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Predictors of Emergency Preparedness Among Parents in Hawaii: A Cross-Sectional Survey

Published online by Cambridge University Press:  03 May 2024

Gary Glauberman*
Affiliation:
School of Nursing, University of Hawaii at Manoa, Honolulu, HI, USA
Holly B. Fontenot
Affiliation:
School of Nursing, University of Hawaii at Manoa, Honolulu, HI, USA
Eunjung Lim
Affiliation:
Department of Quantitative Health Sciences, John A. Burns School of Medicine, University of Hawaii at Manoa, Honolulu, HI, USA
*
Corresponding author: Gary Glauberman; Email: [email protected]
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Abstract

Objective:

To determine factors predicting emergency preparedness (EP) behaviors among Hawaii parents.

Methods:

A cross-sectional online survey of parents of children (age 0-12 y) living in Honolulu, Hawaii, in March 2023 examined associations with (1) having an EP kit (supplies for use during emergencies) and (2) having a family emergency plan (what to do, where to go, how to communicate during emergencies) with demographics/household characteristics and theoretical constructs of the Health Belief Model. A multivariable regression model obtained odds ratios and 95% confidence intervals.

Results:

Participants (N = 278) were mainly female (84%), college-educated (68%), and were similar in diverse racial/ethnic composure (White; 13.3%) to the overall Honolulu County. Logistic regression determined participants with lower perceived susceptibility to disasters, greater time barriers, and those who needed help to prepare for emergencies were less likely to have an EP kit. Among participants without an EP kit, a website able to create personalized instructions for household EP would be useful. Participants who needed help to prepare for emergencies were less likely to have a family emergency plan.

Conclusions:

Future interventions should focus on evidence-based strategies that improve self-efficacy associated with developing EP kits and family emergency plans.

Type
Original Research
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of Society for Disaster Medicine and Public Health, Inc

Emergency preparedness (EP) is a major public health priority as the range of hazards threatening communities are mounting. Health emergencies, including those caused by extreme weather events and infectious disease outbreaks, are predicted to rise in frequency and intensity due to climate change. 1 Preparing households for emergencies is a key aspect of reducing vulnerability and exposure to the negative impact that these sudden calamitous events have on families, and is included among the public health priorities of the United States (US) Department of Health and Human Services, Healthy People 2030. 2 Households in the US have consistently been found to be unprepared for emergencies. Reference Hamann, Mello and Wu3Reference Zamboni and Martin5 Barriers precluding households from carrying out EP recommendations are varied, such as a lack of awareness on how to prepare for emergencies, financial constraints, busy schedules, and language or cultural barriers. Reference Kruger, Chen and Heitfeld6,Reference Levac and Toal-Sullivan7 The US Federal Emergency Management Agency (FEMA) reported that nationwide, the proportion of households that had taken EP actions increased in 2020 during the coronavirus disease 2019 (COVID-19) pandemic, but has subsequently declined in 2021 and again 2022. 8

Children are at greater risk during emergencies due to factors that contribute to their physical vulnerability, including dependency on adults to provide for them, an inability to communicate symptoms, and need for specialized medicine or equipment that may be difficult to obtain during emergencies. 9 Children are also disproportionately affected by social disruptions during health emergencies, including displacement and interrupted schooling. The Centers for Disease Control and Prevention (CDC) provides recommendations on how parents (i.e., primary caregivers) can improve EP behaviors to contribute to safeguarding children from the impact of health emergencies. One recommendation is to assemble an EP kit that includes essential supplies to sustain basic household needs, such as non-perishable food, water, medicines and medical supplies, and personal hygiene items. Another recommendation is to maintain a family emergency plan that identifies potential hazards, locates meeting points and evacuation routes, and establishes communication methods to contact and coordinate with each other during emergencies. 9 Families in the US as well as those in Hawaii have been found to be ill-prepared for emergencies. Reference Zamboni and Martin5,Reference Strid, Fok and Zotti10

Therefore, the purpose of this study was to determine factors predicting EP behaviors (preparedness with an emergency kit as well as an emergency plan) among Hawaii parents with young children (aged 0-12 y). The aims were to (1) uncover knowledge, attitudes, and behaviors related to household EP (kit and plan), and (2) determine factors associated with EP (kit and plan) among families with young children. The study was informed by the Health Belief Model (HBM), a widely used model designed to inform short-term and long-term behavior change strategies. 11 The HBM consists of 6 main constructs believed to influence decision-making regarding preventative health behaviors: perceived susceptibility, perceived severity, perceived benefits, perceived barriers, self-efficacy, and cues to action. Findings provide a foundation for intervention development to build preparedness among families in Hawaii and other locales.

Methods

Study Design and Participants

A cross-sectional online survey of parents living on the island of Oahu, Hawaii, was conducted in March 2023. Participants were recruited by means of the YMCA of Honolulu, which was selected as a study partner due its island-wide programs and facilities that serve diverse communities (rural and urban; varied socioeconomic/racial/ethnic composures), and its broad range of children programs (preschool through adolescent). Inclusion criteria were: (1) adults aged 18 y or over; (2) able to read English; (3) access to a computer or other Web-enabled device; and (4) parent/caregiver of a child aged 0-12 y old. This age range of children was selected because they are dependent upon their parents for basic needs, and thus would be highly impacted by their parents’ EP behaviors during health emergencies. The YMCA of Honolulu promoted participation by sending the study flyer to email listservs for programs serving children in the targeted age-range. The email provided basic study information and a link to a secure online survey platform, Qualtrics®. Eligible participants provided electronic consent before starting the survey. A $20 gift card was offered as compensation for participation. The study was approved by the University of Hawaii Institutional Review Board.

Measures

Dependent variables

To gain insight into the EP status of the participating families, 2 outcome variables were considered: (1) having an EP kit and (2) having a family emergency plan. To assess the EP kit outcome, the following 2 questions were used: “Do you have a family emergency preparedness kit (supplies to be used in case of any type of disaster)?” and if the answer was “No,” we asked, “Do you intend to make a family emergency preparedness kit in the next 30 d.” The EP kit was categorized as “Yes” (if the answer was Yes to the first question), “Intend” (if the answer was Yes to the second question), and “No” (if the answer was No to both questions). To assess the family emergency plan outcome, following 2 questions were used: “Do you have a family emergency plan?” and similarly if the answer was “No,” we asked, “Do you intend to develop a family emergency plan within the next 30 d?” Similar to the EP kit, the family emergency plan was categorized as “Yes” (if the answer was Yes to the first question), “Intend” (if the answer was Yes to the second question), and “No” (if the answer was “No” to both questions).

Independent variables

Independent variables included questions that were based on the HBM, and the 6 main constructs of the model were assessed. Reliable measures were adapted from previously published studies to assess variables of interest. Reference Murphy, Cody and Frank12Reference Becker, Paton and Johnston15 All items were assessed on a 5-point Likert scale (strongly agree to strongly disagree). The questions were as follows: (1) perceived susceptibility, “Preparing my family for emergencies or disasters is important; ” (2) perceived severity, “An emergency or disaster would be a significant problem for my family,” “I am afraid of dying from a natural disaster,” and “I am afraid of dying from a disease outbreak;” (3) perceived benefit, “Preparing my family for disasters or other emergencies may decrease our risk of death, injury, or illness” and “Preparing makes me feel less worried about possible emergencies;” and (4) Perceived barriers were assessed using 4 questions, including whether there is no use in preparing for disasters if it is God’s will (my destiny) to be in a disaster, whether it is too expensive for me to prepare for emergencies, whether they lack time to prepare, whether it is too stressful to prepare. Finally, (5) self-efficacy was assessed by asking whether they do not know how to prepare for emergencies and whether they need help learning how to prepare for an emergency, and (6) cues to action were assessed by asking participants about the usefulness of getting EP information from 6 sources, including their child’s school, a doctor or nurse, community organizations (eg, YMCA, church), city or state government agencies, websites or apps that could create a personalized family emergency plan, and text message notifications from Honolulu County or the State of Hawaii.

Sociodemographics measured included gender (female, male, or something else), race/ethnicity (all predominant race/ethnicities in Hawaii were listed), family composition, education, food security, and household income. Race/ethnicity was categorized based on response distribution and included White, Native Hawaiian and Pacific Islander (NHPI), Japanese, Filipino, Other Asian (eg, Chinese, Korean), and Other (eg, Hispanic, African American, American Indian, or Alaska Native). Education was assessed as some high school, high school graduate, some college, and college graduate or higher. Based on response distribution, we regrouped the categories to some college or less and college graduate or higher. Similarly, household income was assessed as less than $35,000; $35,000 to $49,999; $50,000 to $74,999; $75,000 to $99,999; $100,000 to $149,999; $150,000 or more, and prefer not to answer. Categories were regrouped as <$75,000, $75,000-$150,000, >$150,000, and prefer not to answer.

Food security was evaluated using a question: “In the last 12 mo, did you ever eat less than you felt you should because there wasn’t enough money to buy food?” Participants were considered to have food security if they answered “No.” This question was derived from the PhenX Toolkit on food insecurity. 16 Family composition was assessed by asking participants about the number of people living in their home including themselves and categorizing them into 6 age group questions: infant (0-2), toddler (3-4), school age (5-12), teen (13-18), adults (19-64), and old adults (65 y or older). The total number of family members was computed by summing these questions.

Statistical Analysis

Descriptive analyses were conducted using frequencies and percentages for categorical variables and means and standard deviations (SDs) for continuous variables. Chi-square tests and 2-sample t-tests were used to compare subject characteristics between parents who completed the survey and those who did not. Additionally, chi-squared tests and 1-way analysis of variance were used to examine the bivariate association between potential factors and binary outcomes (EP kit and family emergency plan). Variables with a P-value less than 0.05 in bivariate analyses were included in a multinomial logistic regression model to identify factors associated with EP kit and family emergency plan. The “No” group was assigned as the reference. Adjusted odds ratios (AORs) and 95% confidence intervals (CIs) were reported to evaluate the strength of the identified factors. To examine the effect of missing data on the analysis, a sensitivity test was conducted. This comprised generating 20 imputed datasets through multiple imputation, fitting multinomial logistic regression models to these datasets, and pooling the results of the analyses for the summary. All analyses were conducted in R version 4.2.1 and statistical significance was set to a P-value of <0.05.

Results

Study Sample and Missing Data Analysis

Three hundred and twenty parents provided online consent and of those 278 participants completed the survey. There were no significant differences in outcome variables between participants who completed the survey and those who did not. However, there were some differences in a few socio-demographic variables. Participants who did not complete the survey were more likely to have a college graduate or higher, preferred not to respond regarding their income level and food security, and had a smaller number of school-aged children. Analysis was conducted on the final sample, N = 278.

Descriptive Analysis

Most participants were females (84.2%) and had a college degree or higher (68.3%). There was a relatively balanced distribution of race/ethnicity across the sample, with the largest group being Japanese (25.2%), followed by Filipino (19.1%), NHPI (16.5%), Other Asian (13.7%), White (13.3%) and Other (12.2%). Additionally, two-thirds (66.5%) reported feeling secure in terms of their food supply (Table 1).

Table 1. Subject characteristics by emergency preparedness kit and emergency plan

Abbreviation: NHPI, native Hawaiian and other Pacific Islander.

Note: n (%) or mean ± SD. Other racial/ethnic group includes Hispanics. P-value was computed by chi-squared test for categorical variable and one-way analysis of variance for continuous variable. Bold value represents a p-value < 0.05.

In total, approximately half of the participants (n = 141; 50.7%) reported having an EP kit, 49 parents (17.6%) intended to create one within 30 d, and 88 participants (31.7%) neither had nor intended to have an EP kit. Fewer participants reported (n = 116; 41.7%) having a family emergency plan. Of these 82 participants (29.5%) intended to develop one within 30 d, and 80 participants (28.8%) neither had nor intended to have one. Additionally, 80 participants (28.8%) reported having both an EP kit and a family emergency plan while 101 participants (36.3%) reported not having either of these.

Bivariate Analysis for Emergency Preparedness Kit

Table 1 presents the characteristics of the study participants as well as the bivariate associations between these characteristics and having an EP kit. The following factors showed a significant bivariate association with having an EP kit: education, food security, number of family members, perceived susceptibility, perceived benefit of worry reduction, all 4 perceived barriers, the 2 self-efficacy measures, and cues from doctor or nurse and website or app. Participants with an EP kit were more likely to have a college education and food security. They also exhibited higher self-efficacy scores and lower mean scores on perceived barriers.

Participants who reported intention to have an EP kit had larger family sizes, and highest scores for acting on cues when compared with the other 2 groups. Participants who did not have nor intended to have an emergency kit had the lowest mean scores on perceived susceptibility and perceived benefit of worry reduction.

Multinomial Logistic Regression Analyses for Emergency Preparedness Kit

Table 2 displays the AORs and 95% CIs for the multinomial logistic regression model of having an EP kit. The analysis revealed significant variables that differentiate between those who had an EP kit and those who did not, including perceived susceptibility, barrier due to time, and 1 self-efficacy measure. Individuals with a higher perceived susceptibility score were more likely to have an EP kit (AOR = 2.71; 95% CI = 1.53–4.79), while those with a higher score on time barrier were less likely to have one (AOR = 0.58; 95% CI = 0.38–0.88). Similarly, those with a lower score on self-efficacy (ie, I don’t know how to prepare for emergencies) were less likely to have an EP kit (AOR = 0.54; 95% CI = 0.36–0.81). Only 1 significant variable (the number of family members) differentiated those who intended to create a family emergency plan in the future and those who did not have a plan nor intention to create one. For every 1-unit increase in the number of family members, the odds of intending to create an EP kit increases by a factor of 1.25 (95% CI = 1.01–1.55). The results obtained from multiple imputation were similar (see Appendix 1).

Table 2. Adjusted odds ratios and 95% confidence intervals for multinomial logistic regression model for emergency preparedness kit

Abbreviations: AOR, adjusted odds ratio; CI, confidence interval.

Note: The reference level for the outcome is “No” category. Bold values represent a P-value < 0.05.

Bivariate Analysis for Family Emergency Plan

Table 3 shows the bivariate associations between various characteristics and having a family emergency plan. Several factors showed significant bivariate associations with having a family emergency plan. These factors include being female, number of school-aged children, having older adult(s) in the household, perceived susceptibility, perceived severities regarding emergency or natural disaster, perceived benefit of worry reduction, perceived barriers in preparation time and stress related to preparing, 2 self-efficacy measures, and receiving a cue from website or app (see Table 3).

Table 3. Subject characteristics by family emergency plan

Abbreviation: NHPI, Native Hawaiian and other Pacific Islander.

Note: n (%) or mean ± SD. Other racial/ethnic group includes Hispanics. P-Value was computed by chi-squared test for categorical variable and one-way analysis of variance for continuous variable. Bold values represent a P-value < 0.05.

Participants who intended to create a family emergency plan had the highest percentages of female respondents or having older adults in their households, as well as the highest number of school-aged children compared with the other 2 groups. Additionally, participants who intended to create a family emergency plan had the highest mean score on perceived susceptibility, perceived severity of natural disaster, perceived benefit of worry reduction, and cue from website or app. Participants who neither had nor intended to create a family emergency plan had the highest mean scores on perceived barriers and lowest mean scores on self-efficacy.

Multinomial Logistic Regression Analyses for Family Emergency Plan

Table 4 presents the results of the multivariable logistic regression model for family emergency plan. Parents with higher self-efficacy were more likely to have a plan (AOR = 0.59; 95% CI = 0.40–0.88). The analysis indicates the only variable that significantly differentiated those who intended to create a family emergency plan and those who did not was the cue to action of receiving an emergency text message (AOR = 2.00; 95% CI = 1.21–3.31). The results obtained from multiple imputation were similar (see Appendix 2).

Table 4. Adjusted odds ratios and 95% confidence intervals for multinomial logistic regression model for family emergency plan

Abbreviations: AOR = adjusted odds ratio; CI = confidence interval.

Note: The reference level for the outcome is “No” category. Bold values represent a P-value < 0.05.

Discussion

This cross-sectional study sought to identify factors influencing parents’ attitudes and behaviors relate to EP in Hawaii. The study found that only slightly more than a quarter of participants (28.8%) reported having both an EP kit and family emergency plan, while 36.3% of participants reported not having either. Half (50.7%) the participants had an EP kit and less than half (41.7%) reported having a family emergency plan. Few studies have examined parent EP behaviors in Hawaii. Strid et al. Reference Strid, Fok and Zotti10 found 63% of mothers who had a recent live birth in Hawaii in 2016 had enough supplies at home for at least 7 d and 41% had an evacuation plan for their children. Few Hawaii households were prepared for a pandemic at the onset of the COVID-19 pandemic, Reference Buenconsejo-Lum, Qureshi and Palafox17 though some parents adopted new EP behaviors during the pandemic. Reference Glauberman, Wong and Qureshi18 At the nation level, FEMA’s 2022 National Household Survey on Disaster Preparedness found that only 33% of respondents had assembled emergency supplies and less than half (41%) reported making a family emergency plan. 8 These findings suggest that much work is needed at local and national levels to achieve the Healthy People 2030 goal of improving the proportion of the population prepared for health emergencies. The low levels of family EP found in this study are highly concerning considering Hawaii’s unique disaster vulnerability. Climate change is driving sea level rise and more frequent and powerful storms, putting Hawaii’s homes and critical infrastructure (healthcare facilities, roads, powerlines) at risk for damage or loss. Additionally, the state is heavily dependent on imported goods and fuel, and unlike other states, its remote location in the Pacific Ocean means there are no neighboring jurisdictions to offer immediate assistance and supplies, leaving it in a precarious situation if a large-scale disaster occurs. These factors in combination render families in Hawaii at extremely high risk for disaster health impact.

Several factors significantly predicted having an EP kit. A belief that preparing for emergencies is important (perceived susceptibility) increased odds (AOR = 2.71); however, not having time (barrier) and not knowing how to prepare (self-efficacy) both decreased the odds (AOR = 0.58; AOR = 0.54, respectively) of having an EP kit. In terms of having a family emergency plan, only not knowing how to prepare (self-efficacy) significantly decreased the odds (AOR = 0.59) of having a plan. These findings reflect other findings from other studies, Reference Heagele and Nurse-Clarke19 indicating a need for more targeted efforts to mitigate common barriers to EP behaviors and promote self-efficacy.

This study also indicates an opportunity to improve EP behaviors rates, as 17.6% of participants intended to create an EP kit and 29.5% intended to develop a family emergency plan within 30 d. Findings indicate that the increasing number of family members living in a household significantly increased the odds (AOR = 1.25) of intention to create an EP kit and receiving an emergency text message notification increased the odds (AOR = 2.0) of intention to develop a family emergency plan. Nationally, half of the respondents of a 2022 FEMA survey on household preparedness intended to take some EP action sometime in the future. 8 This encouraging fact indicates that future targeted interventions designed to bridge the intention-behavior gap Reference Gollwitzer and Brandstätter20 may result in improved proportions of families taking EP action.

Previous studies have examined demographic and socioeconomic characteristics as being factors influencing household EP behaviors though results have been mixed. Reference Rivera21Reference Bethel, Burke and Britt23 In this study, while bivariate analyses found some demographic and socioeconomic characteristics (gender, race/ethnicity, education, income, food security) were associated with outcome variables, none of these factors were found to be significant in the multinomial logistic regression analyses. Presence of children in a household has also been reported as a predictor of EP. Reference Murphy, Cody and Frank12 However, differences between households with or without children were not explored in this study as all participants had at least 1 child in the household. The number of family members residing within the household was found to significantly increase the odds of intention to have an EP kit but was not significant for having a family emergency plan.

The results from this study related to perceived susceptibility are consistent with others examining factors influencing EP behaviors among parents. Risk perception for emergencies has been identified as an important predictor for carrying out EP behaviors. Reference Bethel, Burke and Britt23,Reference DeYoung and Peters24 Merely being aware of risk, however, is not sufficient for influencing EP action, with previous studies reporting that levels of EP behaviors remain low even when people acknowledge their risk. Reference Becker, Paton and Johnston15 For example, Ryan et al. Reference Ryan, Rohrbeck and Wirtz4 found that parents with high perceived risk for emergencies but low self-efficacy (lacked confidence in their ability to prepare for emergencies), did not demonstrate higher levels of preparedness behavior. Addressing the gap between risk perception and self-efficacy and EP behaviors is an important area for further research.

Lastly, many studies have reported on the role of self-efficacy as a contributing factor to household EP behaviors. Reference Lindell and Hwang13,Reference Martin, Bender and Raish14,Reference Olympia, Rivera and Heverley25 In this study participants who did not know how to prepare for emergencies were less likely to have an EP kit as well as a family emergency plan. A lack of knowledge and perceived ability to best to prepare for emergencies has been identified as a significant barrier to household EP. Reference Heagele and Nurse-Clarke19 Parents with higher levels of self-efficacy were more likely to translate risk perception into actual behavioral preparedness, Reference Ryan, Rohrbeck and Wirtz4 suggesting that having confidence in engaging in EP actions is an essential step toward adopting household EP behaviors.

Implications

To improve adoption of EP behaviors novel interventions are needed to highlight the importance of EP as a family health issue, as well as overcome barriers parents experience related to household EP behaviors. Developing tailored EP materials and interventions that match individualized household needs and are also culturally informed will enhance their usefulness. Publicly available EP information has been criticized for being provided in formats difficult to relate to, too generalized to be helpful, written at a literacy level higher than recommended by health organizations, or unavailable in languages other than English. Reference So, Franks and Cree26Reference Xiang, Gerber and Zhang28 Contextual EP information that helps to overcome the social, economic, and cultural barriers families face may be better able to improve family EP, especially among diverse populations such as those found in Hawaii. To minimize barriers, EP interventions aimed at parents should be designed to emphasize EP actions that are simple to carry out and take little time to do, and interventions and materials should be designed in ways that are appropriate, acceptable, or understandable to their intended audiences.

Targeted interventions led by health professionals have also proven to increase EP behaviors among parents with children at high risk for emergencies. For example, Heagele and Nurse-Clarke. Reference Heagele and Nurse-Clarke19 described how a nurse-facilitated intervention led to increased EP behaviors among new parents. Another study showed how individualized disaster education improved EP among parents of children with special needs. Reference Toor, Burke and Demeter29 Health-care providers and community health workers are often aware of complex socioeconomic and cultural barriers patients face when accessing health services and would be well-equipped to (1) assess adoption or intention to create an EP kit or family emergency plan, and (2) provide resources or links to novel solutions that would individually tailor plans to suit family needs. For example, pediatric health-care providers could provide parents with cues to action, such as posters or flyers in waiting rooms that highlight the importance of EP or conduct assessments of family emergency plans (including how and where to meet/reconnect if there were school-based emergencies) as part of annual child health exams.

Creating technology-based approaches to teach household EP, such as websites or smartphone apps capable of providing personalized guidance is another promising approach. Various apps are available for download that provide the public with information regarding disaster preparedness and response. Engagement with such apps surged during the COVID-19 pandemic. Reference McAtee, Bedenbaugh and Lakis30Reference Pandit, Radin and Quer32 In Hawaii, an app developed by the state’s department of health that alerted users of COVID-19 exposure had reached 1 million activations during the pandemic, demonstrating residents’ willingness to engage with apps for health emergency-related information. Reference Wu33 Apps have shown potential to improve household EP, especially when designed specifically with the geographic and social context of the user, and optimized for credibility, ease-of-use, and efficiency in providing information sharing. Reference Tan, Prasanna and Stock31 Further inquiry to inform the development of apps that integrate localized and personalized information may help identify effective methods for encouraging family EP behaviors.

Limitations

The study was conducted with a limited sample of parents with children enrolled in programs at the YMCA. While the sample population reflected some aspects of overall population (ie, racial/ethnic diversity), it may differ in other ways. The study focused on parents with children aged 0-12 y, parents with older children may have differing characteristics or EP behaviors. Additionally, while Hawaii is a state with clear EP action needs, perceptions of parents in other states may differ and this may affect generalizability of findings. A survey question assessing food insecurity was not validated for use on its own but is contained in the 6-item PhenX Toolkit Food Insecurity protocol, which is validated for households with children. The study used an Internet-based survey to collect data, an approach that provided convenience and flexibility for participants, but may have inadvertently excluded individuals who do not have Internet access or are not adept with using online tools. Data collection relied solely on self-reported survey responses; actual participant EP behaviors could not be independently verified. Finally, the study only captured responses at a single point in time, which may not reflect the dynamic patterns of EP behaviors over a longer period or during other times of the year, such as hurricane season. Despite these limitations, this study provides evidence to inform interventions designed to empower families with children to improve household EP for health emergencies.

Conclusions

Despite the rise in public health emergencies associated with disasters (eg, wildfire, flooding), disease outbreaks, medical emergencies, and other health emergencies that families may face, such as public violence (eg, school violence and public shootings), the rate of family EP remains low. It is important to ensure families have both supplies (ie, an EP kit inclusive of extra supplies of medications) and plans (ie, family emergency plans for how to meet, communicate, and evacuate as appropriate). Families with young children are at significant risk of adverse health outcomes during health emergencies. In this study, only 28.8% of parents had both an EP kit and family emergency plan. Facilitators of EP included higher perceived susceptibility and barriers of EP included time and not knowing how to prepare. Future interventions should focus on innovative solutions, including partnering with health-care providers and using technology to facilitate overcoming common barriers to family EP.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/dmp.2024.89

Author contributions

Gary Glauberman: Conceptualization, Methodology, Validation, Formal analysis, Investigation, Data Curation, Writing - Original Draft, Reviewing and Editing, Visualization, Project administration, Funding acquisition; Holly Fontenot: Conceptualization, Methodology, Validation, Formal analysis, Resources, Writing - Reviewing and Editing, Supervision; Eunjung Lim: Methodology, Formal analysis, Data Curation, Writing - Original Draft, Visualization.

Funding statement

Funding for the study was provided by the Victoria S. and Bradley L. Geist fund of the Hawaii Community Foundation. Dr. Fontenot has received investigator-initiated grant funding from Merck related to adolescent vaccination. Eunjung Lim was partially supported by Ola Hawaii (U54MD007691) and PIKO (U54GM138062) from the National Institutes of Health. Drs. Glauberman, Fontenot, and Lim confirm that their funding source(s) were not involved in the conduct of this work.

Competing interests

No other authors have conflicts of interest to report; nor competing financial interests.

References

World Health Organization. Health emergencies. Published 2023. Accessed July 20, 2023. https://www.who.int/our-work/health-emergencies Google Scholar
Healthy People 2030. Emergency Preparedness. U.S. Department of Health and Human Services. Published 2022. Accessed February 10, 2021. https://health.gov/healthypeople/objectives-and-data/browse-objectives/emergency-preparedness Google Scholar
Hamann, CJ, Mello, E, Wu, H, et al. Disaster preparedness in rural families of children with special health care needs. Disaster Med Public Health Prep. 2016;10(2):225-232. doi: 10.1017/dmp.2015.159 Google Scholar
Ryan, MT, Rohrbeck, CA, Wirtz, PW. The importance of self-efficacy in parental emergency preparedness: a moderated mediation model. Disaster Med Public Health Prep. 2018;12(3):345-351. doi: 10.1017/dmp.2017.80 Google Scholar
Zamboni, LM, Martin, EG. Association of US households’ disaster preparedness with socioeconomic characteristics, composition, and region. JAMA Netw Open. 2020;3(4):e206881. doi: 10.1001/jamanetworkopen.2020.6881 Google Scholar
Kruger, J, Chen, B, Heitfeld, S, et al. Attitudes, motivators, and barriers to emergency preparedness using the 2016 styles survey. Health Promot Pract. 2020;21(3):448-456. doi: 10.1177/1524839918794940 Google Scholar
Levac, J, Toal-Sullivan, D, O‘Sullivan TL. Household emergency preparedness: a literature review. J Community Health. 2012;37(3):725-733. doi: 10.1007/s10900-011-9488-x Google Scholar
Federal Emergency Management Agency. 2022 national household survey on disaster preparedness (NHS). Published 2022. Accessed August 25, 2023. https://fema-community-files.s3.amazonaws.com/2022-National-Household-Survey.pdf Google Scholar
Centers for Disease Control and Prevention. Caring for children in a disaster. Published January 27, 2021. Accessed February 9, 2022. https://www.cdc.gov/childrenindisasters/index.html Google Scholar
Strid, P, Fok, CCT, Zotti, M, et al. Disaster preparedness among women with a recent live birth in Hawaii – results from the Pregnancy Risk Assessment Monitoring System (PRAMS), 2016. Disaster Med Public Health Prep. 2025;16(5):2005-2014. doi: 10.1017/dmp.2021.274 Google Scholar
US Department of Health and Human Services. Theory at a Glance: A Guide for Health Promotion Practice. 2nd ed. 2005. https://cancercontrol.cancer.gov/sites/default/files/2020-06/theory.pdf Google Scholar
Murphy, ST, Cody, M, Frank, LB, et al. Predictors of emergency preparedness and compliance. Disaster Med Public Health Prep. 2009. doi: 10.1097/DMP.0b013e3181a9c6c5Google Scholar
Lindell, MK, Hwang, SN. Households’ perceived personal risk and responses in a multihazard environment. Risk Anal. 2008;28(2):539-556. doi: 10.1111/j.1539-6924.2008.01032.x Google Scholar
Martin, IM, Bender, H, Raish, C. What motivates individuals to protect themselves from risks: the case of wildland fires. Risk Anal. 2007;27(4):887-900. doi: 10.1111/j.1539-6924.2007.00930.x Google Scholar
Becker, JS, Paton, D, Johnston, DM, et al. Salient beliefs about earthquake hazards and household preparedness. Risk Anal. 2013;33(9):1710-1727. doi: 10.1111/risa.12014 Google Scholar
PhenX Toolkit. Protocol - food insecurity. Published 2023. Accessed January 5, 2024. https://www.phenxtoolkit.org/protocols/view/270301?origin=search Google Scholar
Buenconsejo-Lum, LE, Qureshi, K, Palafox, NA, et al. A report on the impact of the COVID-19 pandemic on the health and social welfare in the state of Hawai’i. Hawaii J Health Soc Welf. 2021;80(9):12.Google Scholar
Glauberman, G, Wong, DK, Qureshi, K. Experience of parents of preschool children in Hawaii during the COVID-19 pandemic. Public Health Nurs. 2022;39(5):949-957. doi: 10.1111/phn.13076 Google Scholar
Heagele, TN, Nurse-Clarke, NJ. A nurse-led home disaster preparedness intervention for new parents. Neonatal Netw. 2022;41(1):5-10. doi: 10.1891/11-T-714 Google Scholar
Gollwitzer, PM, Brandstätter, V. Implementation intentions and effective goal pursuit. J Pers Soc Psychol. 1997;73(1):186-199.Google Scholar
Rivera, JD. The likelihood of having a household emergency plan: understanding factors in the US context. Nat Hazards (Dordr). 2020;104(2):1331-1343. doi: 10.1007/s11069-020-04217-z Google Scholar
Cong, Z, Chen, Z. How are Asian-Americans different from other races in disaster preparedness in the context of caregiving responsibilities and preparation information access? Nat Hazards (Dordr). 2022;112(3):2217-2236. doi: 10.1007/s11069-022-05262-6 Google Scholar
Bethel, JW, Burke, SC, Britt, AF. Disparity in disaster preparedness between racial/ethnic groups. Disaster Health. 2013;1(2):110-116. doi: 10.4161/dish.27085 Google Scholar
DeYoung, S, Peters, M. My community, my preparedness: the role of sense of place, community, and confidence in government in disaster readiness. Int J Mass Emerg Disasters. 2016;34(2):250-282.Google Scholar
Olympia, RP, Rivera, R, Heverley, S, et al. Natural disasters and mass-casualty events affecting children and families: a description of emergency preparedness and the role of the primary care physician. Clin Pediatr (Phila). 2010;49(7):686-698. doi: 10.1177/0009922810364657 Google Scholar
So, M, Franks, JL, Cree, RA, et al. An evaluation of the literacy demands of online natural disaster preparedness materials for families. Disaster Med Public Health Prep. 2020;14(4):449-458. doi: 10.1017/dmp.2019.62 Google Scholar
Johnston, DM, Paton, D, Crawford, G, et al. Measuring tsunami preparedness in coastal Washington, United States. Nat Hazards. 2005;35:173-184.Google Scholar
Xiang, T, Gerber, BJ, Zhang, F. Language access in emergency and disaster preparedness: an assessment of local government “whole community” efforts in the United States. Int J Disaster Risk Reduct. 2021;55:102072. doi: 10.1016/j.ijdrr.2021.102072 Google Scholar
Toor, KT, Burke, RV, Demeter, NE, et al. Improving disaster preparedness of families with a parenteral nutrition–dependent child. J Pediatr Gastroenterol Nutr. 2018;67(2):237-241.Google Scholar
McAtee, KJ, Bedenbaugh, R, Lakis, DC, et al. Emergency preparedness and disaster response: there’s an app for that 2.0. Prehosp Disaster Med. 2022;37(1):117-123. doi: 10.1017/S1049023X21001321 Google Scholar
Tan, ML, Prasanna, R, Stock, K, et al. Understanding end-users’ perspectives: towards developing usability guidelines for disaster apps. Prog Disaster Sci. 2020;7:100118. doi: 10.1016/j.pdisas.2020.100118 Google Scholar
Pandit, JA, Radin, JM, Quer, G, et al. Smartphone apps in the COVID-19 pandemic. Nat Biotechnol. 2022;40(7):1013-1022. doi: 10.1038/s41587-022-01350-x Google Scholar
Wu, N. Hawaii COVID-19 exposure notification app to shut down. Honolulu Star-Advertiser. Published May 9, 2023. Accessed January 5, 2024. https://www.staradvertiser.com/2023/05/09/breaking-news/hawaii-covid-19-exposure-notification-app-to-shut-down/ Google Scholar
Figure 0

Table 1. Subject characteristics by emergency preparedness kit and emergency plan

Figure 1

Table 2. Adjusted odds ratios and 95% confidence intervals for multinomial logistic regression model for emergency preparedness kit

Figure 2

Table 3. Subject characteristics by family emergency plan

Figure 3

Table 4. Adjusted odds ratios and 95% confidence intervals for multinomial logistic regression model for family emergency plan

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