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Volume 13, Issue 3 (2025)
Health Educ Health Promot 2025, 13(3): 487-494 |
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Received: 2025/07/1 | Accepted: 2025/08/12 | Published: 2025/08/20
Received: 2025/07/1 | Accepted: 2025/08/12 | Published: 2025/08/20
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Yulianto B, Saadah N, Suhron M, Prasetyo A, Khasanah U. Sustainability Awareness in Dengue Prevention Through Structural Equation Modeling Analysis of Social Capital Model. Health Educ Health Promot 2025; 13 (3) :487-494
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1- Department of Nursing, Faculty of Nursing, Surabaya Ministry of Health Polytechnic of Health, Surabaya, Indonesia
2- Department of Nursing, Faculty of Nursing, Noor Huda Mustofa University, Bangkalan, Indonesia
2- Department of Nursing, Faculty of Nursing, Noor Huda Mustofa University, Bangkalan, Indonesia
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Introduction
The social capital model (SCM)-based prevention approach has emerged as a developing strategy in modern Dengue hemorrhagic fever (DHF) prevention. The concept of the SCM emphasizes Sustainability Awareness in an intense, comprehensive, and non-judgmental manner. The integration of SCM in Dengue prevention aims to create balance and enhance Sustainability Awareness in Dengue prevention [1]. In the context of public health prevention and promotion, this approach benefits not only patients with physiological disorders but also the community and health workers who face the daily challenges of preventing the spread of larvae and breaking the transmission chain of the Aedes mosquito [2].
The implementation of SCM-based prevention significantly influences the enhancement of sustainability awareness in social communities [3]. Community members often struggle with emotional regulation, recognizing maladaptive thoughts, and establishing healthy interpersonal relationships. By implementing SCM-based prevention, patients and communities are encouraged to become aware of and recognize their thoughts without succumbing to harmful automatic responses [4]. Increasing the adoption of SCM-based prevention fosters systematic awareness of thoughts, helping patients and communities improve emotional regulation and reduce maladaptive behaviors. Research indicates that this type of intervention can effectively enhance sustainability awareness among patients and communities within social settings [5].
Another impact of integrating SCM-based prevention into public health, in the form of prevention and health promotion, is reflected in the increased awareness among patients and communities to participate in preventing the spread of DHF and actively engage in breaking the transmission chain of the disease [6]. This awareness is fostered through collective efforts in the community, driven by a greater emotional presence, heightened empathy, and improved personal psychological management [7]. The quality of SCM-based prevention implementation relies on patient awareness, as the involvement of the social community in DHF prevention is a crucial component supporting the overall prevention process [8].
Within the framework of this prevention model, the engagement of patients and communities cultivates awareness and facilitates the exploration of feelings without fear of judgment. This approach has proven effective in building trust and fostering open, meaningful two-way communication [9]. The SCM-based prevention model in public health serves as a means of prevention and health promotion, as evidenced by the increased awareness among patients and communities, which creates space for self-reflection, enhances recognition of personal and professional boundaries, and improves the ability to identify stress signals early [10]. There is a rise in awareness among patients and within the social community involved in DHF prevention [11].
The effectiveness of SCM-based prevention is also closely linked to system and organizational support. The implementation of SCM-based prevention programs in healthcare institutions must be accompanied by supportive policies, ongoing training, and the establishment of a culture of patient and community awareness regarding prevention [12]. The success of prevention implementation in public health services depends not only on individual capacity but also on the organization’s commitment to integrating it into a holistic care system [13]. The positive impact of SCM-based prevention in community nursing can be observed through neuropsychological dimensions. Implementation of SCM-based prevention has been shown to enhance awareness related to emotional regulation, particularly in areas, such as the medial prefrontal cortex and anterior cingulate cortex [14]. These changes correlate with an individual’s ability to manage stress, reduce reactivity to negative stimuli, and increase cognitive flexibility in prevention efforts [15].
The SCM-based prevention model also contributes to reducing internalized stigma among patients and the community by raising awareness of DHF prevention. Through a non-judgmental, awareness-based approach, patients are encouraged to accept their condition without blame or judgment [16]. This fosters increased self-esteem and motivation to enhance awareness of DHF prevention. When patients and the community embrace these principles, a more inclusive, open, and prejudice-free environment is created [17]. The SCM-based prevention model within a service culture can establish a strong social support system, which accelerates the psychosocial recovery process, particularly in prevention efforts [18].
The SCM-based prevention model also enhances awareness in ethical decision-making. Patients and the public are more likely to calmly recognize moral dilemmas and consider various perspectives before taking action [19]. This is crucial in the context of prevention, which often involves challenging decisions regarding patient rights, safety, and the balance between individual freedom and compliance with the implemented prevention measures. The implementation of SCM-based prevention encourages patients and the public to act not only based on technical rules but also from a place of heightened awareness and professional responsibility [20].
Developing and implementing SCM-based prevention requires a systematic and evidence-based educational approach. An effective training curriculum should include a theoretical understanding of SCM-based prevention as well as mentoring by experienced facilitators [21]. Evaluation of program success can be conducted by measuring psychological indicators such as work stress, anxiety, awareness, and life satisfaction, along with clinical performance indicators like documentation quality, inter-team communication, and adherence to DHF prevention standards. Positive evaluation results will serve as the foundation for strengthening policies and expanding the program to other service units [22].
The SCM-based prevention model also creates opportunities for cross-disciplinary collaboration among nurses, psychologists, psychiatrists, and occupational therapists. This interdisciplinary approach allows each profession to contribute according to their competencies, grounded in the principle of awareness. This strengthens team unity in assisting the implementation process of SCM-based prevention and fosters mutual support. Awareness serves as a shared language that connects healing efforts within a bio-psychosocial-spiritual framework [23].
In the long term, the SCM-based prevention model not only enhances awareness but also fosters a more reflective, self-aware, and resilient identity and responsibility among patients and communities in DHF prevention. This transformation reflects a shift in values from merely being physical and psychological healers to becoming recovery companions who are fully present for both patients and themselves [24]. Amid the dynamics of global health challenges, this approach promotes awareness among patients and the community of a more humane, sustainable, and meaningful prevention system for all parties involved [25].
This study aimed to analyze in depth the impact of SCM-based prevention implementation on patient and community awareness. The primary focus is on how SCM-based prevention implementation can enhance awareness of DHF prevention and strengthen therapeutic relationships. Furthermore, this investigation sought to identify the types of systemic support necessary to achieve the sustainable implementation of SCM-based prevention programs in healthcare settings. By mapping the relationship between SCM-based prevention practices and indicators of psychosocial well-being, this study is expected to provide both theoretical and practical contributions to the development of a more humanistic and evidence-based prevention model.
Materials and Methods
Study design and participants
This observational study was conducted on 140 patients selected using area or cluster sampling from five public health centers in East Java province. This population selection was based on the understanding that both patients and their companions play a crucial role in awareness and rapid decision-making.
The inclusion criteria consisted of all female patients who resided in the same household, were receiving treatment, were under 20 years of age, and had the considered education level.
The number of public health centers was five community health centers in East Java province, which are located in close proximity to each other.
Respondents with cognitive impairments or severe communication barriers were excluded from the research sample [26].
Cluster sampling strategies are employed when the item being researched or the data being collected involves a very large population, such as the population of a district, province, or nation. To select the population that would serve as the data source, samples are obtained from predefined populated locations [27].
From the existing population, a sample size of 140 respondents was determined, divided proportionally among each community health center, with an average of approximately 28 respondents per center. This number was deemed sufficient to support the quantitative analysis, particularly in testing the correlation between the implementation of SCM-based prevention and patient and community awareness.
Data collection
The present investigation utilized a primary data model derived from a questionnaire administered to respondents. Questionnaires are a method of evidence collection conducted by providing a set of questions for participants to respond to. The questionnaire was created in the form of a Google Form.
Prior to distributing the questionnaire, reliability and validity assessments were conducted to ensure the effectiveness and consistency of the measurement tool. The Cronbach’s alpha test was used to assess reliability, along with factor analysis and construct validity. The survey in question had been validated through exploratory methods to confirm its reliability and applicability for the context of this research. Furthermore, specific guidelines were followed to ensure appropriate representation when selecting community health facilities. The criteria used included classifying community health facilities by type, physical location, and the number of patients. This selection of community health centers influenced the generalizability of the study results, as the findings were more relevant to community health centers with similar characteristics. This should be taken into account when drawing broader conclusions from the results of this study.
This study utilized tools developed from SCM-based prevention, including closed questions with a Likert scale. Data were collected using these tools, which were scored as follows: 1=strongly disagree, 2=disagree, 3=neither agree nor disagree, 4=agree, and 5=strongly agree. Approximately 95% accuracy, sensitivity, and specificity were achieved through criterion-related validity testing. Measures of demographic parameters, such as age and education were included, while factors related to SCM-based prevention, such as values, belief systems, cooperation, participation, perception, and satisfaction, demonstrated discriminant validity. A single-factor unidimensional model with a factor score of 0.953 exhibited structural validity. Both inter-rater reliability (Krippendorff’s alpha=0.872) and internal consistency (Cronbach’s alpha=0.931; Spearman-Brown coefficient=0.947; Guttman split-half coefficient=0.927) showed excellent results.
Data collection
Researchers distributed the questionnaires to respondents at five public health centers in East Java. A brief description of the arrangement and types of questions used in the Google Form may help clarify how the data was collected. This questionnaire included closed-ended questions with a Likert scale, multiple-choice questions, and open-ended questions. The use of these types of questions enabled researchers to obtain quantifiable data. All methods were performed in accordance with the relevant guidelines and regulations.
Statistical analysis
Smart partial least squares (PLS) software was used to test the correlation between research parameters and to validate the hypothesis proposed by the researcher regarding the SCM-based prevention. Regression analyses were conducted to obtain valid data related to the questionnaire value indicators, using a Likert scale approach. This structural equation modeling (SEM) model was designed to investigate the relationships among factors, whereby SEM was used to evaluate the structure of the relationship between the hypothesized dependent and independent parameters. SEM enables researchers to assess complicated models that incorporate numerous latent parameters and causal linkages, while also addressing both measurement error and construct validity concurrently. This SEM structure is ideal for evaluating complex predictions and for gaining a better understanding of the dynamics of the parameters in this investigation.
Findings
Most participants were from the 20-35 age group (83%), which fell within the productive age range. From an educational perspective, most respondents had a high school academic background (72%), suggesting that the majority had a solid foundation of information. Although nearly half were housewives (56.8%), mothers played a crucial role in raising awareness and influencing respondents’ perspectives as policymakers. Values showed good results (61% or higher), the belief system scored well (63%), cooperation was rated positively (58%), participation was good (68%), perception had a lower score (23%), satisfaction was rated positively (71%), and sustainability awareness scored well (77%; Table 1).
Table 1. Frequency of the studied parameters
![src=./files/hehp/images/HTML_Publish/82143/1.png]()
Analysis of construct reliability, through analysis of Cronbach’s Alpha, composite reliability, Rho A, and average variance extracted (AVE), showed that all indicators in each construct had a good level of reliability. The internal consistency of each construct was in the very adequate category, suggesting that the items were able to measure the intended aspects stably. Composite reliability further supported this finding, with high values across all constructs, indicating that the measurement parameters had strong composite reliability in reflecting the latent construct.
Additionally, the Rho A values provided further confirmation of internal consistency and supported the accuracy of the reliability estimates used in the partial least squares structural equation modeling (PLS-SEM) approach. The indicators consistently measured important dimensions in the SCM-based prevention. This was evident from the representation of measurements, such as the suitability of the program to nursing practice, the frequency of application of mindfulness techniques in clinical interactions, and the active involvement of nurses in private practice.
All constructs also showed AVE values above the minimum threshold of 0.50, indicating that a sufficiently high proportion of the indicator variance was explained by the latent construct. Thus, the convergent validity of all constructs was adequately achieved. This reliability and validity indicated that the instrument used was reliable for measuring the SCM-based prevention (Table 2 and Figure 1).
Table 2. Composite reliability and Cronbach’s alpha examination
![src=./files/hehp/images/HTML_Publish/82143/2.png]()
![src=./files/hehp/images/HTML_Publish/82143/f1.png]()
Figure 1. Social capital model (SCM).
All indicators in the SCM-based prevention model had a significant correlation with patient and community awareness. The belief system in clinical interactions played a significant role in enhancing the quality of DHF prevention services. Furthermore, the support from cooperation for the SCM-based prevention reflected a significant correlation. Similarly, participation was significant, indicating that patients and the community engaged in training and resources. The active involvement of patients and the community in SCM-based prevention was also found to be significant, illustrating the direct experience and internalization of the SCM-based prevention concept. Perception further strengthened the evidence, demonstrating that patient and community perceptions contributed positively to the SCM-based prevention. Finally, patient and community satisfaction also exhibited a significant positive impact, indicating that the application of the principles of SCM-based prevention from the planning stage provided added value to satisfaction in a holistic therapeutic approach (Table 3).
Table 3. Results of hypothesis testing
![src=./files/hehp/images/HTML_Publish/82143/3.png]()
Discussion
This study aimed to analyze in depth the impact of SCM-based prevention implementation on patient and community awareness. The SCM to increase sustainability awareness in DHF prevention significantly enhanced patient and community awareness. SEM results indicated that all independent parameters—value (X1), belief system (X2), cooperation (X3), participation (X4), perception (X5), and satisfaction (X6)—had a significant positive influence on the outcomes. The high coefficient of determination demonstrated that the model could explain much of the variability in the results, indicating that the SCM-based prevention approach was not merely an additional intervention but a core component that could enhance patient and community awareness more effectively and sustainably. This finding was consistent with earlier studies, demonstrating that various aspects of social capital, aligned with the community’s characteristics, have the potential to affect DHF management. Social capital is increasingly recognized as a clear target, a mediator, or an organizational factor at both the individual and community levels. Most interventions aimed to directly improve social capital to influence regulatory outcomes, program acceptance, and maintenance. Enhancing social capital was critical for overcoming barriers to successful community involvement, strengthening the role of DHF control, and sustaining long-term participation [28]. This was supported by other research conducted in Mexico, finding significant connections between social capital and several perceptions, including family, illness, individual, environment, and larva density.
There was a significant relationship between counselor perception, as well as dengue programs and family perspectives, with environmental involvement being the most influential element. Based on the route analysis for prospective regions, social capital was beneficial in raising the larval-free index through a family perspective. Ideally, the social capital strategy could be much more successful in increasing the number of free larvae indices through community interaction. In prospective regions, social capital was found to be more effective at increasing the larva index through human engagement. In endemic locations, dengue programs improved the larval index more efficiently than social capital. Enhancing social capital was important, as it effectively expanded the coverage of the larva index through environmental engagement in both sectors [29].
Slightly differing from the study in Ecuador, which identified key policy and management recommendations to guide the ongoing transition to decentralized dengue control programs in Ecuador and other dengue-endemic countries [30], the situation in the State of Minas Gerais, Brazil, demonstrated that the rise in dengue incidence is closely linked to areas with increased socioeconomic vulnerability and a higher number of working adults. Furthermore, the condition was more severe among those who self-identified as Black, elderly, and male. The findings of this study may be useful for health services in developing control and preventive measures for this issue, focusing on the most susceptible metropolitan regions and demographic categories [31]. However, in Australia, the socioeconomic impact of dengue necessitates a holistic approach that integrates public health measures with strategies to strengthen healthcare systems, improve sanitation infrastructure, and address social determinants of health [32].
There were still other documented incidents in Brazil. Recognition and understanding of the disease’s spatial and temporal trends in the region aided in assessing the behavior of infections in high-risk areas, supporting targeted treatments and the allocation of resources for dengue control efforts. It was critical to support future research that assessed the disease’s risk using quantitative data. Such research contributed to shaping health policies aimed at managing and preventing dengue, ultimately improving public health outcomes [33].
In comparison with other findings, geographic distribution and risk areas for disease transmission were identified across the state. These findings could assist in organizing long-term initiatives and implementing programmatic and/or governmental policies to limit dengue incidence in the community [34]. The relational aspects of scientific social capital, the intellectual component of institutional social capital, the connections and cognitive dimensions of market-based social capital, and the performance of innovation were all influenced by the structural and cognitive dimensions of technical social capital, the structural and relational dimensions of institutional social capital, and innovation performance.
In contrast to the results of the Florida study, finding strong agreement on core dengue prevention strategies, it also highlighted differences in preferences and priorities [35]. According to the innovation ecology approach, environmental dynamics positively influence the relationship between knowledge management capabilities and innovation performance. When environmental dynamics are stronger, knowledge management competence has a greater beneficial influence on innovation performance, and vice versa [36]. Information about health may help to transform beliefs, build social capital, and maintain a healthy home environment. It is critical to raise public knowledge and engagement in DHF management efforts [37].
In contrast to the satisfaction dimension, we emphasized significant relationships within the convenience, accessibility, and technical features of i
The social capital model (SCM)-based prevention approach has emerged as a developing strategy in modern Dengue hemorrhagic fever (DHF) prevention. The concept of the SCM emphasizes Sustainability Awareness in an intense, comprehensive, and non-judgmental manner. The integration of SCM in Dengue prevention aims to create balance and enhance Sustainability Awareness in Dengue prevention [1]. In the context of public health prevention and promotion, this approach benefits not only patients with physiological disorders but also the community and health workers who face the daily challenges of preventing the spread of larvae and breaking the transmission chain of the Aedes mosquito [2].
The implementation of SCM-based prevention significantly influences the enhancement of sustainability awareness in social communities [3]. Community members often struggle with emotional regulation, recognizing maladaptive thoughts, and establishing healthy interpersonal relationships. By implementing SCM-based prevention, patients and communities are encouraged to become aware of and recognize their thoughts without succumbing to harmful automatic responses [4]. Increasing the adoption of SCM-based prevention fosters systematic awareness of thoughts, helping patients and communities improve emotional regulation and reduce maladaptive behaviors. Research indicates that this type of intervention can effectively enhance sustainability awareness among patients and communities within social settings [5].
Another impact of integrating SCM-based prevention into public health, in the form of prevention and health promotion, is reflected in the increased awareness among patients and communities to participate in preventing the spread of DHF and actively engage in breaking the transmission chain of the disease [6]. This awareness is fostered through collective efforts in the community, driven by a greater emotional presence, heightened empathy, and improved personal psychological management [7]. The quality of SCM-based prevention implementation relies on patient awareness, as the involvement of the social community in DHF prevention is a crucial component supporting the overall prevention process [8].
Within the framework of this prevention model, the engagement of patients and communities cultivates awareness and facilitates the exploration of feelings without fear of judgment. This approach has proven effective in building trust and fostering open, meaningful two-way communication [9]. The SCM-based prevention model in public health serves as a means of prevention and health promotion, as evidenced by the increased awareness among patients and communities, which creates space for self-reflection, enhances recognition of personal and professional boundaries, and improves the ability to identify stress signals early [10]. There is a rise in awareness among patients and within the social community involved in DHF prevention [11].
The effectiveness of SCM-based prevention is also closely linked to system and organizational support. The implementation of SCM-based prevention programs in healthcare institutions must be accompanied by supportive policies, ongoing training, and the establishment of a culture of patient and community awareness regarding prevention [12]. The success of prevention implementation in public health services depends not only on individual capacity but also on the organization’s commitment to integrating it into a holistic care system [13]. The positive impact of SCM-based prevention in community nursing can be observed through neuropsychological dimensions. Implementation of SCM-based prevention has been shown to enhance awareness related to emotional regulation, particularly in areas, such as the medial prefrontal cortex and anterior cingulate cortex [14]. These changes correlate with an individual’s ability to manage stress, reduce reactivity to negative stimuli, and increase cognitive flexibility in prevention efforts [15].
The SCM-based prevention model also contributes to reducing internalized stigma among patients and the community by raising awareness of DHF prevention. Through a non-judgmental, awareness-based approach, patients are encouraged to accept their condition without blame or judgment [16]. This fosters increased self-esteem and motivation to enhance awareness of DHF prevention. When patients and the community embrace these principles, a more inclusive, open, and prejudice-free environment is created [17]. The SCM-based prevention model within a service culture can establish a strong social support system, which accelerates the psychosocial recovery process, particularly in prevention efforts [18].
The SCM-based prevention model also enhances awareness in ethical decision-making. Patients and the public are more likely to calmly recognize moral dilemmas and consider various perspectives before taking action [19]. This is crucial in the context of prevention, which often involves challenging decisions regarding patient rights, safety, and the balance between individual freedom and compliance with the implemented prevention measures. The implementation of SCM-based prevention encourages patients and the public to act not only based on technical rules but also from a place of heightened awareness and professional responsibility [20].
Developing and implementing SCM-based prevention requires a systematic and evidence-based educational approach. An effective training curriculum should include a theoretical understanding of SCM-based prevention as well as mentoring by experienced facilitators [21]. Evaluation of program success can be conducted by measuring psychological indicators such as work stress, anxiety, awareness, and life satisfaction, along with clinical performance indicators like documentation quality, inter-team communication, and adherence to DHF prevention standards. Positive evaluation results will serve as the foundation for strengthening policies and expanding the program to other service units [22].
The SCM-based prevention model also creates opportunities for cross-disciplinary collaboration among nurses, psychologists, psychiatrists, and occupational therapists. This interdisciplinary approach allows each profession to contribute according to their competencies, grounded in the principle of awareness. This strengthens team unity in assisting the implementation process of SCM-based prevention and fosters mutual support. Awareness serves as a shared language that connects healing efforts within a bio-psychosocial-spiritual framework [23].
In the long term, the SCM-based prevention model not only enhances awareness but also fosters a more reflective, self-aware, and resilient identity and responsibility among patients and communities in DHF prevention. This transformation reflects a shift in values from merely being physical and psychological healers to becoming recovery companions who are fully present for both patients and themselves [24]. Amid the dynamics of global health challenges, this approach promotes awareness among patients and the community of a more humane, sustainable, and meaningful prevention system for all parties involved [25].
This study aimed to analyze in depth the impact of SCM-based prevention implementation on patient and community awareness. The primary focus is on how SCM-based prevention implementation can enhance awareness of DHF prevention and strengthen therapeutic relationships. Furthermore, this investigation sought to identify the types of systemic support necessary to achieve the sustainable implementation of SCM-based prevention programs in healthcare settings. By mapping the relationship between SCM-based prevention practices and indicators of psychosocial well-being, this study is expected to provide both theoretical and practical contributions to the development of a more humanistic and evidence-based prevention model.
Materials and Methods
Study design and participants
This observational study was conducted on 140 patients selected using area or cluster sampling from five public health centers in East Java province. This population selection was based on the understanding that both patients and their companions play a crucial role in awareness and rapid decision-making.
The inclusion criteria consisted of all female patients who resided in the same household, were receiving treatment, were under 20 years of age, and had the considered education level.
The number of public health centers was five community health centers in East Java province, which are located in close proximity to each other.
Respondents with cognitive impairments or severe communication barriers were excluded from the research sample [26].
Cluster sampling strategies are employed when the item being researched or the data being collected involves a very large population, such as the population of a district, province, or nation. To select the population that would serve as the data source, samples are obtained from predefined populated locations [27].
From the existing population, a sample size of 140 respondents was determined, divided proportionally among each community health center, with an average of approximately 28 respondents per center. This number was deemed sufficient to support the quantitative analysis, particularly in testing the correlation between the implementation of SCM-based prevention and patient and community awareness.
Data collection
The present investigation utilized a primary data model derived from a questionnaire administered to respondents. Questionnaires are a method of evidence collection conducted by providing a set of questions for participants to respond to. The questionnaire was created in the form of a Google Form.
Prior to distributing the questionnaire, reliability and validity assessments were conducted to ensure the effectiveness and consistency of the measurement tool. The Cronbach’s alpha test was used to assess reliability, along with factor analysis and construct validity. The survey in question had been validated through exploratory methods to confirm its reliability and applicability for the context of this research. Furthermore, specific guidelines were followed to ensure appropriate representation when selecting community health facilities. The criteria used included classifying community health facilities by type, physical location, and the number of patients. This selection of community health centers influenced the generalizability of the study results, as the findings were more relevant to community health centers with similar characteristics. This should be taken into account when drawing broader conclusions from the results of this study.
This study utilized tools developed from SCM-based prevention, including closed questions with a Likert scale. Data were collected using these tools, which were scored as follows: 1=strongly disagree, 2=disagree, 3=neither agree nor disagree, 4=agree, and 5=strongly agree. Approximately 95% accuracy, sensitivity, and specificity were achieved through criterion-related validity testing. Measures of demographic parameters, such as age and education were included, while factors related to SCM-based prevention, such as values, belief systems, cooperation, participation, perception, and satisfaction, demonstrated discriminant validity. A single-factor unidimensional model with a factor score of 0.953 exhibited structural validity. Both inter-rater reliability (Krippendorff’s alpha=0.872) and internal consistency (Cronbach’s alpha=0.931; Spearman-Brown coefficient=0.947; Guttman split-half coefficient=0.927) showed excellent results.
Data collection
Researchers distributed the questionnaires to respondents at five public health centers in East Java. A brief description of the arrangement and types of questions used in the Google Form may help clarify how the data was collected. This questionnaire included closed-ended questions with a Likert scale, multiple-choice questions, and open-ended questions. The use of these types of questions enabled researchers to obtain quantifiable data. All methods were performed in accordance with the relevant guidelines and regulations.
Statistical analysis
Smart partial least squares (PLS) software was used to test the correlation between research parameters and to validate the hypothesis proposed by the researcher regarding the SCM-based prevention. Regression analyses were conducted to obtain valid data related to the questionnaire value indicators, using a Likert scale approach. This structural equation modeling (SEM) model was designed to investigate the relationships among factors, whereby SEM was used to evaluate the structure of the relationship between the hypothesized dependent and independent parameters. SEM enables researchers to assess complicated models that incorporate numerous latent parameters and causal linkages, while also addressing both measurement error and construct validity concurrently. This SEM structure is ideal for evaluating complex predictions and for gaining a better understanding of the dynamics of the parameters in this investigation.
Findings
Most participants were from the 20-35 age group (83%), which fell within the productive age range. From an educational perspective, most respondents had a high school academic background (72%), suggesting that the majority had a solid foundation of information. Although nearly half were housewives (56.8%), mothers played a crucial role in raising awareness and influencing respondents’ perspectives as policymakers. Values showed good results (61% or higher), the belief system scored well (63%), cooperation was rated positively (58%), participation was good (68%), perception had a lower score (23%), satisfaction was rated positively (71%), and sustainability awareness scored well (77%; Table 1).
Table 1. Frequency of the studied parameters
Analysis of construct reliability, through analysis of Cronbach’s Alpha, composite reliability, Rho A, and average variance extracted (AVE), showed that all indicators in each construct had a good level of reliability. The internal consistency of each construct was in the very adequate category, suggesting that the items were able to measure the intended aspects stably. Composite reliability further supported this finding, with high values across all constructs, indicating that the measurement parameters had strong composite reliability in reflecting the latent construct.
Additionally, the Rho A values provided further confirmation of internal consistency and supported the accuracy of the reliability estimates used in the partial least squares structural equation modeling (PLS-SEM) approach. The indicators consistently measured important dimensions in the SCM-based prevention. This was evident from the representation of measurements, such as the suitability of the program to nursing practice, the frequency of application of mindfulness techniques in clinical interactions, and the active involvement of nurses in private practice.
All constructs also showed AVE values above the minimum threshold of 0.50, indicating that a sufficiently high proportion of the indicator variance was explained by the latent construct. Thus, the convergent validity of all constructs was adequately achieved. This reliability and validity indicated that the instrument used was reliable for measuring the SCM-based prevention (Table 2 and Figure 1).
Table 2. Composite reliability and Cronbach’s alpha examination
Figure 1. Social capital model (SCM).
All indicators in the SCM-based prevention model had a significant correlation with patient and community awareness. The belief system in clinical interactions played a significant role in enhancing the quality of DHF prevention services. Furthermore, the support from cooperation for the SCM-based prevention reflected a significant correlation. Similarly, participation was significant, indicating that patients and the community engaged in training and resources. The active involvement of patients and the community in SCM-based prevention was also found to be significant, illustrating the direct experience and internalization of the SCM-based prevention concept. Perception further strengthened the evidence, demonstrating that patient and community perceptions contributed positively to the SCM-based prevention. Finally, patient and community satisfaction also exhibited a significant positive impact, indicating that the application of the principles of SCM-based prevention from the planning stage provided added value to satisfaction in a holistic therapeutic approach (Table 3).
Table 3. Results of hypothesis testing
Discussion
This study aimed to analyze in depth the impact of SCM-based prevention implementation on patient and community awareness. The SCM to increase sustainability awareness in DHF prevention significantly enhanced patient and community awareness. SEM results indicated that all independent parameters—value (X1), belief system (X2), cooperation (X3), participation (X4), perception (X5), and satisfaction (X6)—had a significant positive influence on the outcomes. The high coefficient of determination demonstrated that the model could explain much of the variability in the results, indicating that the SCM-based prevention approach was not merely an additional intervention but a core component that could enhance patient and community awareness more effectively and sustainably. This finding was consistent with earlier studies, demonstrating that various aspects of social capital, aligned with the community’s characteristics, have the potential to affect DHF management. Social capital is increasingly recognized as a clear target, a mediator, or an organizational factor at both the individual and community levels. Most interventions aimed to directly improve social capital to influence regulatory outcomes, program acceptance, and maintenance. Enhancing social capital was critical for overcoming barriers to successful community involvement, strengthening the role of DHF control, and sustaining long-term participation [28]. This was supported by other research conducted in Mexico, finding significant connections between social capital and several perceptions, including family, illness, individual, environment, and larva density.
There was a significant relationship between counselor perception, as well as dengue programs and family perspectives, with environmental involvement being the most influential element. Based on the route analysis for prospective regions, social capital was beneficial in raising the larval-free index through a family perspective. Ideally, the social capital strategy could be much more successful in increasing the number of free larvae indices through community interaction. In prospective regions, social capital was found to be more effective at increasing the larva index through human engagement. In endemic locations, dengue programs improved the larval index more efficiently than social capital. Enhancing social capital was important, as it effectively expanded the coverage of the larva index through environmental engagement in both sectors [29].
Slightly differing from the study in Ecuador, which identified key policy and management recommendations to guide the ongoing transition to decentralized dengue control programs in Ecuador and other dengue-endemic countries [30], the situation in the State of Minas Gerais, Brazil, demonstrated that the rise in dengue incidence is closely linked to areas with increased socioeconomic vulnerability and a higher number of working adults. Furthermore, the condition was more severe among those who self-identified as Black, elderly, and male. The findings of this study may be useful for health services in developing control and preventive measures for this issue, focusing on the most susceptible metropolitan regions and demographic categories [31]. However, in Australia, the socioeconomic impact of dengue necessitates a holistic approach that integrates public health measures with strategies to strengthen healthcare systems, improve sanitation infrastructure, and address social determinants of health [32].
There were still other documented incidents in Brazil. Recognition and understanding of the disease’s spatial and temporal trends in the region aided in assessing the behavior of infections in high-risk areas, supporting targeted treatments and the allocation of resources for dengue control efforts. It was critical to support future research that assessed the disease’s risk using quantitative data. Such research contributed to shaping health policies aimed at managing and preventing dengue, ultimately improving public health outcomes [33].
In comparison with other findings, geographic distribution and risk areas for disease transmission were identified across the state. These findings could assist in organizing long-term initiatives and implementing programmatic and/or governmental policies to limit dengue incidence in the community [34]. The relational aspects of scientific social capital, the intellectual component of institutional social capital, the connections and cognitive dimensions of market-based social capital, and the performance of innovation were all influenced by the structural and cognitive dimensions of technical social capital, the structural and relational dimensions of institutional social capital, and innovation performance.
In contrast to the results of the Florida study, finding strong agreement on core dengue prevention strategies, it also highlighted differences in preferences and priorities [35]. According to the innovation ecology approach, environmental dynamics positively influence the relationship between knowledge management capabilities and innovation performance. When environmental dynamics are stronger, knowledge management competence has a greater beneficial influence on innovation performance, and vice versa [36]. Information about health may help to transform beliefs, build social capital, and maintain a healthy home environment. It is critical to raise public knowledge and engagement in DHF management efforts [37].
In contrast to the satisfaction dimension, we emphasized significant relationships within the convenience, accessibility, and technical features of i