Date of Graduation
5-2025
Document Type
Dissertation (PhD)
Program Affiliation
Quantitative Sciences
Degree Name
Doctor of Philosophy (PhD)
Advisor/Committee Chair
Yuan Ying
Committee Member
Liang Li
Committee Member
J Jack Lee
Committee Member
Xuelin Huang
Committee Member
Eduardo Vilar Sanchez
Abstract
The primary objective of Phase I oncology trials is to assess the safety and tolerability of novel therapeutics. Conventional dose escalation methods identify the maximum tolerated dose (MTD) based on dose-limiting toxicity (DLT). However, as cancer therapies have evolved from chemotherapy to targeted therapies, these traditional methods have become problematic. Many targeted therapies rarely produce DLT and are administered over multiple cycles, potentially resulting in the accumulation of lower-grade toxicities, which can lead to intolerance, such as dose reduction or interruption. To address this issue, we proposed dual-criterion designs that find the MTD based on both DLT and non-DLT-caused intolerance. These include a model-based design and model-assisted design that allow real-time decision making in the presence of pending data due to long event assessment windows. We then extend this dual-criterion approach by incorporating efficacy to determine the optimal biological dose under a model-assisted design. Compared to DLT-based methods, our approaches exhibit superior operating characteristics when intolerance is the primary driver for determining the MTD and comparable operating characteristics when DLT is the primary driver.
Keywords
Bayesian; Clinical Trial Design; Dose Finding