Particle therapy for central nervous system tumors in pediatric and adult patients

Jeffrey Q. Dinh; Anita Mahajan; Matthew B. Palmer; David R. Grosshans

doi:10.3978/j.issn.2218-676X.2012.10.02

Particle therapy for central nervous system tumors in pediatric and adult patients

Jeffrey Q. Dinh, Anita Mahajan, Matthew B. Palmer, David R. Grosshans

Radiation Oncology

Research output: Contribution to journal › Review article › peer-review

3 Scopus citations

Abstract

Radiation therapy has an established role in the treatment of many primary brain and spine tumors, both in adults and in children. However, adverse effects of radiotherapy arise when normal tissue is irradiated. As survival rates increase, limiting radiation-associated toxicities and thereby improving quality of life after treatment has become an increasing concern. Charged particles, such as protons and carbon ions, have unique physical properties, which differ from conventional photon-based treatments. These physical properties allow for superior dose-distributions, most notably sparing of normal tissues from unnecessary radiation exposure. In this review, we highlight the potential advantages of particle therapy in the treatment of central nervous system tumors in adults and children.

Original language	English (US)
Pages (from-to)	137-149
Number of pages	13
Journal	Translational Cancer Research
Volume	1
Issue number	3
DOIs	https://doi.org/10.3978/j.issn.2218-676X.2012.10.02
State	Published - Oct 1 2012

Keywords

Brain tumor
Carbon ions
Particle therapy
Protons

ASJC Scopus subject areas

Oncology
Radiology Nuclear Medicine and imaging
Cancer Research

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10.3978/j.issn.2218-676X.2012.10.02

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AU - Dinh, Jeffrey Q.

AU - Mahajan, Anita

AU - Palmer, Matthew B.

AU - Grosshans, David R.

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N2 - Radiation therapy has an established role in the treatment of many primary brain and spine tumors, both in adults and in children. However, adverse effects of radiotherapy arise when normal tissue is irradiated. As survival rates increase, limiting radiation-associated toxicities and thereby improving quality of life after treatment has become an increasing concern. Charged particles, such as protons and carbon ions, have unique physical properties, which differ from conventional photon-based treatments. These physical properties allow for superior dose-distributions, most notably sparing of normal tissues from unnecessary radiation exposure. In this review, we highlight the potential advantages of particle therapy in the treatment of central nervous system tumors in adults and children.

AB - Radiation therapy has an established role in the treatment of many primary brain and spine tumors, both in adults and in children. However, adverse effects of radiotherapy arise when normal tissue is irradiated. As survival rates increase, limiting radiation-associated toxicities and thereby improving quality of life after treatment has become an increasing concern. Charged particles, such as protons and carbon ions, have unique physical properties, which differ from conventional photon-based treatments. These physical properties allow for superior dose-distributions, most notably sparing of normal tissues from unnecessary radiation exposure. In this review, we highlight the potential advantages of particle therapy in the treatment of central nervous system tumors in adults and children.

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KW - Protons

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Particle therapy for central nervous system tumors in pediatric and adult patients

Abstract

Keywords

ASJC Scopus subject areas

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