Discussion

A recent publication showed that the average response rate of physicians to mailed surveys has traditionally been demonstrated to be only 54–58%, and among oncologists varied from 31 to 61%.Reference Martins, Lederman and Lowenstein ¹³ Although low, the response rate to this survey was within this range at 36% and to the best of our knowledge the absolute number of the responders (43 institutions) is the highest for paediatric radiation oncology surveys published ever.Reference Alcorn, Chen and Claude ³

The PTV margin policy used in different radiation oncology departments was explored in this study and it was found that 74% of responders have written guidelines for CTV–PTV expansion in different treatment sites, with 33% having separate guidelines for both adult and paediatric patients.

Factors affecting the PTV margins may be different between adult and paediatric patients, so it was important to look at the PTV margin needed for adult as compared with paediatric patients especially if the patients are treated in the same institution with the same IGRT strategy and level of expertise.

In paediatrics, a recently published survey of seven institutions showed that half reported the use of different PTV expansions when treating with or without IGRT. The PTV margin was based on data from the literature, clinical data or margins suggested by Children’s Oncology Group protocols. The PTV expansions used for CNS ranged from 3 to 5 mm regardless of IGRT use and there was notable institutional variability in the ranges of PTV expansions in other sites with or without IGRT ranging from 3 mm to 20 mm.Reference Alcorn, Chen and Claude ³ Eldebawy et al. reported that the required PTV margins of 4, 4·5 and 5·5 mm in the lateral, longitudinal and vertical directions, respectively, for the H&N area in the paediatric age group, and PTV margins of 5·5, 7·5 and 4·5 mm in the lateral, longitudinal and vertical directions, respectively, for the abdomen and pelvis area. In this work they defined the paediatric population as age 2–16 years old.Reference Eldebawy, Attalla, Eldesoky and Zaghloul ¹¹

In adults, PTV margins of as low as 3·0 mm in the lateral direction, 1·3 mm in longitudinal direction and 2·6 mm in vertical direction were recommended for nasopharyngeal cancer patients undergoing Intensity Modulated Radiotherapy (IMRT) with weekly Cone Beam CT scans.Reference Chen, Su and Wei ⁹ A recent survey of the American Society for Radiation Oncology members showed that the PTV margin used for H&N/CNS is 3–5 mm and the PTV margin used for torso/pelvis is 5–10 mm.Reference Nabavizadeh, Elliott and Chen ¹⁰

The data of the trials mentioned aboveReference Alcorn, Chen and Claude ^{3 ,} Reference Chen, Su and Wei ^{9 –} Reference Eldebawy, Attalla, Eldesoky and Zaghloul ¹¹ showed a difference in the PTV margin required in paediatrics versus adults especially in the torso regions. The results of this survey present the lack of consensus regarding the magnitude of the difference and the need to have a consensus.

Both patient age and height are numerical continuous variables. Panandiker et al. assessed renal motion in paediatric patients aged between 2 and 18 year old. The amount of renal motion increased for every yearly increase in the patients’ age. Renal motion in the mediolateral direction correlated with height as well. For every 10 mm increase in height, the left kidney’s movement increased by 0·006±0·002 mm (p=0·017) and the right kidney moved 0·006±0·003 mm (p=0·042).Reference Pai Panandiker, Sharma and Naik ¹⁴ It is clear from the data above that the required PTV margin for a 1-year-old baby is not the same as for a mature adult. Most of the paediatric protocols include patients up to 16–18 years old. Applying different PTV margin for adults and paediatric patients or per pubertal and post-pubertal patients may not be the simple answer. On the other hand it is not practical to consider different PTV margin for each patient based on age or height. Nazmy et al. showed a clinically significant difference in the PTV margin in the abdominal region between adult and paediatric patients treated in the same institution but they defined adult patients as age >18 and paediatric patients as age <7.Reference Nazmy, O’Shea, McCrickard and O’Sullivan ⁷ A group exists in-between 7 and 18 years old wherein the margin should be considered individually.

Reduction of the PTV margin is crucial in paediatrics; it will decrease both the acute and long-term side effects. The relatively bigger radiation dose in children presents a greater risk to the Organs At Risks (OARs). This correlates directly with the size of the patient; OARs are closer in proximity in a child than in an adult.Reference Hall ¹⁵ So while our paper highlights the need to develop consensus guidelines on PTV margins for paediatrics, it is important to take into consideration the size/height of the patient, not just the age. The relative increase in the irradiated volume by adding few mm margin in an adult patient is less than the relative increase of adding similar margin in young child.Reference Nazmy, Khafaga, Mousa and Khalil ⁶

As with most research, we have identified limitations to the study specifically treatment technique (e.g., IMRT, 3D conformal radiotherapy) and modality (e.g., photons, protons) are not identified. Immobilisation devices are also not recorded and may have been useful given their impact on PTV margins. The survey did not elicit whether centres apply different planning goals (target coverage, OAR dose limits) to paediatric cases or other methods to treat paediatric patients in consideration of the different dose implications to this population. Finally, the relation between the PTV margin and IGRT protocol implemented or the use of anaesthesia has not been addressed, so a direct comparison is difficult to make between centres. During preparation for this survey it was important to spend time to phrase the questions in a way that will give usable answer. For example when we sought of asking about the immobilisation device used and we tried to make a list, we found a large number of commercially available fixation devices, the same applies to the IGRT protocol like frequency of imaging and action level. Even for anaesthesia, in the paediatric radiation oncology practice, it is known that many patients may start treatment under anaesthesia and after being familiar with the place they can get few fractions without anaesthesia so we felt addressing these issues will make the survey more complicated (lengthy and it is unlikely to get a usable information considering the wide variation of practice expected).

We did not also examine either the effect of treatment technique on the PTV margin or anisotropic margins, both of which are of salience in clinical practice. Treatment technique has been shown to impact on PTV expansion,Reference Huijskens, van Dijk and de Jong ¹⁶ while anisotropic margins are important in the delineation of treatment volumes where internal motion is greater in one direction than in another. In two studies published on extra-cranial paediatric organ motion, Huijskens et al. (2015)Reference Huijskens, van Dijk and de Jong ¹⁶ and Nazmy et al. (2012)Reference Nazmy, Khafaga, Mousa and Khalil ⁶ found motion to be greatest in the cranial caudal direction for abdominal paediatric patients. Huijskens et al. suggested an individualised margin, with further research into inter- and intra-fraction motion warranted.

Because of the limitations above, it was not possible to draw conclusions regarding the PTV margin to be implemented in spite of the fact that the majority of the responders used PTV margins 3–5 mm for paediatric patients for brain and H&N and 5–10 mm for torso and pelvic region. But these limitations do not affect the main aim of the survey which was addressed mainly in questions 1 and 2. The results of this survey provide insight into current paediatric PTV margin protocols within radiotherapy departments, the variation that exists in practice and the absence of consensus on the margin of the PTV. Based on the current information from 43 responders treating paediatric patients this study supports the need for the development of PTV margin guidelines in the treatment of this vulnerable patient cohort in each treatment centre based on the immobilisation technique and IGRT strategy.