Clinical Implementation of Adaptive Helical Tomotherapy: a Unique Approach to Image-guided Intensity Modulated Radiotherapy

Overview

Journal Technol Cancer Res Treat

Specialties Biomedical Engineering
Oncology
Pharmacology

Date 2006 Sep 20

PMID 16981789

Citations 23

Authors

James S Welsh

Michael Lock

Paul M Harari

Wolfgang A Tome

Jack Fowler

Thomas Rockwell Mackie

Mark Ritter

Jeff Kapatoes

Lisa Forrest

Richard Chappell

Bhudatt Paliwal

Minesh P Mehta

Affiliations

Soon will be listed here.

Abstract

Image-guided IMRT is a revolutionary concept whose clinical implementation is rapidly evolving. Methods of executing beam intensity modulation have included individually designed compensators, static multi-leaf collimators (MLC), dynamic MLC, and sequential (serial) tomotherapy. We have developed helical tomotherapy as an innovative solution to overcome some of the limitations of other IMRT systems. The unique physical design of helical tomotherapy allows the realization of the concepts of adaptive radiotherapy and conformal avoidance. In principle, these advances should improve normal tissue sparing and permit dose reconstruction and verification, thereby allowing significant biologically effective dose escalation. Recent radiobiological findings can be translated into altered fractionation schemes that aim to improve the local control and long-term survival. This strategy is being tested at the University of Wisconsin using helical tomotherapy with its highly precise delivery and verification system along with meticulous and practical forms of immobilization. Innovative techniques such optical guidance, respiratory gating, and ultrasound assessments are being designed and tailored for helical tomotherapy use. The intrinsic capability of helical tomotherapy for megavoltage CT (MVCT) imaging for IMRT image-guidance is being optimized. The unique features of helical tomotherapy might allow implementation of image-guided IMRT that was previously impossible or impractical. Here we review the technological, physical, and radiobiological rationale for the ongoing and upcoming clinical trials that will use image-guided IMRT in the form of helical tomotherapy; and we describe our plans for testing our hypotheses in a rigorous prospective fashion.

Citing Articles

Helical tomotherapy craniospinal irradiation in primary brain tumours: Toxicities and outcomes in a peadiatric and adult population.

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PMID: 38628594 PMC: 11019098. DOI: 10.1016/j.ctro.2024.100777.

Tomotherapy for cranio-spinal irradiation.

Turcas A, Kelly S, Clementel E, Cernea D Clin Transl Radiat Oncol. 2022; 38:96-103.

PMID: 36407491 PMC: 9672131. DOI: 10.1016/j.ctro.2022.11.003.

Tomotherapy Applied Total Lymphoid Irradiation and Allogeneic Hematopoietic Cell Transplantation Generates Mixed Chimerism in the Rhesus Macaque Model.

Forrest L, Fechner J, Post J, Van Asselt N, Kvasnica K, Haynes L Radiat Res. 2021; 196(6):623-632.

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Monitoring cancer stem cells: insights into clinical oncology.

Lin S, Xu Y, Gan Z, Han K, Hu H, Yao Y Onco Targets Ther. 2016; 9:731-40.

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Impact of the Intra- and Inter-observer Variability in the Delineation of Parotid Glands on the Dose Calculation During Head and Neck Helical Tomotherapy.

Piotrowski T, Gintowt K, Jodda A, Ryczkowski A, Bandyk W, Ba K B Technol Cancer Res Treat. 2015; 14(4):467-74.

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