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Evaluation of the use of visual storytelling as an educational intervention in the cardiac ICU: reaching parents before they are in crisis

Published online by Cambridge University Press:  22 December 2023

Meghan M. Chlebowski*
Affiliation:
Department of Pediatrics, University of Cincinnati College of Medicine, Cincinnati, OH, USA Heart Institute, Cincinnati Children’s Hospital Medical Center, Cincinnati, OH, USA
Christiana Stark
Affiliation:
Department of Pediatrics, University of Cincinnati College of Medicine, Cincinnati, OH, USA Heart Institute, Cincinnati Children’s Hospital Medical Center, Cincinnati, OH, USA
Philip R. Khoury
Affiliation:
Department of Epidemiology, Tulane University, New Orleans, LA, USA
Huaiyu Zang
Affiliation:
Heart Institute, Cincinnati Children’s Hospital Medical Center, Cincinnati, OH, USA
Julia Baenziger
Affiliation:
Heart Institute and the Division of Behavioral Medicine and Clinical Psychology, Heart and Mind Wellbeing Center, Cincinnati Children’s Hospital Medical Center, Cincinnati, OH, USA
Nadine A. Kasparian
Affiliation:
Department of Pediatrics, University of Cincinnati College of Medicine, Cincinnati, OH, USA Heart Institute and the Division of Behavioral Medicine and Clinical Psychology, Heart and Mind Wellbeing Center, Cincinnati Children’s Hospital Medical Center, Cincinnati, OH, USA
*
Corresponding author: M. M. Chlebowski; Email: [email protected]
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Abstract

Objective:

To evaluate the acceptability and safety of educational videos utilising visual storytelling to provide information about the cardiac ICU and post-operative care to parents. Videos were designed to educate, further encourage parents to engage in their child’s cardiac care, and address common sources of distress.

Study Design:

Two educational videos and survey were sent to 29 families of children previously admitted to the cardiac ICU (April 2020–March 2021). Views regarding information quality, quantity, format, and relevance were assessed, as were parents’ emotional responses. Quantitative thresholds for safety and acceptability were set a priori. An inductive approach to content analysis was applied to identify themes in qualitative data.

Results:

Sixteen parents participated (response rate: 55%). All acceptability and safety thresholds were met; 92% of parents rated the videos as helpful and 85% were “very” or “extremely likely” to recommend them to other families of children with CHD. No participants reported significant distress after viewing the videos. Expressions of parental engagement with their child’s care team were common (92%). In qualitative responses, parents perceived the videos as potentially helpful in reducing distress if viewed prior to cardiac ICU admission.

Conclusion:

Visual storytelling to orient parents to the cardiac ICU and address common stressors was found to be safe and acceptable when tested with parents of children previously admitted to the cardiac ICU. Further prospective studies are needed to test intervention effects when videos are viewed before or during cardiac ICU admission, especially for mitigating anxiety and traumatic stress associated with admission.

Type
Original Article
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), 2023. Published by Cambridge University Press

Paediatric admission to an ICU is associated with anxiety and traumatic stress among children and their parents and caregivers. Reference Kasparian, Kan, Sood, Wray, Pincus and Newburger1 Post-traumatic stress disorder has been identified in 10–21% of parents of children in the ICU with up to 84% of parents reporting traumatic stress symptoms post-discharge. Reference Nelson and Gold2 While there are mixed findings regarding the association between parental distress and child disease severity, studies consistently report a strong link between parental psychological distress during ICU admission and symptoms of distress in their child. Reference Nelson and Gold2Reference Terp and Sjöström-Strand4 Children with complex CHD are oftentimes admitted to the paediatric or cardiac ICU, placing them and their parents at risk for adverse psychological outcomes. A recent systematic review identified traumatic stress symptoms warranting clinical intervention among 30% of parents of children with complex CHD (CHD requiring cardiac surgery in infancy) and over 80% reported high levels of psychological distress during hospitalisation. Reference Woolf-King, Anger, Arnold, Weiss and Teitel5 Elevated anxiety is well documented among parents during their infant’s admission for cardiac surgery, with excessive worry being the most common symptom reported. Reference Hearps, McCarthy and Muscara6 When surveyed in other studies, parents often reported feeling helpless and frightened during their child’s admission, with common stressors including the sights, sounds, and smells of the ICU environment, seeing their child afraid or in pain, not knowing what to expect, and loss of their parental role. Reference Balluffi, Kassam-Adams, Kazak, Tucker, Dominguez and Helfaer3,Reference Lisanti, Kumar, Quinn, Chittams, Medoff-Cooper and Demianczyk7

While several studies have attempted to address parental traumatic stress after ICU discharge Reference Nelson and Gold2,Reference Nadel, Als and Garralda8Reference Als, Nadel, Cooper, Vickers and Garralda10 and have shown the benefit of providing information and anticipatory guidance regarding psychological responses, very few have evaluated proactive strategies to prevent or reduce distress, including in parents of children with CHD. While many ICU admissions are not planned, children with CHD admitted to the ICU for surgery offers a unique opportunity for planned intervention in most cases.

There is a growing need and desire for evidence-based digital health interventions for families of children living with a health condition. Reference Mörelius, Robinson, Arabiat and Whitehead11 The use of visual storytelling through video animations, including cartoon animations, is an emerging tool for adult medical education. Reference Moe-Byrne, Evans, Benhebil and Knapp12 The use of both images and text enhances understanding by activation of different information processing pathways and also fosters connections between new information and existing knowledge to increase recall. Reference Green and Myers13,Reference Mayer and Sims14 Images and videos can also provide unspoken subtext and elicit visceral reactions that may not be conveyed by text alone. Reference Silver15 There is evidence that animations enhance knowledge and the recall of facts related to specific healthcare interventions. Reference Schnellinger, Finkelstein, Thygeson, Vander Velden, Karpas and Madhok16,Reference Leiner, Handal and Williams17 Animations can also highlight important content better than a photographic video Reference Kakinuma, Nagatani, Otake, Mizuno and Nakata18 and may be more acceptable to adults who do not want to see realistic portrayals of medical interventions. Reference Kakinuma, Nagatani, Otake, Mizuno and Nakata18,Reference Salzwedel, Petersen, Blanc, Koch, Goetz and Schuster19 In addition, animations may be especially helpful for adults with limited literacy skills or low confidence engaging with medical information. Reference Newton, Thorogood, Bhavnani, Pitt, Gibbons and Gelbier20

Given the prevalence of anxiety and traumatic stress among parents and caregivers, herein referred to as parents, of children with CHD admitted to the cardiac ICU, we developed an educational intervention utilising visual storytelling to (1) introduce parents to the cardiac ICU environment, (2) provide anticipatory guidance regarding their child’s admission and common stressors, and (3) further encourage parents to take an active role in their child’s care. Our goal in this initial study was to do user-centred testing of the intervention with parents who already had experience with cardiac ICU admission, as a first step to establishing whether the intervention is safe and acceptable for use with parents. Parental reactions to the newly developed intervention were assessed, including perceptions of intervention safety, quality, quantity, format, and relevance, as well as the perceived potential for the intervention to reduce parental anxiety and traumatic stress, and encourage engagement during their child’s cardiac ICU admission.

Materials and methods

Study design

This cross-sectional, mixed-methods study was carried out at a single, tertiary care children’s hospital in Cincinnati, Ohio, treating all children with complex CHD (Institutional Review Board Approval: 2021-0203). The initial study incorporated user-centred design Reference Boland, Rusanov and So21 to explore parental use and perceptions of a newly developed educational intervention utilising visual storytelling to convey information to parents about the cardiac ICU.

Intervention development

The educational intervention consisted of two animated videos using visual storytelling. The videos were co-created through collaboration between a cardiac ICU physician, medical educator, and sibling of an infant with CHD and a professional team of creative experts, many of whom were parents or caregivers to family members with chronic medical conditions requiring repeated hospitalisation. Video elements and associated learning principles implemented to maximise information processing and retention Reference Brame22 are shown in Table 1. In accordance with best practice guidelines, 23 all language and conversational audio were set to below fifth-grade literacy level.

Table 1. Intervention development – description of video topics and associated learning strategies.

Video A (1:08 minutes) showed a school-age child and her family including her mother, father, brother, and grandmother as well as members of the care team. It included introductory information about the different members of the cardiac ICU care team, parents’ role as members of the care team, principles of family-centred care, and common stressors in the cardiac ICU environment, including monitoring devices and alarms. Video B (4:16 minutes) showed an infant alongside her mother and father and various members of the care team throughout the video discussing the basics of post-operative care, including ICU monitoring, use of a breathing tube or ventilator, chest tubes, temporary pacing wires, and common medications. Milestones leading to transfer from the cardiac ICU to the cardiology step-down unit are described to help establish parental expectations. Validation of the parents’ important role in their child’s recovery and further information on common stressors is provided. Supplementary Figure S1 illustrates exemplar features.

Participants and recruitment strategy

In this first user-centred design study to examine intervention safety and acceptability, parents with experience of cardiac ICU admission were identified via the hospital cardiac ICU database. Parents or grandparents caring for a living child aged 0–18 years who had undergone cardiac surgery for the first time between 1 April, 2020 and 31 March, 2021 were eligible for the study. Parents were aged ≥ 18 years, contactable via e-mail, and able to participate in English. To reduce participant burden, parents with severe or chronic untreated mental illness, intellectual disability, or dementia were not approached, nor were parents of children admitted to the cardiac ICU for organ transplantation. To ensure sample heterogeneity and to ascertain a range of views and experiences from as many different perspectives as possible, purposive sampling was employed. Reference Palinkas, Horwitz, Green, Wisdom, Duan and Hoagwood24 Consistent with this approach, chart review was performed to ensure parents represented children with varied surgical and post-operative course complexity, admission duration, prior healthcare exposure (e.g. hospital and ICU admissions, procedures, and surgeries), and health insurance types. Mothers and fathers were invited and encouraged to participate.

Procedures

Parents were asked to watch two videos and complete one survey via the secure survey platform, REDCap. Parents were emailed a detailed study information sheet and a personalised link to the study consent form, educational videos, and survey. If the survey was not completed within 2 weeks, a weekly reminder e-mail was sent over a 2-month period (October–November 2021). Reminder phone calls were made monthly to ensure e-mails had been received and all questions regarding the study had been answered.

Measures

A survey instrument was designed specifically to assess intervention acceptability, incorporating expert consultation, findings from literature review, and our previous research designing educational interventions for use in medical settings. Reference Kasparian, Mireskandari and Butow25Reference Blue, Kasparian, Sholler, Kirk and Winlaw28 Survey completion time was approximately 10 minutes and included the following items:

  1. 1. Acceptability and Safety (19 items): Thoroughness of video viewing and perceptions of video quality (0 = “Poor” to 4 = “Excellent”), format, and relevance of information were assessed. To assess safety, parents were asked to indicate their level of distress while watching (0 = “Not distressing at all” to 4 = “Very distressing”), whether the video elicited anxiety or feeling upset (0 = “Strongly disagree” to 4 = “Strongly agree”), as well as self-described emotional responses while watching the videos.

  2. 2. Perceived Helpfulness (19 items): Participants rated how helpful they perceived the videos to be (0 = “Not at all helpful” to 5 = “Extremely helpful”), the likelihood of recommending and sharing the videos with family, friends, and other families in the cardiac ICU (0 = “Not at all likely” to 5 = “Extremely likely”), the likelihood of the videos addressing parents’ questions, difficulties, or worries about the cardiac ICU (0 = “Not at all likely” to 5 = “Extremely likely”), and how helpful these videos may be in preparing parents for their child’s cardiac ICU admission (0 = “Not at all likely to help” to 5 = “Extremely likely to help”). Questions assessing perceived helpfulness of the videos in encouraging parents to be further involved in their child’s care, asking questions, reducing stress or anxiety, and setting expectations for transfer to the step-down unit (0 = “Not at all helpful” to 5 = “Extremely helpful”) were also included.

  3. 3. Dissemination Preferences (3 items): Parents preferences in terms of when to receive the videos (before admission, when first admitted, after being in the cardiac ICU for a few days, before discharge, or after cardiac ICU discharge), whether to watch the videos alone or with a member of the care team, and additional support needed were assessed.

  4. 4. Suggestions for Improvement (7 items): Space was provided throughout the survey for parents to offer suggestions for improving the presentation, story, and characters in the videos as well as any additional ideas for improvement and willingness to assist with future intervention re-design and modification.

  5. 5. Health Literacy (2 items): The Brief Health Literacy Screen (BHLS; 2 items Reference Chew, Bradley and Boyko29 ), is a self-report scale assessing parents, adult patients, and siblings’ need for assistance reading health-related materials (0 = “Never” to 4 = “Always”) and level of confidence completing medical forms (0 = “Not at all confident” to 4 = “Extremely confident”). Item 2 is reversed and scores summed, with higher scores indicating greater health literacy.

Demographic characteristics assessed included parent age and gender, insurance coverage, educational attainment, gross annual household income, child gender, and age at time of cardiac surgery. Clinical characteristics were collected via chart review, including primary cardiac diagnosis, cardiac surgical procedure and date, the Society of Thoracic Surgeons-European Association for Cardio-Thoracic Surgery (STAT) risk category, Reference O'Brien, Clarke and Jacobs30 and presence and description of major non-cardiac co-morbidities. Number and description of non-cardiac or cardiac non-surgical procedures (e.g. catheterisation), ICU admissions within 12 months prior to surgery, and cardiology step-down unit or ICU readmissions within 6 months post-surgery were also obtained to better characterise parents’ perceptions and understanding of the cardiac ICU.

Data analysis

Quantitative thresholds for safety and acceptability were set a priori. For acceptability, the following three measures were required: > 75% of participants “agree” or “strongly agree” the videos are helpful, > 75% of participants would be “very” or “extremely likely” to recommend the videos to other families to learn about the cardiac ICU, and < 20% of respondents select, “I did not think the videos were useful and did not want to continue watching.” For the intervention to be deemed safe, the following three measures were required: < 20% of participants rate the videos as “very distressing,” < 20% of participants “strongly agree” the videos made them feel anxious or upset, and < 20% of participants select “I found the videos upsetting and did not want to continue watching.” All statistical analyses were performed using the R statistical program (version 3.6.1, https://www.r-project.org/). Median ratings with 25–75th percentiles, or frequencies with percentages, were used to describe parent and child demographics and child clinical characteristics. Comparisons between participating and non-participating families were tested using Wilcoxon rank-sum tests for continuous variables and Chi-square tests for categorical variables. p-Values < 0.05 were considered statistically significant.

Qualitative data provided in free-text survey responses were coded and analysed in four phases using an inductive approach. Reference Miles and Huberman31 Initially, two authors independently read all responses, annotating reflections on salient content. Next, a set of agreed themes was generated. Subsequently, a narrative summary of each participant’s responses was developed identifying overall themes, and these themes were further discussed and interpreted by all authors. This iterative process was repeated until all responses had been interpreted. Finally, the salient findings across all surveys were represented by a set of descriptive and interpretive themes. These were synthesised, and overarching themes were developed and critically appraised into a final set of themes. Data were managed using Microsoft Excel.

Results

Response rate and sample characteristics

Of the 29 families invited to participate in the study, 16 parents consented (response rate 55%) and 13 parents completed all structured survey items, yielding a survey completion rate of 81%. Twelve participants (all biological mothers of a child with CHD) provided qualitative (written) responses in addition to structured (closed-ended) responses. Participants ranged in age from 23 to 48 years (mean age: 33 ± 7 years), 15 were biological mothers and 1 was a biological grandmother. Demographic and clinical characteristics of participating parents compared with those who declined study participation (i.e. non-participating families) are shown in Table 2. Median child age at cardiac surgery was 6 months (25th–75th percentile: 0.25–13.69). STAT risk categories were evenly distributed across the sample, with at least two patients in each of the five STAT categories.

Table 2. Demographic differences.

a Data are presented as medians with 25–75th percentiles and frequencies with percentages.

b p-Values are calculated using Chi-square test or Wilcoxon rank-sum test.

c Total number of co-morbidities accounting for patients who have more than one co-morbidity.

d NA = not available.

Intervention use and dissemination preferences

Almost all parents (81%) reported watching both videos from start to finish. Most perceived the length of each video as “just right” (92%). All parents rated the amount of information included in each video as “just right” and described the videos as “professional,” “warm,” and “inviting.” No parents rated the videos as “too plain or boring,” “confusing,” “difficult to follow, too busy or cluttered,” or “worrying or upsetting.” Nearly all parents (92%) “agreed” or “strongly agreed” that the videos included diverse characters. Most parents (85%) indicated a preference for watching the videos before cardiac ICU admission, and most (85%) would prefer to watch the videos on their own but would like a nurse, doctor, or other health professional available to answer any questions.

Acceptability and safety

All a priori thresholds for acceptability and safety were met (Table 3). In total, 92% of parents “agreed” or “strongly agreed” that the videos were helpful and 85% were “very” or “extremely likely” to recommend the videos to other families of children with CHD to learn about the cardiac ICU. Over three-quarters (77%) of respondents were “very” or “extremely likely” to share the videos with family and friends, including siblings, to better understand experiences in the cardiac ICU. In terms of safety metrics, no parents rated the videos as “very distressing,” none “strongly agreed” that the videos made them feel anxious or upset, and no respondents endorsed the statement “I found the videos upsetting and did not want to continue watching.”

Table 3. Acceptability and safety metrics.

Perceived helpfulness of the intervention

Almost all parents (92%) rated the videos as helpful in reducing parental stress and anxiety related to cardiac ICU admission; only one parent perceived the videos as “not at all helpful” in reducing parental stress and anxiety. Five parents viewed Video B, which focused on post-operative care and expectations for transfer to the step-down unit, as “much better at reducing stress” than Video A. The step-by-step information about what was going to happen to after their child’s surgery and milestones for transfer to the step-down unit were viewed as especially helpful. All but two parents rated the videos as “very” or “extremely helpful” in encouraging parents to be involved in their children’s care during cardiac ICU admission, and almost all (92%) “agreed” or “strongly agreed” the videos supported their role as an important member of their child’s care team during admission.

Qualitative themes

Four major themes were identified in qualitative responses from 12 mothers: (1) Experiences of the Intervention, (2) Improvements, (3) Emotional Responses, and (4) Sharing with Others (Table 4).

Table 4. Examples of qualitative feedback from participant mothers.

N = number of mothers reporting feedback in relation this theme/node.

Experiences of the intervention

All mothers believed the videos would help families to know what to expect during their child’s cardiac ICU admission. Six mothers perceived the videos as conveying information in a concise and easy-to-understand manner: “It really explained step-by-step what was going to happen and how you are going to get through it and all the people that were going to help you” (participant identification (ID) number 3). Three mothers mentioned the need for sensitive timing when providing the videos to families and the need for additional family support, considering the emotional impact of the journey ahead: “They were great, but even better if parents actually had time to emotionally prepare before their stay began.” (ID 7). Additionally, one mother shared, “Thank you for having me contribute. This in and of itself helps me feel like a valuable member of the team” (ID 6).

Suggestions for improvement

Six parents explicitly stated they had no suggestions for intervention improvement and one parent shared “I liked everything” (ID 30). Six mothers offered recommendations to improve the videos, including changing the dialogue in Video A to ensure the gravity of the cardiac ICU admission was not downplayed. Other suggestions included adding more realistic images (n = 3), such as “real-life illustrations versus animated versions of what families would see in the room” (ID 17). Two mothers expressed the desire for a video explaining the gravity of the post-surgery and post-discharge experience, and one mother acknowledged the need for a COVID-19-friendly version of the videos. Five mothers found Video B on post-surgical aspects more helpful than Video A introducing the cardiac ICU.

Emotional responses

Eleven mothers viewed the videos as a useful tool for preparing parents and said they would embrace the opportunity to ask questions of health professionals after viewing. One mother mentioned, “This is still a pretty anxiety-inducing process and the videos may raise more questions than answers BUT it is an incredibly helpful start” (ID 2). Many of the mothers described cardiac ICU admission as emotionally challenging and perceived the videos as helping parents to navigate this journey. One mother stated the videos, “would have made me feel less anxious for sure at already a very stressful time” and “(the) calmness of the video was great at making me feel everything was going to be ok” (ID 9). Two mothers mentioned the videos brought back difficult memories of their experience (ID 7,11). One mother described that a folder outlining parental resources had been incredibly helpful for her and another expressed the desire for support from a psychologist during their cardiac ICU stay.

Sharing with others

Ten mothers expressed a desire to share the videos with families, friends, and/or siblings: “I really hope that these videos are shared ASAP, they are so, so helpful!” (ID 9). They felt the videos could alleviate the burden of having to repeatedly explain their experiences to others. One mother of a 3-year-old son shared, “It would be helpful to explain some things to extended family in a way that would inform but not scare them” (ID 10). Mothers perceived the videos as child-friendly and could help siblings aged 4–17 years to prepare for and adjust to the experience. Most mothers did not think the videos would be appropriate for siblings aged 3 years or younger.

Discussion

To our knowledge, this is the first study to demonstrate the acceptability and safety of visual storytelling in the form of educational videos designed for parents of children previously admitted to the cardiac ICU for cardiac surgery. Key goals of the newly developed educational videos were to: (1) introduce the cardiac ICU environment, (2) provide anticipatory guidance to parents as they navigate their child’s admission and common stressors, and (3) further encourage parents to take an active role in their child’s care during hospital admission. Given this was the first user-centred test of the intervention, we sought the views and perceptions of parents of children previously admitted to the cardiac ICU, to provide input into intervention relevance and acceptability, as well as any modifications needed, based on their experiences. Overall, results were very positive. Nearly all parents found the videos helpful in providing information on what to expect during their child’s admission and would recommend sharing the intervention with other families as they navigate their child’s journey through the cardiac ICU. Most parents (85%) perceived the videos as “very” or “extremely helpful” in encouraging parents to be involved in their child’s care, and almost all (92%) “agreed” or “strongly agreed” the videos emphasised parents’ central role in their child’s care team. This highlights the way in which simple educational methods, such as videos utilising visual storytelling, may serve as critical tools to foster a strong alliance between parents and the multidisciplinary cardiac ICU care team.

Our findings suggest that visual storytelling may serve as an important educational resource in addressing parents’ information and support needs in the cardiac ICU setting, especially if provided prior to cardiac ICU admission. Parents indicated a clear preference to watch the videos on their own, with opportunities to ask their child’s cardiac care team questions, if necessary. Coupled with provider follow-up and psychological care, it is possible this intervention may serve to reduce parental distress and improve knowledge-sharing and engagement before, during, and after cardiac ICU admission, though this remains a hypothesis to be tested in future studies with larger samples.

Study limitations

Several study limitations warrant discussion. Overall, while participants in the study were representative of diverse socio-economic groups, healthcare experiences, and CHD types, the small sample size and timing of the intervention precluded generalisability of results across experiences throughout a child’s hospitalisation and was limited only to parental recall from prior cardiac ICU admissions. Restrictions placed on in-person research during the study period due to the COVID-19 pandemic limited the research design to an online survey. Survey questions were voluntary, resulting in some missing data. The survey response rate did exceed the average response rate for online surveys based on a recent metanalysis; Reference Daikeler and Silber32 however, limited qualitative response data may have inhibited the ability to understand all possible themes within this study population. Furthermore, while the study was offered to all parents irrespective of gender, responses were received only from caregivers who identified as female, thus limiting the available views and perspectives, especially those of fathers who may have different informational preferences. Similarly, the views of parents without private health insurance were also under-represented. In future studies, we will work to address the limitations identified in the present study to improve diversity and inclusion in this research.

Implications for future research and practice

In term of next steps, the results of the present study and all feedback received will be used to directly inform the refinement of the educational intervention. In addition, this work is complemented by work done to identify vulnerable populations who may benefit from novel educational strategies and emotional support resources for parents in the cardiology step-down unit to improve discharge readiness Reference Kim, Kasparian and Zang33 and further the mission of a multifaceted approach to the education of parents of children with CHD. Seven participants indicated their willingness to serve as parent partners in the re-design and modification of the intervention materials for use in future studies. We also plan to partner with non-English speaking families to develop materials in other languages. Once modifications have been made, we plan to invite parents to participate in a larger, quantitative study of responses to the intervention and to use these findings to guide the design of a longitudinal randomised controlled trial to prospectively test the effects of the intervention on parental anxiety, depression and traumatic stress, as well as engagement during in their child’s cardiac ICU admission. We also plan to analyse different subgroups of children undergoing cardiac surgery, such as those with higher medical or surgical complexity, to determine if different anticipatory support is needed. After the educational intervention has been comprehensively tested and validated, we plan to disseminate the resource widely in response to parents’ feedback.

Conclusions

This first user-centred design study provides preliminary evidence supporting the use of visual storytelling as an acceptable and safe educational intervention for parents of children previously admitted to the cardiac ICU. The newly developed intervention was perceived by these parents as safe, informative, relevant, and helpful, especially if offered prior to cardiac ICU admission and may serve to complement existing supports and resources to provide anticipatory guidance before families are in crisis. Next steps include refinement of the intervention to incorporate the feedback received and then testing in larger studies to examine the effects of visual storytelling as a possible complementary educational tool in a more diverse sample of parents of children with CHD both before and during cardiac ICU admission.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S1047951123004201.

Acknowledgements

None.

Financial support

Statistical and regulatory support was provided by the Heart Institute Research Core (HIRC), Cincinnati Children’s Hospital Medical Center. MMC received HIRC funding for the project. JB is the recipient of an Early Post-doctoral Mobility Fellowship from the Swiss National Science Foundation (SNSF Grant P2LUP1_195091). NAK is the recipient of a National Heart Foundation of Australia Future Leader Fellowship (101229) and support from HIRC and the Additional Ventures Single Ventricle Research Fund. Funders had no role in study design, collection, analysis, or interpretation of data, manuscript preparation, or the decision to submit the article for publication.

Competing interests

None.

Ethical standard

The authors assert that all procedures contributing to this work comply with the ethical standards of the relevant national guidelines on human experimentation (Title 45 of the Code of Federal Regulations) and with the Helsinki Declaration of 1975, as revised in 2008, and have been approved by the institutional committee (Institutional Review Board Approval: 2021-0203).

References

Kasparian, NA, Kan, JM, Sood, E, Wray, J, Pincus, HA, Newburger, JW. Mental health care for parents of babies with congenital heart disease during intensive care unit admission: systematic review and statement of best practice. Early Hum Dev 2019; 139: 104837.Google Scholar
Nelson, LP, Gold, JI. Posttraumatic stress disorder in children and their parents following admission to the pediatric intensive care unit: a review. Pediatr Crit Care Med 2012; 13: 338347.Google Scholar
Balluffi, A, Kassam-Adams, N, Kazak, A, Tucker, M, Dominguez, T, Helfaer, M. Traumatic stress in parents of children admitted to the pediatric intensive care unit. Pediatr Crit Care Med 2004; 5: 547553.Google Scholar
Terp, K, Sjöström-Strand, A. Parents' experiences and the effect on the family two years after their child was admitted to a PICU - an interview study. Intensive Crit Care Nurs 2017; 43: 143148.10.1016/j.iccn.2017.06.003CrossRefGoogle ScholarPubMed
Woolf-King, S, Anger, A, Arnold, E, Weiss, S, Teitel, D. Mental health among parents of children with critical congenital heart defects: a systematic review. J Am Heart Assoc 2017; 6: e004862.Google Scholar
Hearps, S, McCarthy, M, Muscara, F, et al. Psychosocial risk in families of infants undergoing surgery for a serious congenital heart disease. Cardiol Young 2014; 24: 632639.Google Scholar
Lisanti, AJ, Kumar, A, Quinn, R, Chittams, JL, Medoff-Cooper, B, Demianczyk, AC. Role alteration predicts anxiety and depressive symptoms in parents of infants with congenital heart disease: a pilot study. Cardiol Young 2021; 31: 18421849.10.1017/S1047951121001037CrossRefGoogle ScholarPubMed
Nadel, S, Als, LC, Garralda, ME. Treatment of parental post-traumatic stress disorder after PICU admission: who, what, where, when? Pediatr Crit Care Med 2015; 16: 877878.10.1097/PCC.0000000000000502CrossRefGoogle ScholarPubMed
Baker, SC, Gledhill, JA. Systematic review of interventions to reduce psychiatric morbidity in parents and children after PICU admissions. Pediatr Crit Care Med 2017; 18: 343348.Google Scholar
Als, LC, Nadel, S, Cooper, M, Vickers, B, Garralda, ME. A supported psychoeducational intervention to improve family mental health following discharge from paediatric intensive care: feasibility and pilot randomised controlled trial. BMJ Open 2015; 5: e009581.Google Scholar
Mörelius, E, Robinson, S, Arabiat, D, Whitehead, L. Digital interventions to improve health literacy among parents of children aged 0 to 12 years with a health condition: systematic review. J Med Internet Res 2021; 23: e31665.Google Scholar
Moe-Byrne, T, Evans, E, Benhebil, N, Knapp, P. The effectiveness of video animations as information tools for patients and the general public: a systematic review. Front Digit Health 2022; 4: 114.Google Scholar
Green, MJ, Myers, KR. Graphic medicine: use of comics in medical education and patient care. BMJ (Clin Res Ed) 2010; 340: c863.Google Scholar
Mayer, RE, Sims, VK. For whom is a picture worth a thousand words? extensions of a dual-coding theory of multimedia learning. J Educ Psychol 1994; 86: 389401.Google Scholar
Silver, D. Songs and storytelling: bringing health messages to life in Uganda. Educ Health (Abingdon) 2001; 14: 5160.Google Scholar
Schnellinger, M, Finkelstein, M, Thygeson, MV, Vander Velden, H, Karpas, A, Madhok, M. Animated video vs pamphlet: comparing the success of educating parents about proper antibiotic use. Pediatrics 2010; 125: 990996.Google Scholar
Leiner, M, Handal, G, Williams, D. Patient communication: a multidisciplinary approach using animated cartoons. Health Educ Res 2004; 19: 591595.Google Scholar
Kakinuma, A, Nagatani, H, Otake, H, Mizuno, J, Nakata, Y. The effects of short interactive animation video information on preanesthetic anxiety, knowledge, and interview time: a randomized controlled trial. Anesth Analg 2011; 112: 13141318.Google Scholar
Salzwedel, C, Petersen, C, Blanc, I, Koch, U, Goetz, AE, Schuster, M. The effect of detailed, video-assisted anesthesia risk education on patient anxiety and the duration of the preanesthetic interview: a randomized controlled trial. Anesth Analg 2008; 106: 202209.Google Scholar
Newton, JT, Thorogood, N, Bhavnani, V, Pitt, J, Gibbons, DE, Gelbier, S. Barriers to the use of dental services by individuals from minority ethnic communities living in the United Kingdom: findings from focus groups. Prim Dent Care 2001; 8: 157161.10.1308/135576101322462228CrossRefGoogle Scholar
Boland, MR, Rusanov, A, So, Y, et al. From expert-derived user needs to user-perceived ease of use and usefulness: a two-phase mixed-methods evaluation framework. J Biomed Inform 2014; 52: 141150.Google Scholar
Brame, CJ. Effective Educational Videos. Nashville, TN: Vanderbilt University; 2015.Google Scholar
The Joint Commission: Advancing Effective Communication, Cultural Competence, and Patient- and Family-centered Care: a Roadmap for Hospitals. Oakbrook Terrace, IL: The Joint Commission; 2010.Google Scholar
Palinkas, LA, Horwitz, SM, Green, CA, Wisdom, JP, Duan, N, Hoagwood, K. Purposeful sampling for qualitative data collection and analysis in mixed method implementation research. Adm Policy Ment Health 2015; 42: 533544.Google Scholar
Kasparian, NA, Mireskandari, S, Butow, PN, et al. Melanoma: questions and answers: development and evaluation of a psycho-educational resource for people with a history of melanoma. Support Care Cancer 2016; 24: 48494859.10.1007/s00520-016-3339-3CrossRefGoogle ScholarPubMed
Dieng, M, Kasparian, NA, Mireskandari, S, et al. Psychoeducational intervention for people at high risk of developing another melanoma: a pilot randomised controlled trial. BMJ Open 2017; 7: e015195.Google ScholarPubMed
Kasparian, NA, De Abreu Lourenco, R, Winlaw, DS, Sholler, GF, Viney, R, Kirk, EP. Tell me once, tell me soon: parents’ preferences for clinical genetics services for congenital heart disease. Genet Med 2018; 20: 13871395.Google Scholar
Blue, GM, Kasparian, NA, Sholler, GA, Kirk, EP, Winlaw, DS. Genetic counselling in families affected by congenital heart disease significantly improves knowledge about causation and enhances psychosocial functioning. Int J Cardiol 2015; 178: 124130.10.1016/j.ijcard.2014.10.119CrossRefGoogle Scholar
Chew, LD, Bradley, KA, Boyko, EJ. Brief questions to identify patients with inadequate health literacy. Fam Med 2004; 36: 588594.Google Scholar
O'Brien, SM, Clarke, DR, Jacobs, JP, et al. An empirically based tool for analyzing mortality associated with congenital heart surgery. J Thorac Cardiovasc Surg 2009; 138: 11391153.Google Scholar
Miles, MB, Huberman, AM. Qualitative Data Analysis: An Expanded Sourcebook. 2nd edn. Sage, California, 1994.Google Scholar
Daikeler, J, Silber, H, Bosnjak. A meta-analysis of how country-level factors affect web survey response rates. Int J Mark Res 2022; 64: 306333.Google Scholar
Kim, ME, Kasparian, NA, Zang, H, et al. Are parent discharge readiness scores effective for patients with congenital heart disease after cardiac surgery? J Pediatr 2023; 257: 17.e3.Google Scholar
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Table 1. Intervention development – description of video topics and associated learning strategies.

Figure 1

Table 2. Demographic differences.

Figure 2

Table 3. Acceptability and safety metrics.

Figure 3

Table 4. Examples of qualitative feedback from participant mothers.

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