The role of amifostine as a radioprotector

Effective radiotherapy for patients with cancer should include maximal tumor cell killing with minimal injury to normal tissue. Radiation doses that can be delivered, without causing severe damage to surrounding normal tissues, can be insufficient to eradicate a tumor. Agents have been developed to...

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Veröffentlicht in:	Oncology (Williston Park, N.Y.) N.Y.), 2001-10, Vol.15 (10), p.1349
Hauptverfasser:	Wasserman, T H, Brizel, D M
Format:	Artikel
Sprache:	eng
Schlagworte:	Amifostine - pharmacology Amifostine - therapeutic use Clinical Trials, Phase I as Topic Clinical Trials, Phase II as Topic Clinical Trials, Phase III as Topic Combined Modality Therapy Dose-Response Relationship, Radiation Humans Neoplasms - drug therapy Neoplasms - radiotherapy Radiation Injuries - prevention & control Radiation-Protective Agents - pharmacology Radiation-Protective Agents - therapeutic use Radiotherapy - adverse effects
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creator	Wasserman, T H Brizel, D M
description	Effective radiotherapy for patients with cancer should include maximal tumor cell killing with minimal injury to normal tissue. Radiation doses that can be delivered, without causing severe damage to surrounding normal tissues, can be insufficient to eradicate a tumor. Agents have been developed to protect normal tissue from the toxicities of radiation. The aminothiol amifostine (Ethyol) is the subject of extensive research as a protector. Several studies have demonstrated that amifostine protects normal tissues from both acute and late radiation damage without protecting the tumor. This article reviews the physicochemical basis of radiation therapy on biologic tissues and the mechanisms responsible for the protective effects of amifostine. The increasing body of biochemical, preclinical, and clinical data can justify the use of protectors such as amifostine with radiotherapy to provide improved therapeutic efficacy and quality of life for the patient. This article will review the current understanding of the nature of toxicity resulting from radiation therapy and the benefits that can be derived from using protection to increase the tolerance of normal tissue to radiation damage.
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Radiation doses that can be delivered, without causing severe damage to surrounding normal tissues, can be insufficient to eradicate a tumor. Agents have been developed to protect normal tissue from the toxicities of radiation. The aminothiol amifostine (Ethyol) is the subject of extensive research as a protector. Several studies have demonstrated that amifostine protects normal tissues from both acute and late radiation damage without protecting the tumor. This article reviews the physicochemical basis of radiation therapy on biologic tissues and the mechanisms responsible for the protective effects of amifostine. The increasing body of biochemical, preclinical, and clinical data can justify the use of protectors such as amifostine with radiotherapy to provide improved therapeutic efficacy and quality of life for the patient. 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subjects	Amifostine - pharmacology Amifostine - therapeutic use Clinical Trials, Phase I as Topic Clinical Trials, Phase II as Topic Clinical Trials, Phase III as Topic Combined Modality Therapy Dose-Response Relationship, Radiation Humans Neoplasms - drug therapy Neoplasms - radiotherapy Radiation Injuries - prevention & control Radiation-Protective Agents - pharmacology Radiation-Protective Agents - therapeutic use Radiotherapy - adverse effects
title	The role of amifostine as a radioprotector
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