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Monitoring Radiobiological Effects in Thoracic Malignancy by Using Myocardial Perfusion Scan

NCT01913769 · Status: UNKNOWN · Type: OBSERVATIONAL · Enrollment: 100

Last updated 2013-08-01

No results posted yet for this study

Summary

Background:

Chemoradiation is an important treatment strategy of locally advanced inoperable or unresectable disease. Radiation dose is an independent predictor of a pathological response. In addition, chemotherapy has further impact on the aspect of outcome. Improvements in local treatment delivery are needed to facilitate dose escalation and to minimize toxicity. There have been sequential improvements in tumor localization, radiation planning and delivery over the years. Helical tomotherapy nowadays provides the most precise data on radiotherapy (RT) dose delivered to thoracic malignancies, and allows greater sparing of the heart from doses associated with increased complications. However, heart disease shows a wide spectrum of pathologies, and multiple risk factors related. The damage of the myocytes may lead to not only myocardial perfusion defects, but also in functional deterioration, or even in biomarkers.

Since the impact of radiation-induced heart injury in patients with thoracic malignancies (including esophageal cancer, lung cancer, et al) is poorly documented, we try to delineate of RT-related cardiac effects and clinical impacts.

Objective:

This study aims to investigate the correlation of post-tomotherapy cardiovascular effects with myocardial perfusion and cardiac functional studies.

Methods:

The study plans to enroll thoracic cancer patients who will undergo local RT after complete staging. Patients will receive global risk scoring assessment (Framingham Risk Score, FRS), blood sampling for basic biochemistry, inflammatory biomarker, and myocardial perfusion image (MPI) at the time points of before and after RT. The results of MPI will be analyzed in qualitative visual interpretation of perfusion patterns, and functional quantitative data for cardiac functional parameters as well. The patients will be regular followed-up in CV OPD, following clinical judgement and guideline. The association between baseline and follow-up MPI, biomarker and clinical presentation will be further investigated.

Expected results:

We will obtain myocardial perfusion visual qualitative data in patients who received locoregional RT, respectively. These results will help in the understanding of pathophysiology, clinical management and follow-up of suspected RT-related heart disease.

Conditions

  • Thoracic Neoplasms
  • Late Effect of Radiation

Interventions

RADIATION

Thallium-201 Myocardial Perfusion Study

One-day Tl-201 stress/rest MPI protocol with pharmacological stress, as daily practice will be applied. CZT camera with multipinhole collimator and stationary detectors scan heart simultaneously. A 10% symmetrical energy window at 140 keV was used. Electrocardiogram-gated scans will be applied. Perfusion images were reconstructed in standard axis and polar maps of the left ventricle were obtained. Scans from CZT was analyzed in consensus by two experienced readers blinded to any information on patient identification. The software package Myovation for Alcyone, QGS and QPS were used for quantitative analysis of MPI polar maps. Automated analysis to determine ejection fraction.

Sponsors & Collaborators

  • Far Eastern Memorial Hospital

    lead OTHER

Principal Investigators

  • Shan-Ying Wang, M.D. · Far Eastern Memorial Hospital, Taiwan

Eligibility

Min Age
20 Years
Max Age
80 Years
Sex
ALL
Healthy Volunteers
No

Timeline & Regulatory

Start
2013-07-31
Primary Completion
2014-07-31
Completion
2016-07-31

Countries

  • Taiwan

Study Locations

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Read the full study record

This page highlights key information. For complete eligibility criteria, study locations, investigator contacts, and the full protocol, visit the original record on ClinicalTrials.gov.

View NCT01913769 on ClinicalTrials.gov