USE OF SOFTWARE FOR DATA ANALYSIS IN QUALITATIVE RESEARCH: APPROACH TO NVIVO, MAXQDA, AND IRAMUTEQ TOOLS

USO DE SOFTWARE PARA ANÁLISE DE DADOS EM PESQUISAS QUALITATIVAS: ABORDAGEM DAS FERRAMENTAS NVIVO, MAXQDA E IRAMUTEQ

USO DE SOFTWARE PARA EL ANÁLISIS DE DATOS EN INVESTIGACIONES CUALITATIVAS: ENFOQUE DE LAS HERRAMIENTAS NVIVO, MAXQDA E IRAMUTEQ

https://doi.org/10.31011/reaid-2024-v.99-n.4-art.2415

João Vitor Andrade¹

Deíse Moura de Oliviera²

Juliana Cristina Martins de Souza³

Amanda Morais Polati⁴

¹PhD student in Nursing. Federal University of Alfenas. Alfenas, Brazil. ORCiD: https://orcid.org/0000-0003-3729-501X

²PhD in Sciences. Associate Professor at the Federal University of Viçosa. ORCiD: https://orcid.org/0000-0003-3804-7413

³PhD student in Nursing. Federal University of Alfenas. Alfenas, Brazil. ORCiD: https://orcid.org/0000-0002-1941-2262

⁴PhD student in in Family Medicine and Primary Care. McGill University, Montreal, Canada. https://orcid.org/0000-0003-3713-681X

Submission: 28-10-2024

Approval: 28-10-2024

Qualitative research explores human experiences that cannot be quantified or adequately represented by numbers alone⁽¹⁾. The traditional view that the quantitative approach, rooted in positivist paradigms, is superior is no longer sufficient to explain the complexity of social and individual phenomena⁽²⁾.

This is not a competition between methods; rather, it is a recognition that both approaches have value and a place in health sciences. The quality of a research study lies not in choosing one method over another but in how the investigation is conducted (rigor) and how the research questions are understood and addressed (relevance and clarity)⁽³⁾.

Among the three aspects related to research quality - rigor, relevance, and clarity - rigor is often the most questioned in qualitative research, especially in data analysis⁽²⁾. However, it is important to note that rigor in qualitative research comes from the depth of analysis and consistency in data interpretation, which does not mean following the same standards as quantitative research but ensuring that the analysis is conducted systematically and thoroughly^(1-2).

In this context, the integration of technology into the qualitative analysis process has become one of the most effective solutions to minimize the subjectivity involved in data interpretation⁽²⁾. While the use of software for qualitative data analysis is sometimes questioned, it is essential to understand that these tools do not replace the researcher’s role in interpreting the data; rather, they optimize processes such as organization, coding, and managing large volumes of information. The responsibility for contextualized data interpretation still lies with the researcher, who must relate the findings to the experiences and lives of the subjects studied^(2,4).

With technological advancements, qualitative data analysis has evolved considerably. The use of software like NVivo, MAXQDA, and Interface de R pour les Analyses Multidimensionnelles de Textes et de Questionnaires (IRaMuTeQ), among others⁽⁵⁾, epresents a significant leap forward, enabling researchers to organize, analyze, and interpret data more efficiently and effectively^(4-5). Previously, qualitative analysis required considerable manual effort and time⁽¹⁾. However, these tools now allow for a more precise and systematic approach. Each software has its unique features, making them suitable for different types of analyses.

Table 1 - Especificities of NVivo, MAXQDA e IRaMuTeQ, Sao Paulo, 2024.

Software

Usability

[Country]

Type of Analyses

Accepted Formats

Audio Transcription Support

NVivo [1999]

High

[Australia]

Content, thematic, categorical, network, matrix, and cluster analyses

Texto: .doc, .docx, .txt, .rtf e .pdf; Áudio: .mp3, .wav e .wma; Vídeos: .mp4, .avi, .wmv e .mov; Imagens: .jpg, .bmp, .gif e .png; Planilhas: .xls e .xlsx

Yes, with automatic and manual transcription

MAXQDA [1989]

Medium

[Germany]

Mixed data, discourse, word frequency analysis

Texto: .doc, .docx, .txt, .rtf e .pdf; Áudio: .mp3, .wav e .wma; Vídeos: .mp4, .avi, .wmv e .mov; Imagens: .jpg, .bmp, .gif e .png.

Yes, with automatic and manual transcription (AI Assist for audio/video transcription)

IRaMuTeQ [2009]

Medium

[France]

Classic textual statistics, group specificity, hierarchical descending classification, similarity analysis, word clouds

Texto: .txt e .csv; Planilhas: .xls e .xlsx

No transcription support

Source: Prepared by the authors, based on information from the software^(2,6-7).

The advantages of NVivo include its high integration with other software, excellent multimodal analysis (text, audio, video), and a user-friendly interface for beginners⁽⁶⁾. MAXQDA offers mixed analysis (quantitative and qualitative), interactive visualizations, advanced graphic resources, and wide compatibility with various data formats⁽⁷⁾. IRaMuTeQ stands out for being free and allowing the verification of data saturation - an essential aspect of qualitative research that has long lacked a practical method for confirmation. This verification occurs when the hapax (terms appearing only once) reaches a value ≤ 5%⁽²⁾.

However, both NVivo and MAXQDA have high costs and require an initial learning curve to take full advantage of their advanced features. MAXQDA is less intuitive for users who only seek to perform qualitative analysis. IRaMuTeQ’s drawbacks include its lack of multimodal analysis (audio and video), a less intuitive interface, a steeper learning curve, and fewer graphic resources compared to NVivo and MAXQDA.

Despite the advances these software tools have brought to qualitative research, challenges remain. Researchers may struggle with understanding and using the tools, which can delay the analysis process. NVivo and MAXQDA have extensive functionalities^(6-7), that, while advantageous, may be overwhelming for beginners. Although intuitive, their interfaces require time and practice to be used efficiently

Another challenge involves data integration. Researchers using multimodal data, such as video interviews or recorded audio, may face format compatibility or organizational issues within the software. Furthermore, residual subjectivity remains: even with software, data interpretation is still a human responsibility^(1-2), and how data is coded and interpreted may vary between researchers⁽²⁾.

Given these challenges, it is increasingly important to train researchers in the proper use of these technologies. Without familiarity, researchers may underuse the available resources or make errors in analysis^(2,5).

Therefore, academic health curricula, particularly in graduate programs, must incorporate software use in qualitative disciplines, just as quantitative software (SPSS, R, Stata, Jamovi) is used in quantitative courses. This early exposure will ensure that future researchers develop technological competencies from the beginning of their careers^(2,4).

The impact of this training will be twofold: on one hand, it will ensure greater efficiency in conducting qualitative research; on the other, it will strengthen the acceptance of the qualitative approach in the scientific community by bringing more rigor and structure to the analysis process^(2,5). Universities and research centers that adopt this approach will promote more robust research by integrating methodologies and technological tools that optimize the process of knowledge production.

In conclusion, qualitative analysis supported by software like NVivo, MAXQDA, and IRaMuTeQ is becoming increasingly consolidated in health sciences⁽⁵⁾. With proper training and the integration of these tools in academic environments, the challenges associated with their use can be overcome^(2,4-5).

The use of these tools promotes greater accuracy, rigor, and transparency in qualitative data analysis⁽²⁾, contributing to the evolution of qualitative research by providing the basis for developing policies and health practices informed by a deep understanding of human experiences.

REFERÊNCIAS

1. Minayo MCS. O desafio do conhecimento: pesquisa qualitativa em saúde. 14ª edição. São Paulo: Hucitec Editora, 2014.

2. Costa AP, Reis LP, Moreira A, (Edi.). Computer supported qualitative research. Berlim: Springer International Publishing; 2020. https://doi.org/10.1007/978-3-030-31787-4

3. Pitanga ÂF. Pesquisa qualitativa ou pesquisa quantitativa: refletindo sobre as decisões na seleção de determinada abordagem. Rev. Pesqui. Qual. (Online). 2020 Oct 1;8(17):184-201. https://doi.org/10.33361/RPQ.2020.v.8.n.17.299

4. Bryda G, Costa AP. Qualitative research in digital era: innovations, methodologies and collaborations. Soc Sci. 2023 Oct 12;12(10):570. https://doi.org/10.3390/socsci12100570

5. Salvador PT, Chiavone FB, Bezerril MD, Martins JC, Fernandes MI, Santos VE. Quality data analysis software used in nursing research. Texto contexto - enferm. 2019 Nov 4;28:e20180304. https://doi.org/10.1590/1980-265X-TCE-2018-0304

6. Alves D, Figueiredo Filho D, Henrique A. O poderoso NVivo: uma introdução a partir da análise de conteúdo. Rev Polit Hoje. 2015;24(2):119-34. Disponível em: https://periodicos.ufpe.br/revistas/politicahoje/article/view/3723

7. Gizzi MC, Rädiker S, editors. The Practice of Qualitative Data Analysis. Research Examples Using MAXQDA. MAXQDA Press; 2021. https://doi.org/10.36192/978-3-948768058.

Declaration of conflict of interest

Nothing to declare.

Scientific Editor: Ítalo Arão Pereira Ribeiro. Orcid: https://orcid.org/0000-0003-0778-1447

Rev Enferm Atual In Derme 2024;99(4): e024410

Atribuição CCBY