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Clinical Trial Summary

The purpose of this study is to analyze the gene expression patterns associated with various microenvironmental stresses in tumors to understand their roles in tumor progression and treatment responses. To achieve this goal, we will perform gene expression analysis of the tumor samples collected from an IRB-approved study (IRB #: 4516-05-2R2) International Phase III Study of Chemoradiotherapy versus Chemoradiotherapy Plus Hyperthermia for Locally Advanced Cervical Cancer directed by Dr. Mark Dewhirst. We will correlate the gene expression signatures of different microenvironmental stresses with the measured physiological parameters to understand their role in tumor progression, treatment response and clinical outcomes.


Clinical Trial Description

In the first part of the proposal, we will determine the cellular responses to various microenvironmental factors (such as lactosis, acidosis, hypoxia, glucose deprivation) in cultured epithelial cells (commercially obtained) making use of DNA microarray analysis. From the analysis of these microarray assays, we will obtain the gene signatures reflecting how cells respond to these environments stresses. These gene signatures will be used to analyze and annotate the gene expression patterns in the tumor samples and whether hyperthermia will affect the physiological parameters and the corresponding gene signatures.

In the second part of the proposal, we will work with Dr. Dewhirst to perform gene expression study of cervical cancer samples from a phase III, multicenter, randomized clinical trial (IRB 4516-05-2R2). The subjects will de-identified and we will not obtain directly the PHI of the subjects in this trial. Subjects will be randomized to chemoradiotherapy alone or chemoradiotherapy + hyperthermia. For subjects randomized to hyperthermia, heat treatments will be administered concurrently with chemotherapy once weekly during the course of external beam radiation. In the hyperthermia suite, catheters will be placed in the cervical os, vagina and rectum for internal temperature monitoring. Hyperthermia will be given externally to the pelvis and abdomen using the BSD Sigma 60 ,Sigma Eye or Sigma Ellipse systems. Initial power will be limited to less than 1500 watts with phase and amplitude adjusted for equal surface electric fields in each quadrant of the applicator. Heating will continue for 60 minutes after average cervical os or interstitial temperatures of 40°C have been achieved, or for a maximum total duration of 90 minutes, whichever is longest. The bolus temperature will be 37° at initiation of power and will be reduced as necessary for patient comfort and/or to help maintain oral temperature of 38.5C. Power will also be reduced or treatment will be stopped at the patient request, or due to intractable pain, nausea or vomiting, if normal tissue temperature rises to 44°C, pulse > 160, BP > 180/100 or < 90/50, altered mental status, or systemic temperature > 38.5°C.

A. The research materials will include the tumor biopsy obtained before and after HT treatments to be used for gene expression studies as well as for the IHC and ISH studies to the findings from our microarray analysis. We will also obtain the information on the tumor physiological parameters information measured in these tumors.

B. The data of the tumor physiological parameters measured and the response to treatments and other clinical outcomes of these patients will also be acquired.

C. Only the physicians taking care of the patients will have access to the patient identifies and other Protected Health Information (PHI). All information will be de-identified and remain anonymous during the studies.

D. The specimens will be collected when the patients undergo medical care for their respective diseases. No new materials or data will need to be collected specifically for this proposal. These biopsies and physiological measurements are included in the original proposed clinical trials. ;


Study Design

Observational Model: Cohort, Time Perspective: Cross-Sectional


Related Conditions & MeSH terms


NCT number NCT00638040
Study type Observational
Source Duke University
Contact
Status Withdrawn
Phase N/A
Start date September 2009
Completion date September 2012

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