Nicholas T. Chng, PhD

To develop and validate a cost-effective 3D printed phantom for off-axis dosimetry using ion chambers

To describe the development and validation of in-house automatic planning for VMAT partial breast irradiation (PBI) in either 1 or 5 fractions.

Stereotactic Ablative Radiotherapy (SABR) requires highly complex treatment planning, often consuming many hours of manual effort. The Treatment Planning Automation System (TPAS) was developed to improve efficiency and reduce planner workload while maintainin...

To investigate the effect of tumour location and incidental radiation dose delivered to the internal mammary lymph nodes (IMLNs) in breast radiotherapy (RT) on breast cancer-specific mortality (BCSM).

Previous work suggests that automatically optimized plans were dosimetrically non-inferior to manual, interactively optimized plans based on institutional clinical goals in a retrospective paired analysis. This study aimed to extend this work to clinical acce...

Over the past two decades Radiation Therapy has become increasingly reliant on complex software systems, locally developed scripts and spreadsheets. Recent advances in AI technology suggest that this reliance will only increase in the future. While software e...

To demonstrate that TPAS can generate high-quality plans across the full spectrum of external-beam radiotherapy, from rapid palliative treatments to complex curative SABR.