S865

ESTRO 36 2017

_______________________________________________________________________________________________

Figure 2: Tumour trajectory (blue) and prediction (orange)

Conclusion

The algorithm for the tumour trajectory reconstruction

was validated in this work

.

The presented data show a good agreement of the

reconstructed and predicted tumour motion. Thus the

accelerometer based system provides the opportunity for

tumour tracking from breathing induced motion.

Acknowledgment

The work was funded by the Federal Ministry of Education

and Research BMBF, KMU-innovativ, Förderkennzeichen:

13GW0060F.

Reference

[1] Detection of respiratory tumour motion using intrinsic

list mode-driven gating in positron emission tomography,

Florian Büther et al, Eur J Nucl Med Mol Imaging (2010)

[2] Data-Driven Respiratory Gating Approach for Detecting

Anterior-Posterior Tumor Motion in PET, M. Heß et al, IEEE

(2016)

[3] Evaluation und Verbesserung eines Systems zum

Tracking von Organbewegungen, Jonatan H. Zeidler,

Master Thesis, TU Ilmenau (2016)

EP-1620 The immobilizing effect of the vacuum cushion

in spinal SBRT and the impact of pain

A.S. Gerlich

1

, J.M. Van der Velden

1

, G. Fanetti

2

, A.

Zoetelief

1

, W.S.C. Eppinga

1

, E. Seravalli

1

1

University Medical Center Utrecht, Radiation Oncology,

Utrecht, The Netherlands

2

European Institute of Oncology, Radiation Oncology,

Milan, Italy

Purpose or Objective

The number of patients treated with spinal SBRT is

increasing rapidly. This technique requires accurate dose

delivery for the optimal treatment effect and protection

of organs at risk (e.g. spinal cord). Accuracy can be

challenged by patient motion during treatment delivery.

Movement during treatment can be induced by pain. To

prevent movement, individualized vacuum cushions are

commonly used immobilization devices in SBRT. This study

evaluates the impact of the use of a vacuum cushion on

intra-fraction movement in patients during SBRT based on

cone beam CT (CBCT) data and the impact of pain on

motion.

Material and Methods

Intra-fraction motion was measured in two groups of

patients treated with SBRT: 25 patients with spinal

metastases using a vacuum cushion (BlueBAG™, Elekta,

Stockholm, Sweden, n= 56 fractions) and 19 patients with

lung lesions treated without a vacuum cushion (n= 68

fractions). For the purpose of this study, the comparison

group was considered to have a fictive thoracic spine

target volume. Intra-fraction motion was assessed by

registering the post-treatment CBCT scan to the planning

CT, based on the volume of interest around the (fictive)

spine metastasis.

Translations and rotations were

determined based on a CBCT bone density match using the

Elekta Medical Systems XVI software.

Absolute values of

displacements in translations and rotations after each

fraction were calculated. Pain at baseline was registered.

Treatment time was similar in both groups. Statistical

significant differences between the two groups regarding

displacements in all directions were tested with Mann-

Whitney. This test was also performed for movement in

patients with and without pain. Mixed models were used

to analyze the differences in movement between two

groups because of multiple measurements (i.e. fractions)

within patients.

Results

Significant differences in intra-fraction movement were

found in 5 out of 6 directions (Table 1) in favor of the

vacuum cushion. Mixed models confirmed a significant

difference in movement in the longitudinal and vertical

direction and pitch axis between patients treated with and

without a vacuum cushion. Intra-fraction movement of ≥

2mm (employed PTV margin) was less frequent in patients

treated with a vacuum cushion (Figure 1). In patients

treated with a vacuum cushion no significant differences

in movement were observed in painful patients versus

patients without pain (Table 1).

Conclusion

The use of a vacuum cushion resulted in a clinically

relevant decrease of intra-fraction movement in multiple

directions during SBRT, which results in a more accurate

dose delivery. In these patients, pain did not influence

movement during radiotherapy.

EP-1621 Intrafraction errors in cranial radiotherapy

with standard VMAT mask: implications for SRS/SRT.

F. Azoury

1

, D. Nasr

1

, C. El Khoury

1

, N. Khater

1

, J.

Barouky

1

, R. Sayah

1

, N. Farah

1

, S. Achkar

1

, E. Nasr

1

1

Hotel Dieu de France Hospital - Saint Joseph University,

Radiation Oncology, Beirut, Lebanon

Purpose or Objective

Frameless SRS/SRT for intracranial tumors enhances

patient comfort. Reproducibility of setup is assured by

systematic CBCT with 6D couch correction before

treatment delivery; however concerns of intrafraction

motion that could limit the use of frameless reinforced

VMAT masks in SRS/SRT still remain. Here we study the

magnitude of errors in rotations and translations when

using standard reinforced VMAT thermoplastic masks.

Material and Methods

We analyzed 100 fractions of patientswho underwent

cranial VMAT onTrueBeam with Perfect Pitch 6DoF couch

(Varian Medical Systems). The patients were immobilized

with reinforced IMRT Masks (CIVCO) and standard neck

support. For patients requiring additional support to the