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Author profile
Gourav Jhanwar
Department of Medical Physics, Memorial Sloan Kettering Cancer Center
Warm-IP: Fast Constrained Optimization for Automated and Adaptive Radiotherapy Treatment Planning
Fast and reliable optimization remains a major bottleneck in automated and adaptive radiotherapy treatment planning. Most commercial and research planning systems rely on gradient-based optimization methods, which can converge slowly near the optimal solution...
Poster Program · Therapy Physics
Automated Treatment Planning for Lymphocyte Preservation Radiotherapy: Sparing Blood-Bearing Organs Linked to Survival In NSCLC
To identify blood-bearing organs whose mean blood dose is significantly associated with OS in non-small cell lung cancer (NSCLC), and to evaluate the feasibility of sparing these organs during treatment planning.
Proffered Program · Therapy Physics
Routine Clinical Use of Clinical-Criteria–Driven Automated IMRT and VMAT Planning
Despite extensive research on automated treatment planning, manual trial-and-error optimization remains common in clinical practice. Knowledge-based and AI-driven approaches show promise but often lack robustness to evolving clinical protocols due to the need...
Proffered Program · Therapy Physics
Portpy: An Open-Source Platform for Benchmarking and Clinical Translation of Radiotherapy Treatment Planning Optimization
We present PortPy (Planning and Optimization for Radiation Therapy in Python), an open-source platform designed to accelerate research, benchmarking, and clinical translation of treatment planning optimization algorithms. PortPy provides curated benchmark dat...
Proffered Program · Therapy Physics