Assessment of Uncertainty in Volume Estimation of Non-Static Target: A Phantom Study using Racemosa Wood.

INTRODUCTION: CT information of the target undergoing motion/movement during its scanning has been questioned by many researchers for its preciseness as well as accuracy. The present study was taken with aim to validate the racimosa wood as lung equivalent and to assess the uncertainty in volume estimation during virtual simulation of non-static target of known dimension such as in lung cancer radiotherapy.

MATERIALS AND METHODS: The racemosa wood was validated as lung equivalent material with the help of two methods. Wood insert with tumor model was put into the hollow cylinder space of dimension 6.4 cm in diameter provided in CIRS phantom. First CT image of rest position was taken and given name "No Movement". Subsequently the tumor was shifted +/-5mm, +/-15mm and +/-25 mm with respect to "Rest Position". CT images of the CIRS phantom containing tumor in wood cylinder were acquired after each movement given to wood cylinder.

RESULTS: The relative electron density of racemosa wood corresponding to HU value -724 was found to be 0.275 gm/cm3. The true volume of the target was 7.8.cm3 however variation up to 9.5 cm3 was observed in CT produced volume of the target over the range of different movements.

DISCUSSION: The racemosa wood was found to be having range of density (- 850 HU to - 400 HU) similar to real human lung density variation. Various studies have been performed using uniform density lung structures in their experimental setups to assess the accuracy in lung cancer radiation delivery. However, in the present work approximately real clinical setting was reproduced by putting the wood cylinder with density variation from 0.2 gm/cm3- 4.5 gm/cm3in hollow space provided in one lung structure the phantom used in this study.

CONCLUSIONS: The racemosa wood was found to be lung equivalent which is available locally and cost-effective as well. Overestimation in the target volume (by CT imaging) showed a trend of increase with 3 directional movement amplitudes. The results of this study can be utilised in lung cancer radiotherapy as the same were derived from setup having clinical settings in terms of lung density variation, shape, compositions of the phantom maximally as found during the real patient radiotherapy.