud.2006.04.002.
Bernauer J, Bräuninger T. Intra-party preference heterogeneity and faction membership in the 15th German bundestag: a computational text analysis of parliamentary speeches. Ger Polit. 2009;18:385–402. https://0-doi-org.brum.beds.ac.uk/10.1080/09644000903055823.
Coffé H, Da Roit B. Party policy positions in Italy after pre-electoral coalition disintegration. Acta Politica. 2011;46:25–42. https://0-doi-org.brum.beds.ac.uk/10.1057/ap.2010.16.
Hug S, Schulz T. Left-right positions of political parties in Switzerland. Party Polit. 2007;13:305–30. https://0-doi-org.brum.beds.ac.uk/10.1177/1354068807075938.
Baumann M, Debus M, Müller J. Convictions and signals in parliamentary speeches: Dáil Éireann debates on abortion in 2001 and 2013. Ir Pol Stud. 2015;30:199–219. https://0-doi-org.brum.beds.ac.uk/10.1080/07907184.2015.1022152.
The Manifesto Project: Manifesto Corpus. https://manifesto-project.wzb.eu/information/documents/corpus. Accessed 30 Jan 2018.
Armstrong R, Waters E, Roberts H, Oliver S, Popay J. The role and theoretical evolution of knowledge translation and exchange in public health. J Pub Health. 2006;28:384–9. https://0-doi-org.brum.beds.ac.uk/10.1093/pubmed/fdl072.
Hutchinson JR, Huberman M. Knowledge dissemination and use in science and mathematics education: a literature review. J Sci Educ Tech. 1994;3:27–47.
Walter I, Nutley S, Davies H. Research impact: a cross sector review. St. Andrews: Research Unit for Research Utilisation, University of St. Andrews; 2003.
The project was funded by the National Health and Medical Research Council (NHMRC) Centre for Research Excellence in Mental Health Systems Improvement (APP1041131). This research was supported by the Australian Government Research Training Program Scholarship from the University of Queensland (UQ) to Kristel Alla.
Availability of data and materials
All data generated or analysed during this study are included in this published article and its supplementary information files.
Ethics approval and consent to participate
Consent for publication
The authors declare that they have no competing interests.
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
About this article
Cite this article
Alla, K., Oprescu, F., Hall, W.D. et al. Can automated content analysis be used to assess and improve the use of evidence in mental health policy? A systematic review. Syst Rev 7, 194 (2018). https://0-doi-org.brum.beds.ac.uk/10.1186/s13643-018-0853-z
- Automated content analysis
- Evidence-informed policy
- Research impact
- Mental health