Vol.08 No.11(2016), Article ID:70044,8 pages

Educational Technologies for Child Health Promotion: An Integrative Literature Review

Rosalia Daniela Medeiros da Silva1*, Estela Maria Leite Meirelles Monteiro2, Luciana Pedrosa Leal3, Francisca Márcia P. Linhares3, Luciane Soares de Lima2

1Graduate Child and Adolescent Health Program at UFPE, Recife, Brazil

2Graduate Nursing Program and Graduate Child and Adolescent Health Program at UFPE, Recife, Brazil

3Nursing Department and Graduate Nursing Program at UFPE, Recife, Brazil

Copyright © 2016 by authors and Scientific Research Publishing Inc.

This work is licensed under the Creative Commons Attribution International License (CC BY).

Received 18 July 2016; accepted 22 August 2016; published 25 August 2016


The use of educational technology focused on child health promotion requires theoretical-metho- dological foundations to support aspects related to the growth and psychomotor development stage, articulating knowledge and healthy habits as early as possible. This article is an integrative review to investigate the educational technologies used in health education actions to promote child health. The databases LILACS, MEDLINE, BDENF, PUBMED, CINAHL, and in the Virtual library Cochrane Library and SciELO were consulted. Thirteen articles were analyzed. The educational technologies have been employed to promote child health promotion actions and have contributed to the achievement of long-lasting results. The actions happen predominantly in the school context and light, light-hard and hard technologies are used. The association between light and hard technology obtained better results.


Health Education, Health Promotion, Educational Technology, Child

1. Introduction

The technologies based on health promotion have been described as a new and promising paradigm in health, due to the range of its theoretical-methodological approaches, constituting its complexity and main conceptual bases, which are: the emphasis on the integrality of care and on the prevention of health problems; the social commitment to quality of life and the adoption of participation as process planning and assessment [1] .

Health Promotion supports the reorganization of health work, so that it constitutes a form of organized social response to the health problems and needs of a given population, associated with an expanded, positive and complex view of health, which represents the concrete possibility of breaking with the biomedical paradigm to propose a new form of intervention in the health area [1] [2] . In the reorganization of health work, it is fundamental to attend to the population’s demands and needs from a health promotion perspective. In this context, the technologies are tools capable of articulating innovative strategies that aim to equip the population’s health actions.

According to Nietsche [3] , the conception of technology has been emphatically used in daily life, but often wrongly, as it has only been conceived as a product, a machine, something concrete. Technology corresponds to the result of processes that are put in practice based on daily experience and research, with a view to developing a set of scientific knowledge to construct products, whether material or not, with a view to provoking interventions in a given practical situation. This entire process should be assessed and systematically controlled. In the health sphere, the technologies are subdivided into care, management and education.

Educational technology is a systematic set of scientific knowledge that permits planning, execution, control and monitoring, involving the entire formal and informal education process. To apply the educational technology, whether process or product-related, the educator (health professional) needs to serve as a facilitator of the teaching-learning process and the student (client) as a participating subject in this process, involved in a creative conscience of sensitivity and creativity in the search for personal and professional growth [3] .

The use of educational technology focused on child health promotion requires a theoretical-methodological background that supports aspects of the growth and psychomotor development stage, articulating knowledge and healthy habits as early as possible, and also minimizing physical and emotional risk situations. In this context, the objective in this study was to investigate the educational technologies used in health education actions in child health promotion.

2. Materials and Methods

An integrative review was undertaken, which consists in the analysis of relevant studies, in a systematic and organized manner that permits the synthesis of current knowledge on a given theme, besides appointing knowledge gaps that need to be completed [4] [5] .

To put this review in practice, six steps recommended by Mendes [4] were followed: 1) identification of the theme and elaboration of the research question; 2) establishment of inclusion and exclusion criteria; 3) definition of information to be extracted from the selected studies; 4) assessment of the studies included in the integrative review; 5) interpretation of the results; 6) presentation of the review.

The guiding question elaborated for this study was: what educational technologies have been used for health education actions in child health promotion? The following inclusion criteria were established: articles published between 2008 and 2013 in English, Portuguese or Spanish, with a view to finding current evidence in the field of educational technology for children. The exclusion criteria were: technical documents, annals, editorials, congress abstracts, comments, reflection articles, experience report, dissertations, theses and articles that were not in accordance with the research question. The research was undertaken between October and November 2013.

The bibliographic survey was undertaken in the databases Latin American and Caribbean Health Science Literature (LILACS), International Health Science Literature (MEDLINE), Nursing Databases (BDENF), US National Library of Medicine of the National Institutes of Health (PUBMED), Cumulative Index to Nursing and Allied Health Literature (CINAHL), in the Virtual Cochrane Library and Scientific Electronic Library Online (SciELO). The Descriptors in Health Sciences (DeCS) and their respective translations were: Health Education, Educational technology, Child, Health promotion and Child health, in English, Portuguese and Spanish, according to the database. The combinations were made through the use of the Boolean operator “AND” for the combination in five triads among the descriptors.

The crossing of the descriptors resulted in a total number of 2515 articles, 17 of which came from SciELO, 71 from LILACS, 989 from MEDLINE, 865 from CINAHL, 373 from Cochrane, 200 from Pubmedand none from BDENF. The articles were analyzed and 2490 were excluded because they did not comply with the inclusion criteria and/or did not adapt to the research question; 25 articles were selected, 11 of which were excluded because they were repeated and one because it did not present the final study results. This resulted in final sample of 13 articles.

The 13 articles selected were fully read and the criteria and methods employed in their development were critically assessed to determine their methodological validity. None of the articles were excluded after this evaluation [4] . To extract the data regarding the research question, an instrument was used that had been adapted from the model proposed by Pompeo [6] , with a view to summarizing the information orderly. Information was collected on the database, journal, academic background of the authors and country of origin, language, year of publication, institution where the study was undertaken, type of study, evidence level, educational technology used, results and conclusion.

The evidence level of the studies was attributed according to the classification by Stetler [7] with level I― results of meta-analysis of controlled and randomized clinical studies; level II―experimental studies; level III― quasi-experimental research; level IV―descriptive study or with a qualitative approach; level V―case or experience reports and level VI―expert opinions or based on standards or laws.

The types of educational technologies used in the studies were analyzed based on the definition of technologies by Merhy and Onocko [8] , in which “light technologies” refer to the relations, welcoming, bonding and service management; “light-hard technologies” correspond to the well-structured knowledge that guides the work, standards, protocols and the knowledge produced in the different knowledge areas; and “hard technologies” refer to the machinery, equipment, instruments and constitute well-structured and materialized knowledge and know-how.

3. Results

Among the articles included in this review, three were published in 2008, four in 2009, one in 2011, four in 2012 and one in 2013, being nine in English and four in Portuguese. The impact factor of ten journals in which the studies were published ranged between 0.09 and 8.24. For the other three, this information was not located. The evidence levels of the studies were: four level II, six level III and three level IV.

Table 1 displays a synthesis of the papers included in this integrative review.

4. Discussion

The critical analysis of the publications in the light of the theoretical framework by Merhy and Onocko (2002) [8] regarding the classification of the technologies used showed that light, light-hard and hard technologies were used. Among the studies, 10 predominantly used light-hard technologies as a strategy in the educational actions [9] - [13] [16] - [20] , including: puppet theater, comics, dynamics, drawing contests, dance classes and practical demonstration. Three studies predominantly applied hard technologies for the sake of child health promotion [14] [15] [21] , including: computer program, radio program and multimedia. The association of light, light-hard and hard technologies was also present.

The studies that used the hard technologies associated with light technology obtained better results, like in the case when a multimedia program was used to promote knowledge on cerebrovascular accident [21] , in which the children who developed activities with relatives better apprehended new knowledge. The same result was observed in the study that used the daily radio program [15] transmitted at the school and demonstrated that, when a moment of interaction with the teacher took place after the exhibition of the program, including discussion about the theme, better results were obtained in terms of knowledge acquisition about health. A similar result was found in the study that used the computer program associated with the teacher’s class [14] .

The use of the hard technology only, without any intention, without interaction through the light technology, does not seem to produce such favorable results in the health promotion actions. The health professionals need and should use technological resources, mainly in child health promotion, with a view to attractive interventions that achieve the proposed objectives. Nevertheless, it should be taken into account that the computer will never replace the human essence and technological advances should be used to rescue that essence [22] .

Among the selected studies, four used practical experience associated with theoretical knowledge to promote the children’s effective participation, resulting in positive outcomes that continued for months after the interventions, such as eating habits, postural and oral health changes [10] [16] [17] [20] .

Another important finding refers to health professionals’ interdisciplinary actions, and also in partnership with teachers [18] - [20] , favoring the promotion of child health. In a multicenter study, health professionals in inter

Table 1. Study characteristics and findings.

professional and inter sectoral cooperation with teachers developed education and health promotion actions in Malawi, Zambia, and the United States and obtained positive results in terms of health care information, development of long-term sustainable partnerships and greater awareness regarding the use of resources for global health education [23] . According to Pereira and Oliveira [2] , interdisciplinarity requires coordinated work with shared objectives, in an integrated and converging manner, shared among different knowledge branches. Interdisciplinary work favors the apprehension of multiple perspectives, contributes to enhance interventions and understand complex issues, and also contributes to the acknowledgement of and coping with health-related problems [24] .

The most discussed theme in the studies analyzed was healthy eating habits [12] [13] [16] [18] [19] , which supports the fact that the high overweight levels among children currently represents a risk factor of global concern for cardiovascular diseases. This concern has motivated different studies to analyze the relation between healthy habits and physical exercise [25] , develop educational actions that promote correct food choices [13] and also stimulate fruit and vegetable consumption as a part of the diet [26] .

All studies in the final sample were developed in the school context, except one [11] developed in primary care. One important reflection is that the hospital environment can also be considered a space to promote educational activities for the purpose of health promotion, especially for children and adolescents with chronic illnesses. The use of educational technologies can favor the establishment of partnerships among children, relatives and health teams, an important premise to achieve good results [27] . According to Paula [28] , in the hospital environment, technology is an instrument of social inclusion, grants the children and adolescents freedom and overcoming of challenges in this environment filled with limitations, at the same time as it offers different interactive possibilities.

5. Conclusions

The educational technologies have been employed to promote child health promotion actions and have contributed to the achievement of long-lasting results. The actions happen predominantly in the school context and light technologies are used, such as interaction with teachers, health professionals and family members during the health education actions; mild-hard technologies such as puppet theater, dynamics, comics, drawing contests and practical demonstration and hard technologies like computer and multimedia programs.

This review showed that the association between light and hard technology obtained better results, which may appoint the familiarity of the current generation’s children and adolescents with technologies, as they live in different social and pedagogical environments, with access to several information sources.

As part of the children’s daily life, technology can be used as a tool to disseminate health knowledge. Nevertheless, its use does not waive interaction with health professionals, teachers and relatives, considering that, in the teaching-learning process, the technologies need to be used intentionally, so that the objectives can be achieved.


This research was supported by master grant (Rosalia Daniela Medeiros da Silva), in the Graduate Nursing Program at UFPE, Recife, Brazil, CAPES (Coordinator for the Improvement of the Higher Level Personnel)―Pro Education in Health, Brazil.

Cite this paper

Rosalia Daniela Medeiros da Silva,Estela Maria Leite Meirelles Monteiro,Luciana Pedrosa Leal,Francisca Márcia P. Linhares,Luciane Soares de Lima, (2016) Educational Technologies for Child Health Promotion: An Integrative Literature Review. Health,08,1104-1111. doi: 10.4236/health.2016.811115


  1. 1. Chiesa, A.M., Fracolli, L.A., Veríssimo, M.L.O.R., Zoboli, E.L.C.P., Avila, L.K. and Oliveira, A.A.P. (2009) A construcao de tecnologias de atencao em saúde com base na promocao da saúde. Revista da Escola de Enfermagem da USP, 43, 1352-1357.

  2. 2. Paula, E.M.A.T. (2007) Criancas e adolescentes que voam em jaulas: A tecnologia promovendo a liberdade no hospital. Cadernos CEDES, 27, 319-334.

  3. 3. Nogueira, P.C., Nagliate, P.C., Godoy, S., Rangel, E.M.L., Trevizan, M.A. and Mendes, I.A.C. (2013) Technology Use for Health Education to Caregivers: An Integrative Review of Nursing Literature. Applied Nursing Research, 26, 101-104.

  4. 4. Long, J.D., Boswel, C., Rogers, T.J., Littlefield, L.A., Estep, G., Shriver, B.J., et al. (2013) Effectiveness of Cell Phones and Mypyramidtracker. gov to Estimate Fruit and Vegetable Intake. Applied Nursing Research, 26, 17-23.

  5. 5. Harrington, S.A. (2013) Relationships of Objectively Measured Physical Activity and Sleep with BMI and Academic Outcomes in 8-Year-Old Children. Applied Nursing Research, 26, 63-70.

  6. 6. Bindler, R.C., Richardson, B., Daratha, K. and Wordell, D. (2012) Interdisciplinary Health Science Research Collaboration: Strengths, Challenges, and Case Example. Applied Nursing Research, 25, 95-100.

  7. 7. Wilson, L.L., Somerall, D., Theus, L., Rankin, S., Ngoma, C. and Chimwaza, A. (2014) Enhancing Global Health and Education in Malawi, Zambia, and the United States through and Interprofessional Global Health Exchange Program. Applied Nursing Research, 27, 97-103.

  8. 8. Fonseca, L.M.M., Silva, M.A.I., Mello, D.F., Leite, A.M., Lima, R.A.G. and Scochi, C.G.S. (2011) Tecnologia educacional em saúde: contribuicoes para a enfermagem pediátrica e neonatal. Escola Anna Nery, 15, 190-196.

  9. 9. Williams, O., Desorbo, A., Noble, J., Shaffer, M. and Gerin, W. (2012) Long-Term Learning of Stroke Knowledge among Children in a High-Risk Community. Neurology, 79, 802-806.

  10. 10. Macnab, A. and Kasangaki, A. (2012) “Many Voices, One Song”: A Model for an Oral Health Programme as a First Step in Establishing a Health Promoting School. Health Promotion, 27, 63-73.

  11. 11. Devault, N., Kennedy, T., Hermann, J., Mwavita, M., Rask, P. and Jaworsky, A. (2009) It’s All about Kids: Preventing Overweight in Elementary School Children in Tulsa, OK. Journal of the American Dietetic Association, 109, 680-687.

  12. 12. Hogg, J., Diaz, A., Del Cid, M., Mueller, C., Lipman, E.G., Cheruvu, S., et al. (2012) An After-School Dance and Lifestyle Education Program Reduces Risk Factors for Heart Disease and Diabetes in Elementary School Children. Journal of Pediatric Endocrinology and Metabolism, 25, 509-516.

  13. 13. Makuch, A., Reschke, K. and Rupf, S. (2011) Effective Teaching of Tooth-Brushing to Preschool Children. Journal of Dentistry for Children, 78, 9-12.

  14. 14. Parmer, S.M., Salisbury-Glennon, J., Shannon, D. and Struempler, B. (2009) School Gardens: An Experiential Learning Approach for a Nutrition Education Program to Increase Fruit and Vegetable Knowledge, Preference, and Consumption among Second-Grade Students. Journal of Nutrition Education and Behavior, 41, 212-272.

  15. 15. Morton, J.L. (2008) “I Feel Good!” a Weekly Wellness Radio Broadcast for Elementary School Children. The Journal of School Nursing, 24, 83-87.

  16. 16. Buller, M.K., Kane, I.L., Martin, R.C., Giese, A.J., Cutter, G.R., Saba, L.M., et al. (2008) Randomized Trial Evaluating Computer-Based Sun Safety Education for Children in Elementary School. Journal of Cancer Education, 23, 74-79.

  17. 17. Sichieri, R., Paula, A.T., Souza, R.A. and Veiga, G.V. (2009) School Randomised Trial on Prevention of Excessive Weight Gain by Discouraging Students from Drinking Sodas. Public Health Nutrition, 12, 197-202.

  18. 18. Maia, E.R., Junior, J.F.L., Pereira, J.S., Eloi, A.C., Gomes, C.C. and Nobre, M.M.F. (2012) Validacao de metodologias ativas de ensino-aprendizagem na promocao da saúde alimentar infantil. Rev. Nutr., 25, 79-88.

  19. 19. Barbosa, L.A., Sampaio, A.L.A., Melo, A.L.A., Macedo, A.P.N. and Machado, M.F.A.S. (2009) A educacao em saúde como instrumento na prevencao de parasitoses. RBPS, 22, 272-282.

  20. 20. Rebolho, M.C.T., Casarotto, R.A. and Joao, S.M.A. (2009) Estratégias para ensino de hábitos posturais em criancas: História em quadrinhos versus experiência prática. Fisioterapia e Pesquisa, 16, 46-51.

  21. 21. Nascimento, E.N.,Gimeniz-Paschoal, S.R., Sebastiao, L.T. and Ferreira, N.P. (2013) Inter-Sector Actions to Prevent Accidents in Children Education: Teacher’s Assessments and Students’ Knowledge. Journal of Human Growth and Development, 23, 99-106.

  22. 22. Merhy, E.E. and Onocko, R. (2002) Em busca de ferramentas analisadoras das tecnologias em saúde: A informacao e o dia a dia de um servico, interrogando e gerindo trabalho em saúde. Agir em saúde: Um desafio para o público, 2nd Edition, Hucitec, Sao Paulo, 113-150.

  23. 23. Stetler, C.B., Brunell, M., Giuliano, K.K., Morsi, D., Prince, L. and Newell-Stokes, V. (1998) Evidence-Based Practice and the Role of Nursing Leadership. Journal of Nursing Administration, 28, 45-53.

  24. 24. Pompeo, D.A. (2007) Diagnóstico de enfermagem náusea em pacientes no período pós-operatório imediato: Revisao integrativa da literatura. 185f. Dissertacao. (Mestrado em Enfermagem)-Escola de Enfermagem de Ribeirao Preto, Universidade de Sao Paulo, Ribeirao Preto.

  25. 25. Polit, D.F. and Beck, C.T. (2006) Using Research in Evidence-Based Nursing Practice. Essentials of Nursing Research. Methods, Appraisal and Utilization, Lippincott Williams & Wilkins, Philadelphia, 457-494.

  26. 26. Mendes, K.D.S., Silveira, R.C.C.P. and Galvao, C.M. (2008) Revisao integrativa: Método de pesquisa para a incorporacao de evidências na saúde e na enfermagem. Texto & Contexto Enfermagem, 17, 758-764.

  27. 27. Nietsche, E.A., Backes, V.M.S., Colomé, C.L.M., Ceratti, R.N. and Ferraz, F. (2005) Tecnologias educacionais, assistenciais e gerenciais: Uma reflexao a partir da concepcao dos docentes de enfermagem. Revista Latino-Americana de Enfermagem, 13, 344-352.

  28. 28. Pereira, C.P. and Oliveira, M.A.C. (2013) The Work of Community Health Agents in Health Promotion: An Integrative Literature Review. Revista Brasileira de Enfermagem, 66, 412-419.


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