Collection of Tissue Samples for Study of Multidrug Resistance
Status: | Completed |
---|---|
Conditions: | Breast Cancer, Cancer |
Therapuetic Areas: | Oncology |
Healthy: | No |
Age Range: | 18 - 99 |
Updated: | 4/6/2019 |
Start Date: | December 19, 2003 |
End Date: | February 8, 2018 |
Multidrug Resistance Molecular Target Analysis of Human Samples Collected in Clinical Trials Performed Outside of the Intramural National Cancer Institute
Background:
Resistance to cancer chemotherapy develops in patients, rendering certain treatments
ineffective. Despite much research, the prevailing cause of drug resistance is not known.
One mechanism for drug resistance involves a protein called P-glycoprotein, or Pgp, which
reduces the effectiveness of cancer treatments by "pumping" anti-cancer drugs out of tumor
cells where they are supposed to work against the disease.
Objectives:
To identify and evaluate more thoroughly the roles of Pgp and other substances in mediating
drug resistance.
Eligibility:
Patients enrolled in clinical trials of cancer therapies at the Children's Hospital of
Pittsburgh; Cancer Centers of Carolinas; Arizona Clinical Research Center; University of
Copenhagen; and Herlev Hospital, Copenhagen who have consented to the use of blood, tissue,
or tumor samples for laboratory studies.
Design:
Blood, tumor, and tissue samples are collected from participants and sent to the NCI for
various laboratory analyses.
Resistance to cancer chemotherapy develops in patients, rendering certain treatments
ineffective. Despite much research, the prevailing cause of drug resistance is not known.
One mechanism for drug resistance involves a protein called P-glycoprotein, or Pgp, which
reduces the effectiveness of cancer treatments by "pumping" anti-cancer drugs out of tumor
cells where they are supposed to work against the disease.
Objectives:
To identify and evaluate more thoroughly the roles of Pgp and other substances in mediating
drug resistance.
Eligibility:
Patients enrolled in clinical trials of cancer therapies at the Children's Hospital of
Pittsburgh; Cancer Centers of Carolinas; Arizona Clinical Research Center; University of
Copenhagen; and Herlev Hospital, Copenhagen who have consented to the use of blood, tissue,
or tumor samples for laboratory studies.
Design:
Blood, tumor, and tissue samples are collected from participants and sent to the NCI for
various laboratory analyses.
Background:
Ultimately, patients who succumb to cancer do so because of drug resistance. Mechanisms of
drug resistance have been explored in the laboratory and in clinical samples for some time,
yet the prevailing cause of drug resistance, if indeed there is a single cause, is not known.
One mechanism of drug resistance is multidrug efflux, mediated by P-glycoprotein. Other
mechanisms have been proposed. Our laboratory has expertise in the analysis of drug
transporter expression and activity in clinical samples.
Objectives:
To determine expression of P-glycoprotein and other multidrug transporters thought to mediate
clinical drug resistance.
To evaluate inhibition of P-glycoprotein and other multidrug transporters through assessment
of efflux activity in cells obtained from patients enrolled on clinical trials at other
institutions.
To identify and evaluate mechanisms of drug resistance using molecular assays such as cDNA
array, real-time PCR analysis, and immunohistochemistry.
Eligibility:
Patients enrolled on clinical trials outside the NCI, and giving informed consent to the use
of blood, tissue, or tumor samples for evaluation of mechanisms of drug resistance or
evaluation of inhibition of multi-drug efflux.
Future collaborations for similar studies will be added via the protocol amendment procedure;
molecular studies other than ABC transporter assays will be added via the protocol amendment
procedure.
Design:
Human tumor biopsies or blood samples will be collected from cancer patients enrolled on
approved clinical trials, in accordance with the local protocol. These trials are being
conducted at outside institutions, and the samples will be sent to the NCI for
immunohistochemical analysis, cDNA array, PCR analysis, or for blood assays for detection of
P-glycoprotein inhibition.
Ultimately, patients who succumb to cancer do so because of drug resistance. Mechanisms of
drug resistance have been explored in the laboratory and in clinical samples for some time,
yet the prevailing cause of drug resistance, if indeed there is a single cause, is not known.
One mechanism of drug resistance is multidrug efflux, mediated by P-glycoprotein. Other
mechanisms have been proposed. Our laboratory has expertise in the analysis of drug
transporter expression and activity in clinical samples.
Objectives:
To determine expression of P-glycoprotein and other multidrug transporters thought to mediate
clinical drug resistance.
To evaluate inhibition of P-glycoprotein and other multidrug transporters through assessment
of efflux activity in cells obtained from patients enrolled on clinical trials at other
institutions.
To identify and evaluate mechanisms of drug resistance using molecular assays such as cDNA
array, real-time PCR analysis, and immunohistochemistry.
Eligibility:
Patients enrolled on clinical trials outside the NCI, and giving informed consent to the use
of blood, tissue, or tumor samples for evaluation of mechanisms of drug resistance or
evaluation of inhibition of multi-drug efflux.
Future collaborations for similar studies will be added via the protocol amendment procedure;
molecular studies other than ABC transporter assays will be added via the protocol amendment
procedure.
Design:
Human tumor biopsies or blood samples will be collected from cancer patients enrolled on
approved clinical trials, in accordance with the local protocol. These trials are being
conducted at outside institutions, and the samples will be sent to the NCI for
immunohistochemical analysis, cDNA array, PCR analysis, or for blood assays for detection of
P-glycoprotein inhibition.
- INCLUSION CRITERIA:
Any patients entered on approved trials of cancer therapeutics at Children's Hospital of
Pittsburgh, Herlev Hospital, and the University of Copenhagen outside of the intramural NCI
are eligible for inclusion, provided that they have consented to tumor studies in the
original consent forms.
EXCLUSION CRITERIA:
None anticipated at this time.
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