Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-11-23T20:46:08.588Z Has data issue: false hasContentIssue false

Ready or Not? The Emergency Preparedness State-of-art Among Italian Public Health Medical Residents

Published online by Cambridge University Press:  18 November 2024

Nunzio Zotti*
Affiliation:
Department of Translational Research and New Surgical and Medical Technologies, University of Pisa, Italy
Stefano Guicciardi
Affiliation:
Health Directorate, Local Health Authority of Bologna, Bologna, Italy Department of Biomedical and Neuromotor Sciences, University of Bologna, Bologna, Italy
Francesca Di Serafino
Affiliation:
Department of Translational Research and New Surgical and Medical Technologies, University of Pisa, Italy
Dorian Bardhi
Affiliation:
Hospital Health Management Area, University Hospital of Marche, Ancona, Italy
Annalisa Iagnemma
Affiliation:
Department of Life, Health and Environmental Sciences, University of L’Aquila, Italy
Riccardo Mimmo
Affiliation:
Department of public health science, University of Turin, Italy
Andrea Sanna
Affiliation:
Post Graduate School of Public Health, University of Siena, Italy
Giuseppa Granvillano
Affiliation:
Department of Medical and Surgical Sciences and Advanced Technologies “GF Ingrassia”, University of Catania, Italy
Francesco Rosiello
Affiliation:
Department of Public Health and Infectious Disease, Sapienza-University of Rome, Italy
Beatrice Volpi
Affiliation:
Department of Diagnostics and Public Health, University of Verona, Italy
Salvatore Zichichi
Affiliation:
Department of Medicine and Surgery, University of Perugia, Italy
Caterina Rizzo
Affiliation:
Department of Translational Research and New Surgical and Medical Technologies, University of Pisa, Italy
Silvio Tafuri
Affiliation:
Interdisciplinary Department of Medicine, University of Bari “Aldo Moro”, Italy
*
Corresponding author: Nunzio Zotti; Emails: [email protected]; [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Objectives

Italy often experiences major events, such as earthquakes, floods, and migrant shipwrecks. Current and future global challenges for health workers are made up by climate change, pandemics, and wars. In this work, we will assess the state-of-art of training and interest towards these challenges among Italian post-degree public health schools.

Methods

A cross-sectional survey was conducted in Italy in June 2023 among Italian public health residents. The study investigated training levels and updates regarding emergencies in Italian residencies. It also analyzed interest and importance of topic, impact of the COVID-19 pandemic, and sources of information.

Results

Of 289 respondents, 86.2% deemed the topic important and 74.4% expressed interest. 90.1% pointed out the lack of dedicated courses and 93.1% of specialized master’s programs. Perceived importance in the topic was associated with the desire to attend dedicated conferences. As for COVID-19, 24.6% recognized the importance of this topic pre-pandemic, while 50.9% raised awareness during the pandemic.

Conclusions

This survey shows the need for the offer of emergency training programs in Italian public health schools. Professionals in public health can make a great contribution to emergencies, not only in preparedness, but also in response and recovery phases.

Type
Original Research
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of Society for Disaster Medicine and Public Health, Inc

Disaster medicine integrates multiple disciplines to maintain health services and reduce health impacts before and after disasters, as guided by the Sendai Framework for Disaster Risk Reduction.1 Disaster medicine aims to reduce casualties and strengthen infrastructure despite systematization challenges and slow progress.Reference Ryan, Kako and Garner2 It anticipates rapid institutional and academic advancements in the coming decades.Reference Kocak, Kinik and Caliskan3 These advancements are expected to be particularly significant in the field of education.Reference Biswas, Bahouth and Solomonov4

Public health professionals have a primary role in response and preparedness to emergencies. They manage disease prevention and control, especially the mitigation of outbreak risk during crises. Assessing health risks and implementing effective public health interventions could reduce morbidity and mortality among affected populations.Reference Khan, O’Sullivan and Brown5 Furthermore, public health professionals could collaborate with government agencies, NGOs, and local communities to ensure an integrated response approach, meeting specific needs of affected populations. This would improve the effectiveness of interventions and promote community resilience.

Benefits of disaster preparedness for healthcare professionals are widely underscored, advocating for wider team inclusion and emphasizing real-time evaluations and validated tools to refine preparedness practices.Reference Gowing, Walker and Elmer6 The impact of natural events and the consequences of uncontrolled anthropization in certain regions of the planet highlight the urgent need to integrate disaster medicine, the specialized field of medical practice focused on the planning, management, and delivery of health care services during natural or human-made disasters, and Public Health Emergency Preparedness (PHEP), defined in the literature as “the capability of the public health and health care systems, communities, and individuals, to prevent, protect against, quickly respond to, and recover from health emergencies, particularly those whose scale, timing, or unpredictability threatens to overwhelm routine capabilities.”Reference Nelson, Lurie and Wasserman7 This may be obtained by developing competence standards, health professional certification, dedicated research organizations, and quality assurance in disaster response. From this perspective, public health can be considered an essential component of disaster medicine, encompassing all the dimensions (medical, social, political, and economical) that could be affected by a single event.

Post-Hurricane Katrina, the American Medical Association formulated an educational framework and competencies for diverse health professionals, emphasizing the need for ongoing refinement and recognizing preparedness as a continuous process.Reference Subbarao, Lyznicki and Hsu8 After Hurricanes Florence and Dorian, public health leadership faced major disruptions within emergency operation centers, with the establishment of shelters for staff, particularly for nurses, being a major challenge local health authorities.Reference Clay, Stone and Horney9

Recent epidemics underscore the health, economic, and political fallout of global unpreparedness, stressing the importance of collaboration, community involvement, and resilient health systems for future threat mitigation.Reference Piot, Soka and Spencer10 Climate change may affect human health directly through extreme weather and disease incidence, and indirectly via agricultural disruption, nutritional losses, occupational hazards, mental health issues, and its contribution to mass migration, conflict, and violence.Reference Wright and Norval11 Decades of focus on conflicts and crises present an opportunity to innovate in public health through improved education, training, and policy, advocating for a global response where public health as a strategic security issue surpasses political agendas, emphasizing community well-being.Reference Burkle12

The definition of PHEP sometimes obscures the assessment of national readiness for bioterrorism or outbreaks, yet it sets a vision for prepared communities, informs stakeholder dialogue, and supports the development of standards under the 2006 Pandemic and All-Hazards Preparedness Act to ensure public health system readiness.Reference Nelson, Lurie and Wasserman7 Global preparedness for biological threats requires specific strategies (e.g., China’s biosafety measures), highlighting the need for more research funding and international cooperation to improve biosafety and biosecurity and facilite crucial worldwide dialogue.Reference Gao13 An empirically based, ethics-focused complex adaptive systems framework for PHEP has emerged, offering a novel approach to define and enhance upstream readiness for local health authorities through qualitative research in Canada.Reference Khan, O’Sullivan and Brown14

Crisis risk communication is also essential, merging insights from various fields to assess curricula and training; despite progress in its integration into public health, there is a lack of thorough evaluation of its effectiveness in specific events.Reference Glik15 Enhancing health system coordination and public engagement can be achieved by developing communication infrastructure, adopting advanced equipment, and leveraging diverse communication methods and artificial intelligence.Reference Dehghani, Ghomian and Rakhshanderou16

Emergency management skills span engineering, military, and health care fields, with efforts to integrate public health skills into resuscitation training; yet, similar approaches in training public health professionals remain unexplored in the literature.Reference Hsiao and Egerton-Warburton17 In the EU, the competency model for PHEP standardizes and guides training while ensuring consistent PHEP approaches across member states.Reference Stoto, Savoia and Nelson18 A framework from the European Centre for Disease Prevention and Control (ECDC) offers a detailed blueprint for evaluating public health emergency preparedness across European nations, with capabilities spanning 5 key areas for effective emergency response, enabling streamlined comparisons and facilitating collaborative improvement efforts in preparedness.Reference Stoto, Nelson and Savoia19

In the US, emergency training offerings are limited and unevenly distributed among Council on Education for Public Health public health schools, mainly in the form of postgraduate certificates.Reference Randazza, Vickery and Archer20

We wanted to explore training offerings in Italy in relation to public health medical schools. In this sense, we investigated whether it was possible to compare data found in the literature with data resulting from the study.

In relation to emergency training, the perceived and expressed training need, the sources of information chosen, and the level of competence already possessed were investigated. Italy’s vulnerability to major events - mostly earthquakes and floods - underscores the need for enhanced preparedness and professional competency in emergency response. To date, a Peer-Assisted Learning (PAL) program in disaster medicine for undergraduate medical students in Italy has expanded across medical schools, boosting knowledge and satisfaction, and advocating for global integration of disaster medicine into standard medical education.Reference Ragazzoni, Conti and Dell’Aringa21

On this basis, the aim of this study is to investigate the presence of specific training on emergencies in graduate schools of Hygiene and Preventive Medicine in Italy, as well as to explore attitudes toward these issues.

Methods

Participants and Aim

This project was based on a cross-sectional online survey, distributed among all Italian Public Health residents affiliated with the Italian Society of Hygiene and Public Health (SItI), from June 16-June 30, 2023.

The main fields to investigate were the presence of training and updates in emergencies and the level of interest and perceived importance of the topic regarding the impact of the COVID-19 pandemic.

Data Collection

Respondents were assured of their anonymity and no identifiable information was collected, ensuring that responses could not be traced back to any participant. The dataset is stored in a protected cloud account and will be retained for a limited period; it is managed by the research group’s team, ensuring that only authorized personnel can access the data. Given the nature of this survey, which involved minimal risk to participants and did not collect sensitive personal information, ethical committee approval and any formal ethics submission was deemed unnecessary.

Questionnaire (Google Form)

The survey was organized on the Google Forms platform and administered by email with the cooperation of the SItI Residents’ Council representatives. The results were collected anonymously in a Google Sheet dataset. despite the anonymity, the data were stored in an account dedicated to the project, whose password is held only by the board and will be retired 2 years after collection.

The first 10 questions were retrieved by a previous survey conducted in 2019 by the “Emergencies in Public Health” Working Group.Reference Greco, Rosiello and Vinci22 Considering that the COVID-19 pandemic took place between the 2 studies, we added 2 questions (n.11 and n.12) about the respondents’ attitude toward the pandemic (i.e., whether it changed their interest in emergency prevention and management and whether they took an active part in the pandemic response). Detailed questions, related variables, and scores are listed in Table 1.

Table 1. List of questions and related variables and scores

At the time of the study, 41 post-graduate schools in public health were surveyed, located in 17 Italian regions, and 885 trainees were enrolled in the SItI, as recorded in the national membership register.

Estimating a 95% confidence interval and a margin of error of 5%, the minimum sample size was set at 268 responses.

Statistical Analysis

The first step of data analysis involved an examination of individual responses through the calculation of frequencies, using both STATA® and R®, allowing the team to gain a widespread understanding of distribution of responses among the data. Moving beyond univariate analyses, we delved into exploring relationships between different variables. Correlation analysis played a key role with the calculation of Spearman’s coefficients. By employing this nonparametric measure of correlation, we were able to quantify associations between pairs of quantitative variables. Analysis integrated different statistical methods like regressions and non-parametric tests. This strategy aimed to find patterns, correlations, and dependencies among the data to understand their structure and dynamics. Contingency tables were set up to discover the interplay among variables and facilitate the search for associations between different categories. Linear regression was used to discover relationships between dependent continuous variables and independent variables. Logistic regression was employed to check relationships between a binary variable and its eventual predictors, highlighting potential factors influencing categorical outcomes. The 2-sample Wilcoxon rank-sum test (Mann-Whitney U test) was used to bypass limits of non-respondence to parametric assumptions. This allowed the assessment of significant differences between independent variables (calculating P value), providing an alternative to traditional t tests.

Results

A total of 289 forms were filled, with a 32.66% response rate among residents enrolled in SItI at that time, meeting the minimum sample size established in the study design process.

Distribution of Responses

Speaking of Italian macro-areas, the analysis reveals that most responses are slightly concentrated in Northern Italy, accounting for 35.29% of responses and featuring post-graduate schools in the regions of Piedmont, Aosta Valley, Lombardy, Veneto, Emilia-Romagna, Friuli-Venezia Giulia, Liguria, and Trentino-Alto Adige. With 31.14% of responses, the Central zone includes schools in the regions of Lazio, Tuscany, Umbria, and Marche. The Southern and Islands contributed 33.56% of the responses and involves schools located in southern regions and islands, such as Abruzzo, Molise, Campania, Calabria, Apulia, Basilicata, Sicily, and Sardinia.

In terms of regions (Figure 1), Umbria reported 19 responses, Tuscany had 47 responses from 3 universities (averaging 15.67 responses per school), Liguria contributed 10, Sardinia accounted for 19 responses across 2 universities (averaging 9.5 responses per school), and Piedmont had 18 responses from 2 universities (averaging 9.0 responses per school). Perugia, Pisa and Palermo Universities each stand out with 19 responses (6.57%). This is followed by a strong presence for the venues of University of Naples Federico II and University of Siena, each with 17 responses (5.88%).

Figure 1. Distribution of respondents per school per region

Participants’ Background

Most respondents (69.55%) did not attend courses related to emergency management in public health (variable “freqcor”). The remaining 30.45% said they had attended such courses. We investigated which were the main sources of information consulted by the respondents by using a multiple-choice question (more than 1 answer was allowed). The survey shows that 54.67% of respondents rely on official protocols, 51.90% attend thematic events, and 43.94% of respondents use PubMed and similar search engines. A smaller percentage inform themselves through online blogs (16.96%), by reading scientific journals (16.96%), or through scientific societies (28.03%). An analysis of the combination of responses showed that 25.61% use only 1 source of information, 29.07% use 2 sources, and 23.88% use 3 sources. Only 1.04% of respondents use 6 or 7 sources of information.

When analyzing the background knowledge in public health emergency issues, it was found that 53.98% can recognize the difference between an “ordinary” emergency and a public health emergency. PEMAF, an Italian hospital emergency plan for a massive afflux of casualties, is known by only 24.57% of respondents; 11.42% are familiar with Maurer’s Table and its applications. The ability to manage an emergency warehouse was reported by only 12.46%, and only 13.15% know what an ICS or H-ICS is.

Again, this was a multiple choice question (1-5 items), and analysis of the combination of responses showed that 36.33% of respondents had never been familiar with any of the topics mentioned. 35.99% had knowledge in only 1 of the listed items, but the percentage dropped to 2 topics (14.88%) and only 4.15% knew all of them.

Interests and Priorities

On a scale of 1-5 – where 1 is “not at all” and 5 is “very much” – 51.21% of respondents gave the highest score to the importance of teaching in emergency prevention and management. This is followed by a significant 34.95% of respondents who gave a score of 4 and 10.73% who gave a score of 3. The other scores (1 and 2) have lower percentages (1.04% and 2.08%, respectively). For this variable, the average value was 4.20 with a standard deviation (SD) of 0.88 (CI 95% = 4.39-4.21).

The analysis of interest in public health emergency knowledge also reveals a prevalence of the highest scores, with 38.75% giving a score of 5 and 35.64% giving a score of 4. 18.34% gave a score of 3, and scores of 1 and 2 and lower (2.42% and 4.84%, respectively). The average was 4.07 and the SD was 0.99 (CI 95% = 4.17-3.96).

We found the same pattern for the analysis of interest in participating in simulations, workshops, and training events related to public health emergency management, where 40.48% of the residents gave a score of 5, and 30.45% gave a score of 4. A score of 2 was found in 5.19% of the responses and a score of 1 in only 3.46%. The average value was 4.05 and SD was 1.08 (CI 95% = 4.16-3.94; Figure 2).

Figure 2. Scores for perceived importance of topic (“qimp”), interest in general knowledge (“qinter) e and interest in attending courses (“corsint”)

Training Offered by Universities

The various universitiy educational offerings were evaluated on the presence of specific courses, master’s degrees, and educational networks in public health emergencies.

Of the 289 total respondents, only 27 (9.34%, P < 0.001) referred to the presence of specific courses on emergency prevention and management in their residency. In addition, 20 respondents (6.92%, P < 0.001) reported the presence of masters in this area in their university (even outside of their post-graduate school). 38 respondents (13.15%) reported an adequate training network focused on the area of emergency management within their schools (Figure 3).

Figure 3. Number of responses on presence of courses (“prescor”), masters (“presmast”) and training network (“rete”)

COVID-19 Pandemic Effects

67.82% of the residents enrolled agreed that the COVID-19 pandemic increased their need for training on emergency prevention and management; 29.07% said this need was also present before and remained unchanged, while only 3.11% said they were not affected either before or after the pandemic.

In addition, 86.85% of residents actively participated in the pandemic emergency response, and only the remaining 13.15% said they did not. The examples considered were internships in local public health departments, vaccinations, health surveillance for workers, USCA, contact tracing, school medicine, clinical activity in COVID-19 hospital wards, military medicine, etc.

Associations Within Different Variables

Spearman’s correlation coefficient (t = 0.5223) with high statistical significance (P < 0.01) was calculated between the variable related to the importance of public health emergency management teaching and the variable regarding interest in taking part in simulations, workshops, and training.

A correlation, albeit weak, was found between the importance of public health emergency management teaching and the number of sources of information used, where t = 0.2045. and P < 0.01.

On the other hand, the correlation between “qimp” (importance of emergency management teaching and sum of basic knowledge) is very weak (t = 0.1155), but still shows statistical significance (P = 0.05).

Combining the question on the presence of courses and the question on lectures as a source of information (in a range from 0:0 to 1:1), it was seen that the 0:0 combination prevailed for the majority, namely the absence of both courses and lectures, with a total of 237 responses (82.00%). The 1:1 combination was represented by only 13 responses (4.50%), with significant variability among the different home schools (P < 0.01).

A correlation matrix was created by merging the variables regarding effects of the COVID-19 pandemic on interest and past experience, in a ratio ranging from 0:0 to 1:2. A total of 57.76% people who gave a result of 0:2 (increased need for training without participating in the pandemic response) or 1:2 (increased need for training and participated in the pandemic response) gave a score of 4 or 5 to the perceived importance of the topic. The same occurred regarding interest in the topic, with 48.44% (P < 0.001). Detailed results are in Table 2.

Table 2. Perceived importance and general interest in topic, linked to pandemic involvement. In columns are merged the two COVID-19 variables, namely the participation to pandemic response and the change in need for training, in a ratio from 0:0 to 1:2.

Similarly, we put together the perception of importance and interest in taking courses, finding that those who gave scores of 4-5 to both questions were a total of 197 (68.17%, P < 0.001, Figure 4a). As for the association between perceived importance and interest in the topic, the total number of people who gave 4-5 to both variables was 206 (71.28%, P < 0.001, Figure 4b).

Figure 4. Combinations of scores of perceived importance (“qimp”) and interest in attending courses (“corsint”) - Combinations of scores of perceived importance (“qimp”) and general interest in topic (“qinter”).

Discussion

Most respondents lack specific training in public health emergency management, using mainly official protocols and thematic events as sources of information, with varying knowledge bases on the principles of public health emergencies. Residents highly valued the importance of this topic and showed a strong interest in teaching and participating in public health emergency prevention and management, despite a low presence of specific courses and master’s degrees in universities. Active participation in the COVID-19 pandemic response was high among participants, and the correlation between the relevance of the topic and actual interest in participating in simulations and trainings is noteworthy.

The results highlight the need for a standardized and broad training approach for prevention and management of public health emergencies in Italian medical education because a strong demand surged for practical and theoretical training among trainees with a high level of interest.

Data showed consistency with international and national research regarding training in public health emergencies and disaster medicine. Emergency training in the US is confined essentially to post graduate certificates, underscoring a significant gap in students’ preparation for public health emergencies.Reference Rottman, Shoaf and Stratton23 Also, in Italy, there is a need for targeted training to improve professional expertise, coordination, and integration between first responders and public health professionals. There is evidence of interest in integrating these courses into the standard medical curriculum, highlighting a recognition of their value for the future of the profession,Reference Ragazzoni, Ingrassia and Gugliotta24 consistent with the interest shown by residents in our analysis of practical and theoretical events related to public health emergencies.

Despite the study limitations described in the following section, the data collected highlight a strong call for action to improve educational resources in the field of public health emergencies and increase the resilience and adaptability of future public health professionals.

Survey results pose challenges for universities, policymakers, scientific societies, and civil society. Shared commitment is needed to integrate training curricula, allocate resources for training, and promote effective collaboration among various entities. In this manner, a significant improvement in the management of future health crises could arise, benefiting the entire community.

The link between training in public health emergency management and studies on pandemic preparedness, epidemic intelligence, and public health management during mass events is intrinsically linked to the future role of hygienists in emergency prevention. These areas represent concrete examples of the challenges that future hygienists will face, requiring effective practical preparation in resource management during emergencies and in analyzing the short-, medium-, and long-term consequences of major events. These consequences include not only diseases related to direct exposure to events, but also long-term issues such as vaccination-preventable diseases, hygiene and disinfection issues, and the management of displaced persons and forced migration. In addition, the areas of study extend to issues of global significance such as climate change, wars, and migration, which are increasingly at the center of public health discussions. Approaching these different aspects of public health not only broadens the understanding of global health threats, but also guides toward the development of proactive, interdisciplinary strategies that prepare public health professionals to respond competently and strongly to a wide variety of emergency scenarios, highlighting the importance of training that is as broad as it is in-depth.

Public health professionals in Italy who responded to this survey demonstrated the need to implement skills regarding the management of critical emergency events. The demand to integrate specific skills into public health training courses addresses the need to train professionals who can better contribute to emergency management. A response to this educational need is necessary, not only due to the importance of the global training of public health professionals, but also to guarantee the contribution of public health in the management of major emergency events.Reference Sanchez Cristal, Metcalf and Kreisberg25, Reference Lee, Jansen and Sanderson26

Limitations

While achieving statistical significance, the study encounters limitations in its representation and scope that may affect the generalizability of its findings. Although all Italian Public Health post-graduate schools are represented, the numerical contribution of responses varies significantly, potentially skewing the perceived realities of universities.

Moreover, the geographic adherence of respondents could be influenced by the historical context of the areas in which their respective schools are located (i.e., areas that have recently suffered from a medical emergency incident, and the residents’ personal lived experiences may have influenced survey participation and willingness to take courses and improve the subject). However, no relevant patterns were evident in this sense.

Similarly, the objectivity of data collected is complicated by the subjective nature of the responses. Perceptions of importance and interest may unavoidably be influenced by participants’ individual background and experiences, thereby introducing a level of bias that must be acknowledged when interpreting the results.

Another bias may be induced by all non-respondents’ attitudes, whereas they may not be affected by the topic nor are they interested in it. A larger sample of respondents may increase accuracy of data obtained.

Another limitation was given by the lack of detailed numbers of public health residents enrolled in SItI, while only a cumulative number was provided by the society (as shown in the methods). In this case, our team was not able to calculate a detailed response rate divided by universities and regions.

Conclusions

This study advocates evidence-based interventions to address knowledge gaps in emergency prevention and management in public health. The relevance of a resilient health system highlights the urge to standardize training and align education with identified needs.

Improving education in emergency prevention and management within public health residency programs is essential, for example, through conventions, lectures, and formal courses. The organization of specialized courses and master’s programs presents a major challenge, as well as integrating educational plans with the educational network.

Following the insights on interest in the topic, bottom-up advocacy would ensure a participatory and proactive approach by young public health professionals. By demonstrating their needs, trainees can contribute to the improvement of their own public health emergency training and the development of courses and activities that respond more directly and appropriately to the real needs of the field.

Given the recent major events that have happened in Italy such as floods in Emilia-Romagna, the bradyseism in the Phlegraean Fields, volcanic eruptions in Sicily, migrant shipwrecks, and all other potential threats, trainees and young professionals are likely to be involved in emergency preparedness and response, despite having received no training on specific behaviors to be adopted during emergencies.

The link between public health and emergencies underscores the need for adequate preparedness to ensure the awareness of health personnel. Implementation of training courses can lead to preparedness, better handling of unforeseen situations, and safeguarding of community health and social consequences.

The adage “preparedness is greater than response” underscores prevention as the key to managing large scale emergencies. Investing in preparedness through specialized training and integrated educational plans is crucial for dealing with every phase of emergencies and proactively addressing future health challenges.

Acknowlegments

On behalf of the Working Group on “Emergency Prevention and Management” of the Medical Residents’ Council of the Italian Society of Hygiene, Preventive Medicine and Public Health (SItI).

References

Sendai Framework for Disaster Risk Reduction 2015-2030. In: UN World Conference on Disaster Risk Reduction, 2015 March 14-18, Sendai, Japan. Geneva: United Nations Office for Disaster Risk Reduction; 2015. http://www.wcdrr.org/uploads/Sendai_Framework_for_Disaster_Risk_Reduction_2015-2030.pdfGoogle Scholar
Ryan, BJ, Kako, M, Garner, S. Prioritizing strategies for building the resilience of public health systems to disasters across multiple communities and countries. Int J Disaster Risk Sci. 2024;15:117. https://doi.org/10.1007/s13753-024-00537-xCrossRefGoogle Scholar
Kocak, H, Kinik, K, Caliskan, C, et al. The science of disaster medicine: from response to risk reduction. Medeni Med J. 2021;36(4):333342. doi:10.4274/MMJ.galenos.2021.50375CrossRefGoogle ScholarPubMed
Biswas, S, Bahouth, H, Solomonov, E, et al. Preparedness for mass casualty incidents: the effectiveness of current training model. Disaster Med Public Health Prep. 2022;16(5):21202128. doi:10.1017/dmp.2021.264CrossRefGoogle ScholarPubMed
Khan, Y, O’Sullivan, T, Brown, A. et al. Public health emergency preparedness: a framework to promote resilience. BMC Public Health. 2018;18:1344. https://doi.org/10.1186/s12889-018-6250-7CrossRefGoogle ScholarPubMed
Gowing, JR, Walker, KN, Elmer, SL, et al. Disaster preparedness among health professionals and support staff: what is effective? An integrative literature review. Prehosp Disaster Med. 2017;32(3):321328. doi:10.1017/S1049023X1700019XCrossRefGoogle ScholarPubMed
Nelson, C, Lurie, N, Wasserman, J, et al. Conceptualizing and defining public health emergency preparedness. Am J Public Health. 2007;97:S9S11. doi:10.2105/AJPH.2007.114496CrossRefGoogle ScholarPubMed
Subbarao, I, Lyznicki, JM, Hsu, EB, et al. A consensus-based educational framework and competency set for the discipline of disaster medicine and public health preparedness. Disaster Med Public Health Prep. 2008;2(1):5768. doi:10.1097/DMP.0b013e31816564afCrossRefGoogle ScholarPubMed
Clay, LA, Stone, KW, Horney, JA. Quantifying disaster impacts on local public health agency’s leadership, staffing, and provision of essential public health services. Disaster Med Public Health Prep. 2022;16(4):15521557. doi:10.1017/dmp.2021.193CrossRefGoogle ScholarPubMed
Piot, P, Soka, MJ, Spencer, J. Emergent threats: lessons learnt from Ebola. Int Health. 2019;11(5):334337. doi:10.1093/inthealth/ihz062CrossRefGoogle ScholarPubMed
Wright, CY, Norval, M. Climate change: one of the greatest threats to public health in the 21st century. S Afr Med J. 2014;104(8):578. doi:10.7196/samj.8606CrossRefGoogle ScholarPubMed
Burkle, FM Jr. Future humanitarian crises: challenges for practice, policy, and public health. Prehosp Disaster Med. 2010;25(3):191199. doi:10.1017/s1049023x00007998CrossRefGoogle ScholarPubMed
Gao, GF. For a better world: biosafety strategies to protect global health. Biosaf Health. 2019;1(1):13. doi:10.1016/j.bsheal.2019.03.001CrossRefGoogle ScholarPubMed
Khan, Y, O’Sullivan, T, Brown, A, et al. Public health emergency preparedness: a framework to promote resilience. BMC Public Health. 2018;18(1):1344. doi:10.1186/s12889-018-6250-7CrossRefGoogle ScholarPubMed
Glik, DC. Risk communication for public health emergencies. Annu Rev Public Health. 2007;28:3354. doi:10.1146/annurev.publhealth.28.021406.144123CrossRefGoogle ScholarPubMed
Dehghani, A, Ghomian, Z, Rakhshanderou, S, et al. Process and components of disaster risk communication in health systems: a thematic analysis. Jamba. 2022;14(1):1367. doi:10.4102/jamba.v14i1.1367Google ScholarPubMed
Hsiao, KH, Egerton-Warburton, D. An example of public health training in emergency medicine. Emerg Med Australas. 2019;31(3):487490. doi:10.1111/1742-6723.13277CrossRefGoogle ScholarPubMed
Stoto, MA, Savoia, E, Nelson, C, et al. Development of a public health emergency preparedness competency model for European Union countries. Euro Surveill. 2018;23(49):1700631. doi:10.2807/1560-7917.ES.2018.23.48.1700631CrossRefGoogle ScholarPubMed
Stoto, MA, Nelson, C, Savoia, E, et al. A public health preparedness logic model: assessing preparedness for cross-border threats in the European region. Health Secur. 2017;15(5):473482. doi:10.1089/hs.2016.0126CrossRefGoogle ScholarPubMed
Randazza, J, Vickery, J, Archer, M, et al. A review of Public Health Emergency Preparedness and Response (PHEPR) curricula in US CEPH-accredited schools and programs of public health. Disaster Med Public Health Prep. 2022;17:e250. doi:10.1017/dmp.2022.183CrossRefGoogle ScholarPubMed
Ragazzoni, L, Conti, A, Dell’Aringa, M, et al. A nationwide peer-assisted learning program in disaster medicine for medical students. Eur J Emerg Med. 2020;27(4):290297. doi:10.1097/MEJ.0000000000000668CrossRefGoogle ScholarPubMed
Greco, S, Rosiello, F, Vinci, A, et al. Survey of the current state of public health emergency management teaching in Italian school of specialization in hygiene and preventive medicine among medical residents. 2019. doi:10.5281/zenodo.3756969CrossRefGoogle Scholar
Rottman, SJ, Shoaf, KI, Stratton, SJ. A graduate curriculum in emergency public health. Prehosp Disaster Med. 2010;25(3):213216. doi:10.1017/s1049023x00008049CrossRefGoogle ScholarPubMed
Ragazzoni, L, Ingrassia, PL, Gugliotta, G, et al. Italian medical students and disaster medicine: awareness and formative needs. Am J Disaster Med. 2013;8(2):127136. doi:10.5055/ajdm.2013.0119CrossRefGoogle ScholarPubMed
Sanchez Cristal, N, Metcalf, N, Kreisberg, D, et al. Integrating simulation-based exercises into public health emergency management curricula. Disaster Med Public Health Prep. 2019;13(4):777781. https://doi.org/10.1017/dmp.2018.137CrossRefGoogle ScholarPubMed
Lee, JM, Jansen, R, Sanderson, KE, et al. Public health emergency preparedness for infectious disease emergencies: a scoping review of recent evidence. BMC Public Health. 2023;23(1):420. https://doi.org/10.1186/s12889-023-15313-7CrossRefGoogle ScholarPubMed
Figure 0

Table 1. List of questions and related variables and scores

Figure 1

Figure 1. Distribution of respondents per school per region

Figure 2

Figure 2. Scores for perceived importance of topic (“qimp”), interest in general knowledge (“qinter) e and interest in attending courses (“corsint”)

Figure 3

Figure 3. Number of responses on presence of courses (“prescor”), masters (“presmast”) and training network (“rete”)

Figure 4

Table 2. Perceived importance and general interest in topic, linked to pandemic involvement. In columns are merged the two COVID-19 variables, namely the participation to pandemic response and the change in need for training, in a ratio from 0:0 to 1:2.

Figure 5

Figure 4. Combinations of scores of perceived importance (“qimp”) and interest in attending courses (“corsint”) - Combinations of scores of perceived importance (“qimp”) and general interest in topic (“qinter”).