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Neuroblastoma survivors’ self-reported late effects, quality of life, health-care use, and risk perceptions

Published online by Cambridge University Press:  14 June 2023

Jessica Tan Open the ORCID record for Jessica Tan [Opens in a new window] ,
Jordana K. McLoone ,
Claire E. Wakefield ,
Natasha Nassar ,
Richard J. Cohn  and
Christina Signorelli Open the ORCID record for Christina Signorelli [Opens in a new window]
Jessica Tan
Affiliation:
Kids Cancer Centre, Sydney Children’s Hospital, Randwick, NSW, Australia Discipline of Paediatrics & Child Health, School of Clinical Medicine, UNSW Medicine & Health, Randwick Clinical Campus, UNSW Sydney, Sydney, NSW, Australia
Jordana K. McLoone
Affiliation:
Kids Cancer Centre, Sydney Children’s Hospital, Randwick, NSW, Australia Discipline of Paediatrics & Child Health, School of Clinical Medicine, UNSW Medicine & Health, Randwick Clinical Campus, UNSW Sydney, Sydney, NSW, Australia
Claire E. Wakefield
Affiliation:
Kids Cancer Centre, Sydney Children’s Hospital, Randwick, NSW, Australia Discipline of Paediatrics & Child Health, School of Clinical Medicine, UNSW Medicine & Health, Randwick Clinical Campus, UNSW Sydney, Sydney, NSW, Australia
Natasha Nassar
Affiliation:
Sydney School of Public Health, Faculty of Medicine and Health, University of Sydney, Sydney, NSW, Australia Children’s Hospital at Westmead Clinical School, Faculty of Medicine and Health, University of Sydney, Sydney, NSW, Australia
Richard J. Cohn
Affiliation:
Kids Cancer Centre, Sydney Children’s Hospital, Randwick, NSW, Australia Discipline of Paediatrics & Child Health, School of Clinical Medicine, UNSW Medicine & Health, Randwick Clinical Campus, UNSW Sydney, Sydney, NSW, Australia
Christina Signorelli*
Affiliation:
Kids Cancer Centre, Sydney Children’s Hospital, Randwick, NSW, Australia Discipline of Paediatrics & Child Health, School of Clinical Medicine, UNSW Medicine & Health, Randwick Clinical Campus, UNSW Sydney, Sydney, NSW, Australia
*
Corresponding author: Christina Signorelli; Email: c.signorelli@unsw.edu.au
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Abstract

Background

Survivors of childhood neuroblastoma are at risk of multiple treatment-related health problems (late effects), impacting their quality of life. While late effects and quality of life among Australia and New Zealand (ANZ) childhood cancer survivors have been reported, the outcomes of neuroblastoma survivors specifically have not been reported, limiting critical information to inform treatment and care.

Methods

Young neuroblastoma survivors or their parents (as proxy for survivors <16 years) were invited to complete a survey and optional telephone interview. Survivors’ late effects, risk perceptions, health-care use, and health-related quality of life were surveyed and analyzed using descriptive statistics and linear regression analyses. In-depth interviews explored participants’ experiences, knowledge, and perception of late effects and information needs. Thematic content analysis was used to summarize the data.

Results

Thirty-nine neuroblastoma survivors or parents completed questionnaires (median age = 16 years, 39% male), with 13 also completing interviews. Thirty-two participants (82%) reported experiencing at least 1 late effect, most commonly dental problems (56%), vision/hearing problems (47%), and fatigue (44%). Participants reported high overall quality of life (index = 0.9, range = 0.2–1.0); however, more participants experienced anxiety/depression compared to the population norm (50% met criteria versus 25%, χ2 = 13, p < 0.001). Approximately half of participants (53%) believed they were at risk of developing further late effects. Qualitatively, participants reported knowledge gaps in understanding their risk of developing late effects.

Conclusion

Many neuroblastoma survivors appear to experience late effects, anxiety/depression and have unmet cancer-related information needs. This study highlights important areas for intervention to reduce the impact of neuroblastoma and its treatment in childhood and young adulthood.

Keywords

Childhood cancerSurvivorshipNeuroblastomaLate effectsHealth-care useQuality of life
Type
Original Article
Information
Palliative & Supportive Care , Volume 22 , Issue 2 , April 2024 , pp. 296 - 305
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Copyright
© The Author(s), 2023. Published by Cambridge University Press.

Introduction

Neuroblastoma is a neural crest cell malignancy affecting 14.6 per million children aged 0–5 years in a 10-year period since 2003 in Oceania (Hubbard et al. Reference Hubbard, Spector and Fortuna2019). Compared to other childhood cancer survivors, neuroblastoma survivors have 1 of the lowest 5-year and 20-year relative survival rates (Baade et al. Reference Baade, Youlden and Valery2010). Unlike other childhood cancer survivors, the late mortality rates for neuroblastoma survivors have increased, partly attributable to increased survival among high-risk neuroblastoma patients that has also led to higher incidence of chronic disease (Armstrong et al. Reference Armstrong, Chen and Yasui2016). Late mortality in survivors is primarily due to disease recurrence, external or unknown causes, followed by long-term toxic side effects of neuroblastoma treatment, including second malignant neoplasms, pulmonary and cardiac complications (Laverdière et al. Reference Laverdière, Liu and Yasui2009).

Treatment-related chronic conditions (i.e. late effects) can appear years after treatment and are associated with poorer general health and psychosocial difficulties that can greatly reduce survivors’ health-related quality of life (HRQoL) (Elzembely et al. Reference Elzembely, Dahlberg and Pinto2019; Laverdière et al. Reference Laverdière, Liu and Yasui2009; Wilson et al. Reference Wilson, Brinkman and Cook2020). International studies have characterized the development of multiple late effects and their outcomes in neuroblastoma survivors (Laverdière et al. Reference Laverdière, Cheung and Kushner2005; Wilson et al. Reference Wilson, Brinkman and Cook2020). Late effects are understudied in Australia and New Zealand (ANZ), where large geographical areas serviced by few childhood cancer treatment centers (Ballantine et al. Reference Ballantine, Watson and Macfarlane2017; Jackson et al. Reference Jackson, Bissett and Macfarlane2020) may impact cancer-specific survivorship care and late-effects management (Barakat et al. Reference Barakat, Schwartz and Szabo2012).

ANZ neuroblastoma survivors have been included in cancer survivorship studies exploring the prevalence of specific late effects, such as second malignancies (Wilson et al. Reference Wilson, Cohn and Johnson2009), pain and fatigue (Kelada et al. Reference Kelada, Wakefield and Heathcote2019), dental problems (Hsieh et al. Reference Hsieh, Hibbert and Shaw2011), primary gonadal insufficiency (Gunn et al. Reference Gunn, Rinne and Emilsson2016), and psychological problems (Roberts et al. Reference Roberts, Robins and Gannoni2014; Yallop et al. Reference Yallop, McDowell and Koziol-mclain2013). Only a single institution study in ANZ has reported a range of late effects in neuroblastoma survivors treated with autologous stem cell transplantation (Trahair et al. Reference Trahair, Vowels and Johnston2007). A nation-wide data linkage study has described the incidence, survival, and recurrence of neuroblastoma in the past 3 decades and explored the incidence of secondary malignancies (Youlden et al. Reference Youlden, Jones and Cundy2020). However, neuroblastoma survivors have significant risks for developing a range of severe late effects and are among the highest risk for hospitalization compared to other childhood cancer survivors due to the intensity of the treatment they receive and the young age at which they are treated (de Fine Licht et al. Reference de Fine Licht, Rugbjerg and Gudmundsdottir2017). Thus, the needs of this group should be considered carefully to understand their unique health issues, which may be masked by inclusion in larger childhood cancer survivor studies.

Previous studies have shown that childhood cancer survivors’ knowledge of late effects and understanding of their risk of developing late effects is poor (Lee et al. Reference Lee, Gutierrez-Colina and Williamson Lewis2019; Syed et al. Reference Syed, Klassen and Barr2016; Vetsch et al. Reference Vetsch, Fardell and Wakefield2017). These showed that a substantial proportion of survivors who were exposed to toxic treatment were not concerned about their risk of developing late effects (Gibson et al. Reference Gibson, Li and Armstrong2018). Inaccurate risk perceptions can dissuade survivors from engaging with follow-up care and positive health behaviors (Signorelli et al. Reference Signorelli, Wakefield and Fardell2019b), which can delay the detection of late effects and result in poorer health outcomes (Signorelli et al. Reference Signorelli, Wakefield and Fardell2017a). Determining neuroblastoma survivors’ risk perceptions is therefore vital to understand potential barriers to engagement in follow-up care.

Characterizing the broad range of late effects experienced by ANZ neuroblastoma survivors may inform the design of interventions to minimize morbidity and mortality and provide care that meets neuroblastoma survivors’ needs. In this study, we aimed to describe neuroblastoma survivors’ self or proxy-reported late effects, HRQoL, health-care use (e.g. hospitalizations and health professional visits), and risk perception for future health problems (including late effects and cancer recurrence).

Methods

Participants

We recruited neuroblastoma survivors as a part of the Australian and New Zealand Childhood Cancer Survivorship Study (Signorelli et al. Reference Signorelli, Wakefield and McLoone2019a). We obtained ethics approval from the South Eastern Sydney Local Health District and each participating site. All participants provided written consent. We identified survivors using the electronic medical records of each of the 11 hospitals in ANZ that treat pediatric oncology cases. Survivors were eligible if they were diagnosed with neuroblastoma before the age of 16 years, had completed active treatment, and were at least 5 years post-diagnosis at study participation. If survivors were <16 years, their parents completed the questionnaire on their behalf.

Data collection

A hard copy and online link to the questionnaire and consent form were sent to participants, with nonrespondents followed up by telephone after 4 weeks. Within the questionnaire, participants were invited to take part in an optional telephone interview to discuss their experiences and perceptions of late effects in more depth. Those who agreed were mailed a second consent form, and a suitable interview time was arranged. We conducted semi-structured interviews over the phone and transcribed the interviews verbatim.

Study outcomes and measures

Study outcomes collected included survivor or proxy-reported late effects, HRQoL, perceived risk and worry about cancer recurrence and the development of late effects, previous hospitalizations, and health professional visits for self-perceived cancer-related reasons since finishing cancer treatment. We asked participants to indicate from a list of 19 late effects (listed in Fig. 1; response options “yes/no”) which conditions survivors experienced and which they believed were related to their cancer treatment (i.e. conditions which predated their diagnosis) based on commonly experienced late effects reported by survivors. Survivors’ HRQoL was measured using the EQ-5D instrument, and each health state was measured on a 5-point scale (1 = “no problems” and 5 = “I am unable to”) and then weighted using England EQ-5D-5L value set (Devlin et al. Reference Devlin, Shah and Feng2018) to calculate the index value from 0 to 1 (0 = the health state equivalent to dead and 1 = the value of full health). These values were compared to a large adult community sample reflecting Australian norms (McCaffrey et al. Reference McCaffrey, Kaambwa and Currow2016). In interviews, we asked survivors or their parents about the survivor’s experience of late effects, their knowledge of and perceived risk for developing future late effects, and their need for information about late effects. A full list of measures and the interview schedule can be found in Supplementary Table S1.

Figure 1. Self or proxy-reported late effects experienced by neuroblastoma survivors.

The study questionnaires collected survivors’ self-reported demographic, diagnostic, and clinical information (Table 1). Clinical information such as treatment intensity was measured according to the Intensity of Treatment Rating Scale (ITR-3) (Kazak et al. Reference Kazak, Hocking and Ittenbach2012), which uses treatment modality and disease stage at diagnosis to categorize treatment from least intensive (e.g. received surgery only) to most intensive (e.g. received transplant) across 4 categories. Survivors were grouped into 3 treatment regimen eras (<1984, 1984–2004, and >2005) based on the different treatment protocols used at hospital in their year of diagnosis.

Table 1. Survivor and parent demographics and clinical characteristics (n = 39)

–, not applicable; ITR-3, Intensity of Treatment Rating scale; IQR, interquartile range; AUD, Australian Dollar.

Study population (N = 39). Numbers may not add up due to missing values.

* These factors referred to the survivor’s parent if the survivor was under 16 years of age.

a According to the Area of Remoteness Index Australia classifications.

b Not Australian or New Zealander included ethnicities such as European, Vietnamese, and Cuban.

c Based on the median personal income in Australia.

Data analysis

We summed self-reported late effects to indicate a cumulative burden, which we described using descriptive statistics. We used chi-squared tests to understand potential group differences in outcomes. Using linear regressions, we analyzed the association between clinical information (e.g. treatment type) and demographic factors (e.g. age) on the total number of self-reported late effects. We used SPSS26.0 (IBM Corp 2019) to perform quantitative analysis. Results were considered significant when p < 0.05 for 2-tailed tests.

We analyzed interview data using thematic content analysis guided by Miles and Huberman (Reference Miles and Huberman1994). After deciding on an initial coding tree, 2 researchers coded and compared 30% of interviews (J.T. and C.S.) to ensure consistency. One researcher (J.T.) coded the remainder of interviews line-by-line using NVivo12 (QSR International Pty Ltd 2018). We established codes using a combination of predetermined themes based on our research questions (e.g. for perceived risk of developing future late effects: decreasing, increasing, or unsure) and themes arising inductively from the data (e.g. unique experiences of late effects).

Results

Sample characteristics

Of the 634 childhood cancer survivors who completed questionnaires from 11 hospitals in ANZ as part of the ANZCHOG Survivorship Study, 39 were neuroblastoma survivors (n = 39/69, 57% response rate), including 20 survivors aged 16 and over and 19 parents representing survivors aged under 16 years (Table 1). We did not observe any differences between participating and nonrespondent neuroblastoma survivors in terms of age (p = 0.840) or sex (p = 0/059). Of these, 13 participants also completed interviews (4 survivors and 9 parents). Although 39 participants completed the survey, 3 reported incomplete diagnosis and/or treatment information, meaning that we could not categorize their treatment intensity.

The median age of neuroblastoma survivors at the time of survey completion was 16 years (IQR = 11.0–20.5 years) and 39% were male. Most participants identified as Australian or New Zealand citizens (73%) and lived in metropolitan areas (78%). The median age of survivors at diagnosis was 9 months (IQR = 3.0–27.5) and most were diagnosed between 1984 and 2004 (69%). Most participants reported being diagnosed with high-risk disease (72%). Survivors were treated with surgery (92%), chemotherapy (85%), bone marrow transplant (47%), and radiotherapy (39%). Most survivors received the highest level of treatment intensity on the ITR-3 (52%).

Late effects

Self-reported late effects (n = 39)

The median number of late effects reported by participants from the provided list was 3.5 (IQR = 2.0–6.0). Of the 19 late effects studied, the most common reported late effects were dental problems (56%), followed by vision/hearing problems (47%) and fatigue (44%; Fig. 1). Thirty-two participants (89%) reported experiencing at least 1 late effect since finishing cancer treatment. Eleven participants (31%) indicated more than 5 late effects (Fig. 2), 8 of whom were diagnosed with high-risk disease (89%). The highest average number of late effects was reported by those diagnosed before 1984 (6) followed by 1984–2004 (4.3) and after 2005 (3.6; Fig. 3).

Figure 2. The frequency of self or proxy-reported late effects experienced by neuroblastoma survivors.

Figure 3. Number of participants reporting the survivor’s experienced late effects, by treatment era and treatment intensity (based on the ITR-3); the average number of total late effects reported is labeled above each column.

In univariate regression analyses, compared with survivors with few late effects, those who reported experiencing a greater number of cancer-related late effects reported high-risk disease (b = 3.69, p = 0.04, CI 95% = 0.23–7.16), had received radiation therapy (b = 4.00, p = 0.001, CI 95% = 1.78–6.23), and had received a bone marrow transplant (b = 4.59, p < 0.001, CI 95% = 2.67, 6.51). Survivors with few late effects also reported attending survivorship clinic (b = 2.95, p = 0.02, CI 95% = 0.60–5.31), were unemployed (b = −2.70, p = 0.05, CI 95% = −5.37 to −0.03), and had poorer self-reported overall health (b = −4.68, p = 0.001, CI 95% = −7.36 to −2.00; Supplementary Table S2). There was no difference in the number of late effects by any other factors, including treatment regimen era.

Perceived risk of late effects

Less than half of participants (40%) believed that the survivor was at risk of cancer recurrence and 50% of the sample reported that they worried about the possibility of cancer recurrence. Approximately half (53%) of all participants believed that they were at risk of developing future late effects and 50% reported that they worried about the survivors’ risk of developing late effects in the future. Of those who did not believe that the survivor was at risk of developing future late effects, 17% still reported worrying about the survivor’s risk.

Survivors’ health-related quality of life (n = 39)

Most participants (62%) reported deficits in an average of 1.3 dimensions (range = 0–5) in any of the 5 quality of life dimensions. Participants (50%) reported significantly more problems with anxiety/depression than the general population (4.7%; χ 2 = 13.1, p < 0.001) (McCaffrey et al. Reference McCaffrey, Kaambwa and Currow2016). We did not observe any differences between survivors and the general population in any other dimensions (all p < 0.05; Fig. 4) (McCaffrey et al. Reference McCaffrey, Kaambwa and Currow2016).

Figure 4. Proportion of neuroblastoma survivors or parent proxies endorsing problems in each 5 level EQ-5D (EQ-5D-5L) dimension compared to Australian population norms (McCaffrey et al. Reference McCaffrey, Kaambwa and Currow2016). *p < 0.001.

The mean quality of life index score for survivors was high (0.9, SD = 0.1, range = 0.2–1). There was no difference in the mean quality of life index scores compared to population norms (t(37) = −0.68, p = 0.50). Participants generally rated survivors’ overall health to be good in the past 4 weeks (81%). The mean overall self or proxy-reported health score was 77 (SD = 16, range = 30–100). There was no difference between the overall self or proxy-reported health of our survivor population and population norms (t(37) = −0.44, p = 0.66).

Health-care use (n = 39)

Hospitalizations

Almost half of all participants reported that the survivor had been hospitalized on one or more occasions since their cancer treatment had finished (49%). The median number of days hospitalized was 4 (IQR = 2–9). The most common reasons for hospitalization included surgical procedures (e.g. oral surgery; 30%), other reasons (e.g. management of benign tumors; 20%), appendectomy (15%), infections (15%), and accidents and injuries (15%).

Health professional visits

Almost all participants reported that survivors had seen at least one health professional (97%) for any cancer-related care since treatment completion. The median number of health professionals seen since cancer treatment completion was 3.5 (IQR = 2–7). The most visited health professionals since cancer treatment were oncologists (68%), followed by general practitioners (GP; 62%), ears/eyes specialists (47%), and dentists (46%; Supplementary Fig. S1). Two-thirds of survivors (63%) reported that they attended survivorship clinic at a tertiary center.

Interview on survivors’ perceptions regarding late effects and their future health (n = 13 interviews)

During interviews, some participants reported that late effects greatly impacted the survivor’s life, years after treatment completion (Supplementary Table S3), “all the side effects and things [from often having surgery] … it still to this day does cause issues in the way … I bond with my family” (female survivor aged 19 years). Many survivors and their parents expressed emotional impacts resulting from bullying from peers due to short physical stature, scars from surgery, hormone-induced puberty, and distressing memories of their treatment. These were reported to manifest emotionally as mood swings, anger, distress, disassociation, and anxiety associated with undergoing medical procedures. Others expressed notable physical impacts such as abnormal bowel movements and exercise intolerance, which were described as problematic and difficult to overcome.

Six survivors or their parents could not recall hearing of the term “late effects” or had very limited understanding of survivors’ risk of developing late effects. In general, most parents recalled receiving information regarding late effects during treatment; however, the effects of treatment may not have been understood at that time. One parent attending a cancer survivorship clinic expressed a knowledge gap in understanding the relationship between treatment and dental problems: “His adult teeth are smaller than his children’s teeth but again you say well that was his teeth, [treatment] was done all on his tummy” (mother of survivor aged 13). Another parent attending a cancer survivorship clinic expressed uncertainty regarding the cause of the survivor’s short stature: “He’s quite a bit smaller than his peers. We think some of that is to do with the radiation” (mother of survivor aged 16).

Participants had mixed preferences for receiving ongoing personalized information about their risk of developing late effects. While some valued the idea of receiving information about their personal late effects risk, others expressed a desire not to receive any further information. One parent described balancing the desire to be “informed about what possibly is around the corner,” with understanding that receiving information is “a two-edged sword,” which may induce anxiety and “scares us” (mother of survivor aged 11). Another parent described that at present she had received “more than enough information,” accepting that her child’s future health was ultimately “a wide unknown” (mother of survivor aged 13 years).

Some participants could not recall receiving lifestyle information, and therefore expressed an unmet need for information regarding preventative interventions and identifying warning signs for developing late effects or recurrent cancers. One parent expressed a desire to know how dietary factors could be managed in the present to improve survivors’ quality of life in the future. Another parent suggested that information relating to “[not] smoking and what he eats” be communicated to survivors from “a young guy of his age … rather than hearing it from parents” (father of survivor aged 13) as survivors mature and take responsibility for their own health.

Discussion

Our study measured self or proxy-reported health conditions in a cohort of ANZ neuroblastoma survivors to understand the burden of late effects, survivors’ health-care use, HRQoL, and participants’ knowledge of late effects and future health. Participants generally reported good overall health. Eighty-nine percent of participants reported survivors experiencing at least one late effect, most commonly dental problems (56%), vision/hearing problems (47%), and fatigue (44%). A larger proportion of participants reported problems with anxiety/depression compared to the general population and half reported worrying about their future health. In interviews, many participants described that they had poor knowledge of late effects and were uncertain of the survivor’s risk of developing late effects, despite the perceived benefits of attending a survivorship clinic.

The proportion of neuroblastoma survivors in our study experiencing at least one late effect (89%) is comparable to that found in stage 4 or high-risk neuroblastoma survivors in other studies (80–100%; median age = 10–15 years) (Hobbie et al. Reference Hobbie, Moshang and Carlson2008; Laverdière et al. Reference Laverdière, Cheung and Kushner2005; Moreno et al. Reference Moreno, Vaidya and Pinkerton2013). Although the prevalence of late effects is known to increase with time (Oeffinger et al. Reference Oeffinger, Mertens and Sklar2006), our study found no difference in the number of late effects experienced and the treatment era of diagnosis. This could possibly be explained by escalating treatment intensity in recent decades (Armstrong et al. Reference Armstrong, Chen and Yasui2016) or by better awareness of late effects among more recently diagnosed survivors who are likely to still be engaged in survivorship care (Klosky et al. Reference Klosky, Cash and Buscemi2008). Alternatively, survivors with more severe late effects from earlier treatment periods may have died prior to this study. Considering our cohort is young (median age = 16), continued follow-up is needed to understand the changes to the frequency of late effects as neuroblastoma survivors age and the incidence of late effects grows (Hudson et al. Reference Hudson, Ness and Gurney2013; Oeffinger et al. Reference Oeffinger, Mertens and Sklar2006).

Our study drew attention to the high proportion of neuroblastoma survivors experiencing dental problems, which was more prevalent than other high-risk neuroblastoma studies (56% versus 13–51%) (Cohen et al. Reference Cohen, Gordon and Popovsky2014; Laverdière et al. Reference Laverdière, Cheung and Kushner2005; Perwein et al. Reference Perwein, Lackner and Sovinz2011). Known dental problems in neuroblastoma survivors include caries, microdontia, and root stunting (Kaste et al. Reference Kaste, Hopkins and Bowman1998) and are often not life-threatening and may be overlooked or neglected in follow-up care. However, these problems can significantly affect quality of life and morbidity through pain, functional deficits (e.g. poor nutrition and speech difficulties), ongoing financial toxicity, and cosmetic concerns precipitating psychosocial challenges (Carneiro et al. Reference Carneiro, Ribeiro and Alves2017; Meaney et al. Reference Meaney, Anweigi and Ziada2011; Noronha and Macdonald Reference Noronha, Macdonald and Fitzpatrick2016). Furthermore, periodontal disease has been found to be significantly associated with cardiovascular disease in the general community (Mozos and Stoian Reference Mozos and Stoian2019), which may be more deleterious in neuroblastoma survivors who are already at a heightened risk of dyslipidemia, insulin resistance, and cardiac late effects (Meacham et al. Reference Meacham, Chow and Ness2010; Neville et al. Reference Neville, Cohn and Steinbeck2006). Since dental problems in survivors are associated with younger age at diagnosis and treatment (Gawade et al. Reference Gawade, Hudson and Kaste2014), which is common in neuroblastoma (London et al. Reference London, Castleberry and Matthay2005), oral care education, thorough examination and documentation of dental problems, and financial support for dental care are paramount in preventing complications and improving quality of life.

While fatigue has not been specifically studied in neuroblastoma survivors, the proportion reporting fatigue in our cohort is higher than in survivors of other childhood cancers (44% versus 19–30%) (Mulrooney et al. Reference Mulrooney, Ness and Neglia2008). Taking into account the median time since diagnosis of our cohort (13 years versus 20–24 years (Mulrooney et al. Reference Mulrooney, Ness and Neglia2008)), this may be explained by “response-shift,” where those diagnosed more recently have not yet adapted to a new internal standard of measurement for fatigue (Visser et al. Reference Visser, Smets and Sprangers2000). However, fatigue is a complex symptom, and understanding its mechanisms, including determining the trends of fatigue symptoms over time and whether levels of fatigue differ significantly from the general population, is still to be elucidated (Frederick et al. Reference Frederick, Kenney and Vrooman2016; Jóhannsdóttir et al. Reference Jóhannsdóttir, Hjermstad and Moum2012; Karimi et al. Reference Karimi, Cox and White2020; Langeveld et al. Reference Langeveld, Grootenhuis and Voûte2003; Mört et al. Reference Mört, Lähteenmäki and Matomäki2011; Mulrooney et al. Reference Mulrooney, Ness and Neglia2008; Rach et al. Reference Rach, Crabtree and Brinkman2017; Zeltzer et al. Reference Zeltzer, Chen and Weiss1997). Since fatigue has been found to be the most powerful predictor of functional status and HRQoL in a cohort of childhood cancer survivors (Meeske et al. Reference Meeske, Patel and Palmer2007) and was the third most commonly reported late effect experienced in our cohort, further study on the nature of fatigue in neuroblastoma survivors is needed.

Our findings echo previous studies reporting poorer emotional health among survivors compared to the general population (Nathan et al. Reference Nathan, Ness and Greenberg2007; Wilson et al. Reference Wilson, Brinkman and Cook2020). Poor psychological health can promote risky health behaviors and exacerbate health conditions (Brinkman et al. Reference Brinkman, Recklitis and Michel2018; Karimi et al. Reference Karimi, Cox and White2020). For example, higher levels of depression and social withdrawal are associated with reduced exercise and obesity, which can increase survivors’ already heightened risk of metabolic syndrome and cardiac conditions (Krull et al. Reference Krull, Huang and Gurney2010). The compounding nature of late effects and poor emotional health, and their risk to future health and HRQoL, call for further investigation and careful intervention.

Many neuroblastoma survivors reported visiting their GP for cancer-related care, a higher proportion than childhood cancer survivors in a similar study (62% versus 23%) (Signorelli et al. Reference Signorelli, Wakefield and Fardell2019c). High proportion of GP visits may be explained by the young median age of this cohort (16 years) who were treated with aggressive treatment (52% receiving the most intensive treatment), given those treated more recently and with high-risk treatment are more likely to visit for cancer-related care (Oeffinger et al. Reference Oeffinger, Mertens and Hudson2004). Since we did not collect the reason for these visits, further study is needed to assess increased primary health-care use in neuroblastoma survivors.

Our participants reported modest survivorship clinic engagement compared to other childhood cancer survivors in a UK study (63% versus 15%–82%) (Knighting et al. Reference Knighting, Kirton and Thorp2020). Perceived susceptibility to developing late effects may be important in survivors’ ability to learn about their risk and seek recommended surveillance (Cherven et al. Reference Cherven, Mertens and Meacham2014; Gibson et al. Reference Gibson, Li and Armstrong2018; Signorelli et al. Reference Signorelli, Wakefield and McLoone2019a, Reference Signorelli, Wakefield and Fardell2019b). In our cohort, only 53% of our cohort believed they were at risk of developing further late effects, despite 85% receiving very/most intensive treatment according to ITR-3.

Facilitating access to more information about late effects may empower survivors to make informed decisions about their health, promote health protective behaviors, lower distress, and improve quality of life (Gianinazzi et al. Reference Gianinazzi, Essig and Rueegg2014; Landier et al. Reference Landier, Wallace and Hudson2006). Many parents recalled receiving late effects information but were uncertain or unsure of the survivor’s future health risks, which may suggest that late effects information is not understood or not perceived as salient at the time of treatment and is thus misremembered or may not be passed from parent to survivor as they mature if attendance at the survivorship clinic is stopped (Gianinazzi et al. Reference Gianinazzi, Essig and Rueegg2014). Since information needs can be addressed in a survivorship clinic (Signorelli et al. Reference Signorelli, Wakefield and McLoone2017b), which has other demonstrated benefits (Signorelli et al. Reference Signorelli, Wakefield and Fardell2017a; Sutradhar et al. Reference Sutradhar, Agha and Pole2015), a greater focus on improving both survivors’ attendance at survivorship clinic and information delivery is needed. Although most interviewees in this study were parents who may have different or more unmet information needs than survivors themselves (Knijnenburg et al. Reference Knijnenburg, Kremer and van den Bos2010; Vetsch et al. Reference Vetsch, Fardell and Wakefield2017), our findings reinforce the need for more effective and consistent information delivery tailored to each survivor’s personal wishes and circumstances (Gianinazzi et al. Reference Gianinazzi, Essig and Rueegg2014).

We examined a wide variety of somatic and psychological late effects in neuroblastoma survivors, using validated tools and interviews that provided rich insight into the personal impacts of late effects and cancer treatment. Our study relied on self or proxy-reported data, which is vulnerable to participants’ perceptions of their condition, or knowledge/understanding of the listed late effects, and may underrepresent the true incidence of late effects that require clinical testing such as pulmonary conditions (Hudson et al. Reference Hudson, Ness and Gurney2013; Stone et al. Reference Stone, Novetsky Friedman and Worgall2017), or are present but currently undiagnosed. Since vision/hearing issues were asked together in the survey, we were unable to determine the exact proportion experiencing each late effect or compare these to other studies. Due to our small sample size (n = 39), our study is vulnerable to type 1 and 2 errors. Thus, care must be taken when extrapolating our findings to the general neuroblastoma survivor population.

The high burden of late effects and gaps in survivors’ knowledge of late effects pose risks to the future health and quality of life of ANZ neuroblastoma survivors. This study draws attention to the high rates of dental problems, the poor emotional health in neuroblastoma survivors compared to the general population, and their specific information needs. More effective ways of educating and engaging survivors’ families in follow-up care is needed to prevent, screen for, and manage late effects and improve survivors’ quality of life.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S1478951523000615.

Data availability statement

The data that support the findings of this study are not publicly available due to privacy or ethical restrictions, and the full dataset is not able to be released due to ethical restrictions. Requests may be made to the authors.

Acknowledgments

We would like to thank Dr Kate Hetherington, Brittany McGill, and Mary‐Ellen Brierley who helped to conduct interviews. We would also like to thank the families who participated and each of the recruiting sites for this study, including Sydney Children’s Hospital Randwick, the Children’s Hospital at Westmead, John Hunter Children’s Hospital, the Royal Children’s Hospital Melbourne, Monash Children’s Hospital Melbourne, Royal Children’s Hospital Brisbane, Princess Margaret Children’s Hospital, Women’s and Children’s Hospital Adelaide, and in New Zealand, Starship Children’s Health, Wellington Hospital, and Christchurch Hospital.

The members of the ANZCHOG Survivorship Study Group in alphabetical order: Dr Frank Alvaro, Prof Richard Cohn, Dr Rob Corbett, Dr Peter Downie, Ms Karen Egan, Ms Sarah Ellis, Prof Jon Emery, Dr Joanna Fardell, Ms Tali Foreman, Dr Melissa Gabriel, Prof Afaf Girgis, Ms Kerrie Graham, Ms Karen Johnston, Dr Janelle Jones, Dr Liane Lockwood, Dr Ann Maguire, Dr Maria McCarthy, Dr Jordana McLoone, Dr Francoise Mechinaud, Ms Sinead Molloy, Ms Lyndal Moore, Dr Michael Osborn, Dr Christina Signorelli, Dr Jane Skeen, Dr Heather Tapp, Ms Tracy Till, Ms Jo Truscott, Ms Kate Turpin, Prof Claire Wakefield, Ms Jane Williamson, Dr Thomas Walwyn, and Ms Kathy Yallop.

Funding

Dr Christina Signorelli is supported by Neuroblastoma Australia and a Cancer Institute NSW Fellowship (2020/ECF1144). Prof Claire E. Wakefield is supported by a Career Development Fellowship from the National Health and Medical Research Council (NHMRC) of Australia (APP1143767 and APP2008300). Dr Natasha Nassar is supported by Financial Markets foundation for Children and NHMRC Investigator Fellowship (APP1197940). This study was funded by Neuroblastoma Australia and the Kids Cancer Alliance. The Behavioural Sciences Unit (BSU) is proudly supported by the Kids with Cancer Foundation. The BSU’s survivorship research program is funded by The Kids’ Cancer Project and a Cancer Council NSW Program Grant PG16-02 with the support of the Estate of the Late Harry McPaul. These funding bodies did not have any role in the study, nor did they have a role in the writing of the manuscript or the decision to submit it for publication.

Competing interests

No author has any conflicts of interest to disclose in relation to this manuscript.

References

Armstrong, GT, Chen, Y, Yasui, Y, et al. (2016) Reduction in late mortality among 5-year survivors of childhood cancer. New England Journal of Medicine 374(9), 833842. doi:10.1056/NEJMoa1510795CrossRefGoogle ScholarPubMed
Baade, PD, Youlden, DR, Valery, PC, et al. (2010) Population-based survival estimates for childhood cancer in Australia during the period 1997–2006. British Journal of Cancer 103(11), 16631670. doi:10.1038/sj.bjc.6605985CrossRefGoogle ScholarPubMed
Ballantine, KR, Watson, H, Macfarlane, S, et al. (2017) Small numbers, big challenges: Adolescent and young adult cancer incidence and survival in New Zealand. Journal of Adolescent and Young Adult Oncology 6(2), 277285. doi:10.1089/jayao.2016.0074CrossRefGoogle Scholar
Barakat, LP, Schwartz, LA, Szabo, MM, et al. (2012) Factors that contribute to post-treatment follow-up care for survivors of childhood cancer. Journal of Cancer Survivorship 6(2), 155162. doi:10.1007/s11764-011-0206-6CrossRefGoogle ScholarPubMed
Brinkman, TM, Recklitis, CJ, Michel, G, et al. (2018) Psychological symptoms, social outcomes, socioeconomic attainment, and health behaviors among survivors of childhood cancer: Current state of the literature. Journal of Clinical Oncology 36(21), 21902197. doi:10.1200/JCO.2017.76.5552CrossRefGoogle Scholar
Carneiro, TV, Ribeiro, ILA, Alves, CV, et al. (2017) Factors associated with health-related quality of life among children with cancer from the standpoint of patients and caregivers. Journal of Public Health 25(4), 371377. doi:10.1007/s10389-017-0791-6CrossRefGoogle Scholar
Cherven, B, Mertens, A, Meacham, LR, et al. (2014) Knowledge and risk perception of late effects among childhood cancer survivors and parents before and after visiting a childhood cancer survivor clinic. Journal of Pediatric Oncology Nursing 31(6), 339349. doi:10.1177/1043454214532022CrossRefGoogle ScholarPubMed
Cohen, L, Gordon, J, Popovsky, E, et al. (2014) Late effects in children treated with intensive multimodal therapy for high-risk neuroblastoma: High incidence of endocrine and growth problems. Bone Marrow Transplantation 49(4), 502508. doi:10.1038/bmt.2013.218CrossRefGoogle ScholarPubMed
de Fine Licht, S, Rugbjerg, K, Gudmundsdottir, T, et al. (2017) Long-term inpatient disease burden in the Adult Life after Childhood Cancer in Scandinavia (ALiCCS) study: A cohort study of 21,297 childhood cancer survivors. PLoS Medicine 14(5), . doi:10.1371/journal.pmed.1002296CrossRefGoogle Scholar
Devlin, NJ, Shah, KK, Feng, Y, et al. (2018) Valuing health-related quality of life: An EQ-5D-5L value set for England. Health Economics 27(1), 722. doi:10.1002/hec.3564CrossRefGoogle ScholarPubMed
Elzembely, MM, Dahlberg, AE, Pinto, N, et al. (2019) Late effects in high-risk neuroblastoma survivors treated with high-dose chemotherapy and stem cell rescue. Pediatric Blood & Cancer 66(1), . doi:10.1002/pbc.27421CrossRefGoogle ScholarPubMed
Frederick, NN, Kenney, L, Vrooman, L, et al. (2016) Fatigue in adolescent and adult survivors of non-CNS childhood cancer: A report from project REACH. Supportive Care in Cancer 24(9), 39513959. doi:10.1007/s00520-016-3230-2CrossRefGoogle Scholar
Gawade, PL, Hudson, MM, Kaste, SC, et al. (2014) A systematic review of dental late effects in survivors of childhood cancer. Pediatric Blood & Cancer 61(3), 407416. doi:10.1002/pbc.24842CrossRefGoogle ScholarPubMed
Gianinazzi, ME, Essig, S, Rueegg, CS, et al. Swiss Paediatric Oncology Group (SPOG) (2014) Information provision and information needs in adult survivors of childhood cancer. Pediatric Blood & Cancer 61(2), 312318. doi:10.1002/pbc.24762CrossRefGoogle ScholarPubMed
Gibson, TM, Li, C, Armstrong, GT, et al. (2018) Perceptions of future health and cancer risk in adult survivors of childhood cancer: A report from the Childhood Cancer Survivor Study. Cancer 124(16), 34363444. doi:10.1002/cncr.31397CrossRefGoogle ScholarPubMed
Gunn, HM, Rinne, I, Emilsson, H, et al. (2016) Primary gonadal insufficiency in male and female childhood cancer survivors in a long-term follow-up clinic. Journal of Adolescent and Young Adult Oncology 5(4), 344350. doi:10.1089/jayao.2016.0007CrossRefGoogle Scholar
Hobbie, WL, Moshang, T, Carlson, CA, et al. (2008) Late effects in survivors of tandem peripheral blood stem cell transplant for high-risk neuroblastoma. Pediatric Blood & Cancer 51(5), 679683. doi:10.1002/pbc.21683CrossRefGoogle ScholarPubMed
Hsieh, SG-S, Hibbert, S, Shaw, P, et al. (2011) Association of cyclophosphamide use with dental developmental defects and salivary gland dysfunction in recipients of childhood antineoplastic therapy. Cancer 117(10), 22192227. doi:10.1002/cncr.25704CrossRefGoogle ScholarPubMed
Hubbard, AK, Spector, LG, Fortuna, G, et al. (2019) Trends in international incidence of pediatric cancers in children under 5 years of age: 1988–2012. JNCI Cancer Spectrum 3(1). doi:10.1093/jncics/pkz007CrossRefGoogle ScholarPubMed
Hudson, MM, Ness, KK, Gurney, JG, et al. (2013) Clinical ascertainment of health outcomes among adults treated for childhood cancer. JAMA 309(22), 23712381. doi:10.1001/jama.2013.6296CrossRefGoogle ScholarPubMed
IBM Corp (2019) IBM SPSS statistics for windows [Software]. Armonk (NY): IBM Corp.Google Scholar
Jackson, CGCA, Bissett, I, Macfarlane, S, et al. (2020) Improving cancer services and survival in New Zealand. Journal of Cancer Policy 23, . doi:10.1016/j.jcpo.2020.100216CrossRefGoogle Scholar
Jóhannsdóttir, IMR, Hjermstad, MJ, Moum, T, et al. (2012) Increased prevalence of chronic fatigue among survivors of childhood cancers: A population-based study. Pediatric Blood & Cancer 58(3), 415420. doi:10.1002/pbc.23111CrossRefGoogle ScholarPubMed
Karimi, M, Cox, AD, White, SV, et al. (2020) Fatigue, physical and functional mobility, and obesity in pediatric cancer survivors. Cancer nursing 43(4), E239e245. doi:10.1097/NCC.0000000000000712CrossRefGoogle ScholarPubMed
Kaste, SC, Hopkins, KP, Bowman, LC, et al. (1998) Dental abnormalities in children treated for neuroblastoma. Medical and Pediatric Oncology 30(1), 2227. doi:10.1002/(SICI)1096-911X(199801)30:1<22::AID-MPO8>3.0.CO;2-23.0.CO;2-2>CrossRefGoogle ScholarPubMed
Kazak, AE, Hocking, MC, Ittenbach, RF, et al. (2012) A revision of the intensity of treatment rating scale: Classifying the intensity of pediatric cancer treatment. Pediatric Blood & Cancer 59(1), 9699. doi:10.1002/pbc.23320CrossRefGoogle ScholarPubMed
Kelada, L, Wakefield, CE, Heathcote, LC, et al. (2019) Perceived cancer-related pain and fatigue, information needs, and fear of cancer recurrence among adult survivors of childhood cancer. Patient Education and Counseling 102(12), 22702278. doi:10.1016/j.pec.2019.06.022CrossRefGoogle ScholarPubMed
Klosky, JL, Cash, DK, Buscemi, J, et al. (2008) Factors influencing long-term follow-up clinic attendance among survivors of childhood cancer. Journal of Cancer Survivorship 2(4), . doi:10.1007/s11764-008-0063-0CrossRefGoogle ScholarPubMed
Knighting, K, Kirton, JA, Thorp, N, et al. (2020) A study of childhood cancer survivors’ engagement with long-term follow-up care: ‘To attend or not to attend, that is the question.’ European Journal of Oncology Nursing 45, . doi:10.1016/j.ejon.2020.101728CrossRefGoogle ScholarPubMed
Knijnenburg, SL, Kremer, LC, van den Bos, C, et al. (2010) Health information needs of childhood cancer survivors and their family. Pediatric Blood & Cancer 54(1), 123127. doi:10.1002/pbc.22207CrossRefGoogle ScholarPubMed
Krull, KR, Huang, S, Gurney, JG, et al. (2010) Adolescent behavior and adult health status in childhood cancer survivors. Journal of Cancer Survivorship: Research and Practice 4(3), 210217. doi:10.1007/s11764-010-0123-0CrossRefGoogle ScholarPubMed
Landier, W, Wallace, WHB and Hudson, MM (2006) Long-term follow-up of pediatric cancer survivors: Education, surveillance, and screening. Pediatric Blood & Cancer 46(2), 149158. doi:10.1002/pbc.20612CrossRefGoogle ScholarPubMed
Langeveld, NE, Grootenhuis, MA, Voûte, PA, et al. (2003) No excess fatigue in young adult survivors of childhood cancer. European Journal of Cancer 39(2), 204214. doi:10.1016/S0959-8049(02)00629-9CrossRefGoogle ScholarPubMed
Laverdière, C, Cheung, NKV, Kushner, BH, et al. (2005) Long‐term complications in survivors of advanced stage neuroblastoma. Pediatric Blood & Cancer 45(3), 324332. doi:10.1002/pbc.20331CrossRefGoogle ScholarPubMed
Laverdière, C, Liu, Q, Yasui, Y, et al. (2009) Long-term outcomes in survivors of neuroblastoma: A report from the Childhood Cancer Survivor Study. Journal of the National Cancer Institute 101(16), 11311140. doi:10.1093/jnci/djp230CrossRefGoogle ScholarPubMed
Lee, JL, Gutierrez-Colina, A, Williamson Lewis, R, et al. (2019) Knowledge of late effects risks and healthcare responsibility in adolescents and young adults treated for childhood cancer. Journal of Pediatric Psychology 44(5), 557566. doi:10.1093/jpepsy/jsy102CrossRefGoogle Scholar
London, WB, Castleberry, RP, Matthay, KK, et al. (2005) Evidence for an age cutoff greater than 365 days for neuroblastoma risk group stratification in the Children’s Oncology Group. Journal of Clinical Oncology 23(27), 64596465. doi:10.1200/JCO.2005.05.571CrossRefGoogle ScholarPubMed
McCaffrey, N, Kaambwa, B, Currow, DC, et al. (2016) Health-related quality of life measured using the EQ-5D-5L: South Australian population norms. Health and Quality of Life Outcomes 14(1), . doi:10.1186/s12955-016-0537-0CrossRefGoogle ScholarPubMed
Meacham, LR, Chow, EJ, Ness, KK, et al. (2010) Cardiovascular risk factors in adult survivors of pediatric cancer – A report from the childhood cancer survivor study. Cancer epidemiology, Biomarkers & Prevention 19(1), 170181. doi:10.1158/1055-9965.EPI-09-0555CrossRefGoogle Scholar
Meaney, S, Anweigi, L, Ziada, H, et al. (2011) The impact of hypodontia: A qualitative study on the experiences of patients. The European Journal of Orthodontics 34(5), 547552. doi:10.1093/ejo/cjr061CrossRefGoogle ScholarPubMed
Meeske, KA, Patel, SK, Palmer, SN, et al. (2007) Factors associated with health-related quality of life in pediatric cancer survivors. Pediatric Blood & Cancer 49(3), 298305. doi:10.1002/pbc.20923CrossRefGoogle ScholarPubMed
Miles, MB and Huberman, AM (1994) Qualitative Data Analysis: An Expanded Sourcebook. Thousand Oaks, California: Sage.Google Scholar
Moreno, L, Vaidya, SJ, Pinkerton, CR, et al. (2013) Long-term follow-up of children with high-risk neuroblastoma: The ENSG5 trial experience. Pediatric Blood & Cancer 60(7), 11351140. doi:10.1002/pbc.24452CrossRefGoogle ScholarPubMed
Mört, S, Lähteenmäki, PM, Matomäki, J, et al. (2011) Fatigue in young survivors of extracranial childhood cancer: A Finnish nationwide survey. Oncology Nursing Forum 38(6), E445E454. doi:10.1188/11.ONF.E445-E454CrossRefGoogle Scholar
Mozos, I and Stoian, D (2019) Oral health and cardiovascular disorders. In Crosstalk in Biological Processes. IntechOpen.Google Scholar
Mulrooney, DA, Ness, KK, Neglia, JP, et al. (2008) Fatigue and sleep disturbance in adult survivors of childhood cancer: A report from the childhood cancer survivor study (CCSS). Sleep 31(2), 271281. doi:10.1093/sleep/31.2.271CrossRefGoogle ScholarPubMed
Nathan, PC, Ness, KK, Greenberg, ML, et al. (2007) Health-related quality of life in adult survivors of childhood Wilms tumor or neuroblastoma: A report from the childhood cancer survivor study. Pediatric Blood & Cancer 49(5), 704715. doi:10.1002/pbc.20949CrossRefGoogle ScholarPubMed
Neville, KA, Cohn, RJ, Steinbeck, KS, et al. (2006) Hyperinsulinemia, impaired glucose tolerance, and diabetes mellitus in survivors of childhood cancer: Prevalence and risk factors. The Journal of Clinical Endocrinology and Metabolism 91(11), 44014407. doi:10.1210/jc.2006-0128CrossRefGoogle ScholarPubMed
Noronha, C and Macdonald, ME (2016) Oral health issues and quality of life among pediatric cancer survivors. In Fitzpatrick, TR (ed.), Treating Vulnerable Populations of Cancer Survivors: A Biopsychosocial Approach. Cham: Springer International Publishing, 111125.Google Scholar
Oeffinger, KC, Mertens, AC, Hudson, MM, et al. (2004) Health care of young adult survivors of childhood cancer: A report from the childhood cancer survivor study. The Annals of Family Medicine 2(1), . doi:10.1370/afm.26CrossRefGoogle ScholarPubMed
Oeffinger, KC, Mertens, AC, Sklar, CA, et al. (2006) Chronic health conditions in adult survivors of childhood cancer. New England Journal of Medicine 355(15), 15721582. doi:10.1056/NEJMsa060185CrossRefGoogle ScholarPubMed
Perwein, T, Lackner, H, Sovinz, P, et al. (2011) Survival and late effects in children with stage 4 neuroblastoma. Pediatric Blood & Cancer 57(4), 629635. doi:10.1002/pbc.23036CrossRefGoogle ScholarPubMed
QSR International Pty Ltd (2018). NVivo [Software].Google Scholar
Rach, AM, Crabtree, VM, Brinkman, TM, et al. (2017) Predictors of fatigue and poor sleep in adult survivors of childhood Hodgkin’s lymphoma: A report from the Childhood Cancer Survivor Study. Journal of Cancer Survivorship 11(2), 256263. doi:10.1007/s11764-016-0583-yCrossRefGoogle ScholarPubMed
Roberts, RM, Robins, T, Gannoni, AF, et al. (2014) Survivors of childhood cancer in South Australia attending a late-effects clinic: A descriptive report of psychological, cognitive, and academic late-effects. Journal of Psychosocial Oncology 32(2), 152166. doi:10.1080/07347332.2013.873998CrossRefGoogle Scholar
Signorelli, C, Wakefield, CE, Fardell, JE, et al. (2017a) The impact of long-term follow-up care for childhood cancer survivors: A systematic review. Critical Reviews in Oncology/Hematology 114, 131138. doi:10.1016/j.critrevonc.2017.04.007CrossRefGoogle ScholarPubMed
Signorelli, C, Wakefield, CE, Fardell, JE, et al. (2019b) Perceptions of future health and cancer risk in adult survivors of childhood cancer: Implications for engagement in follow-up care. Cancer 125(6), 10081009. doi:10.1002/cncr.31934CrossRefGoogle ScholarPubMed
Signorelli, C, Wakefield, CE, Fardell, JE, et al. (2019c) The role of primary care physicians in childhood cancer survivorship care: Multiperspective interviews. The Oncologist 24(5), 710719. doi:10.1634/theoncologist.2018-0103CrossRefGoogle ScholarPubMed
Signorelli, C, Wakefield, CE, McLoone, JK, et al. (2017b) Models of childhood cancer survivorship care in Australia and New Zealand: Strengths and challenges. Asia-Pacific Journal of Clinical Oncology 13(6), 407415. doi:10.1111/ajco.12700CrossRefGoogle ScholarPubMed
Signorelli, C, Wakefield, C, McLoone, JK, et al. (2019a) Childhood cancer survivorship: Barriers and preferences. BMJ Supportive & Palliative Care 12(e5), e687e695.10.1136/bmjspcare-2019-002001CrossRefGoogle ScholarPubMed
Stone, A, Novetsky Friedman, D, Worgall, S, et al. (2017) Long-term pulmonary outcomes in pediatric survivors of high-risk neuroblastoma. Journal of Pediatric Hematology/oncology 39(7), 547554. doi:10.1097/MPH.0000000000000883CrossRefGoogle ScholarPubMed
Sutradhar, R, Agha, M, Pole, JD, et al. (2015) Specialized survivor clinic attendance is associated with decreased rates of emergency department visits in adult survivors of childhood cancer. Cancer 121(24), 43894397. doi:10.1002/cncr.29679CrossRefGoogle ScholarPubMed
Syed, IA, Klassen, AF, Barr, R, et al. (2016) Factors associated with childhood cancer survivors’ knowledge about their diagnosis, treatment, and risk for late effects. Journal of Cancer Survivorship 10(2), 363374. doi:10.1007/s11764-015-0482-7CrossRefGoogle ScholarPubMed
Trahair, TN, Vowels, MR, Johnston, K, et al. (2007) Long-term outcomes in children with high-risk neuroblastoma treated with autologous stem cell transplantation. Bone Marrow Transplantation 40(8), 741746. doi:10.1038/sj.bmt.1705809CrossRefGoogle ScholarPubMed
Vetsch, J, Fardell, JE, Wakefield, CE, et al. (2017) “Forewarned and forearmed”: Long-term childhood cancer survivors’ and parents’ information needs and implications for survivorship models of care. Patient Education and Counseling 100(2), 355363. doi:10.1016/j.pec.2016.09.013CrossRefGoogle ScholarPubMed
Visser, MRM, Smets, EMA, Sprangers, MAG, et al. (2000) How response shift may affect the measurement of change in fatigue. Journal of Pain and Symptom Management 20(1), 1218. doi:10.1016/S0885-3924(00)00148-2CrossRefGoogle ScholarPubMed
Wilson, CL, Brinkman, TM, Cook, C, et al. (2020) Clinically ascertained health outcomes, quality of life, and social attainment among adult survivors of neuroblastoma: A report from the St. Jude Lifetime Cohort. Cancer 126(6), 13301338. doi:10.1002/cncr.32678CrossRefGoogle ScholarPubMed
Wilson, CL, Cohn, RJ, Johnson, KA, et al. (2009) Tracing survivors of childhood cancer in Australia. Pediatric Blood & Cancer 52(4), 510515. doi:10.1002/pbc.21907CrossRefGoogle ScholarPubMed
Yallop, K, McDowell, H, Koziol-mclain, J, et al. (2013) Self-reported psychosocial wellbeing of adolescent childhood cancer survivors. European Journal of Oncology Nursing 17(6), 711719. doi:10.1016/j.ejon.2013.06.007CrossRefGoogle ScholarPubMed
Youlden, DR, Jones, BC, Cundy, TP, et al. (2020) Incidence and outcomes of neuroblastoma in Australian children: A population-based study (1983–2015). Journal of Paediatrics and Child Health 56, 10461052. doi:10.1111/jpc.14810CrossRefGoogle ScholarPubMed
Zeltzer, LK, Chen, E, Weiss, R, et al. (1997) Comparison of psychologic outcome in adult survivors of childhood acute lymphoblastic leukemia versus sibling controls: A cooperative Children’s Cancer Group and National Institutes of Health study. Journal of Clinical Oncology 15(2), 547556. doi:10.1200/JCO.1997.15.2.547CrossRefGoogle ScholarPubMed
Figure 0

Figure 1. Self or proxy-reported late effects experienced by neuroblastoma survivors.

Figure 1

Table 1. Survivor and parent demographics and clinical characteristics (n = 39)

Figure 2

Figure 2. The frequency of self or proxy-reported late effects experienced by neuroblastoma survivors.

Figure 3

Figure 3. Number of participants reporting the survivor’s experienced late effects, by treatment era and treatment intensity (based on the ITR-3); the average number of total late effects reported is labeled above each column.

Figure 4

Figure 4. Proportion of neuroblastoma survivors or parent proxies endorsing problems in each 5 level EQ-5D (EQ-5D-5L) dimension compared to Australian population norms (McCaffrey et al. 2016). *p < 0.001.

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