Clinical Trials Logo

Clinical Trial Summary

The purpose of this study is to correlate the results of the MICK assay with short- and long-term results of treatments in cancer patients and evaluate the role of the MiCK assay in guiding chemotherapy of cancer patients.


Clinical Trial Description

Identification of those patients with cancer who will or will not respond to a specific chemotherapy is important for making decisions regarding chemotherapy regimens as well as alternative management approaches. A laboratory test that could help to determine the sensitivity of an individual patient's tumor cells to specific chemotherapeutic agents would be valuable in choosing the optimal chemotherapy regimen for that patient with an expectation of increasing the response rate to the therapy. Several types of in vitro assays that measure tumor cell survival following exposure to cytotoxic agents have been evaluated for their ability to predict chemotherapy outcomes. As a group, these assays are referred to as drug resistance assays. In a resistance assay, the surviving tumor cells can be detected directly by their exclusion or metabolism of specific dyes. Alternatively, since some of tumor cells are proliferating, their survival can be detected by measurement of DNA synthesis by radiolabeled precursor incorporation or demonstration of clonogenic potential by growth into colonies in semi-solid culture medium. In several clinical studies, these assays were useful in detecting drug resistance and in predicting a poor prognosis for cancer patients. However, these resistance assays cannot detect sensitivity of an individual patient's tumor cells to a specific drug. Therefore, new methods determining drug-sensitivity of the tumor cells of an individual patient and, thus, capable of both predicting a positive treatment outcome and guiding chemotherapy, would be of significant value.

Recently, an automated microculture kinetic (MiCK) assay for measuring drug induced apoptosis in tumor cells has been developed1-4. Apoptosis is a distinct mode of cell death which occurs under physiological conditions and yet can be induced in malignant cells by chemical and physical factors including antitumor drugs5-7. During the last decade, it has been recognized that chemotherapeutic agents exert their antitumor activity by triggering apoptosis in susceptible tumor cells8-17. This implies that the MiCK assay for apoptosis provides a mechanism-based approach to studying effects of cytotoxic agents on tumor cells. Unlike "resistance" assays that measure a fraction of cells surviving drug exposure, the MiCK assay measures a fraction of tumor cells killed by a chemotherapeutic agent via mechanism of apoptosis. Therefore the MiCK assay determines drug sensitivity, rather than resistance. Recently the MiCK assay has been shown to predict complete remission rate and survival in acute myeloid leukemia patients better than clinical criteria did18-20. In a limited study, the MiCK assay has been used to direct chemotherapy of the leukemia patients 21.

The MiCK assay has also been used to study drug-induced apoptosis in solid tumors, including neuroblastoma and colon adenocarcinoma cell lines22-23. More recent data accumulated by DiaTech has demonstrated that the MiCK assay can detect drug induced apoptosis in primary cultures of tumor cells isolated from patients with ovarian carcinoma, gastric carcinoma, metastatic breast cancer and high grade soft tissue sarcoma. The purpose of this study is to correlate the results of the MICK assay with short- and long-term results of treatments in cancer patients and evaluate the role of the MiCK assay in guiding chemotherapy of cancer patients. ;


Study Design

Observational Model: Case Control, Time Perspective: Prospective


Related Conditions & MeSH terms


NCT number NCT00901264
Study type Observational
Source DiaTech Oncology
Contact
Status Completed
Phase N/A
Start date December 2008
Completion date November 2012

See also
  Status Clinical Trial Phase
Recruiting NCT05346796 - Survivorship Plan HEalth REcord (SPHERE) Implementation Trial N/A
Recruiting NCT05094804 - A Study of OR2805, a Monoclonal Antibody Targeting CD163, Alone and in Combination With Anticancer Agents Phase 1/Phase 2
Completed NCT04867850 - Effect of Behavioral Nudges on Serious Illness Conversation Documentation N/A
Enrolling by invitation NCT04086251 - Remote Electronic Patient Monitoring in Oncology Patients N/A
Completed NCT01285037 - A Study of LY2801653 in Advanced Cancer Phase 1
Completed NCT00680992 - Study of Denosumab in Subjects With Giant Cell Tumor of Bone Phase 2
Completed NCT00062842 - Study of Irinotecan on a Weekly Schedule in Children Phase 1
Active, not recruiting NCT04548063 - Consent Forms in Cancer Research: Examining the Effect of Length on Readability N/A
Completed NCT04337203 - Shared Healthcare Actions and Reflections Electronic Systems in Survivorship N/A
Recruiting NCT04349293 - Ex-vivo Evaluation of the Reactivity of the Immune Infiltrate of Cancers to Treatments With Monoclonal Antibodies Targeting the Immunomodulatory Pathways N/A
Terminated NCT02866851 - Feasibility Study of Monitoring by Web-application on Cytopenia Related to Chemotherapy N/A
Active, not recruiting NCT05304988 - Development and Validation of the EFT for Adolescents With Cancer
Completed NCT04448041 - CRANE Feasibility Study: Nutritional Intervention for Patients Undergoing Cancer Surgery in Low- and Middle-Income Countries
Completed NCT00340522 - Childhood Cancer and Plexiform Neurofibroma Tissue Microarray for Molecular Target Screening and Clinical Drug Development
Recruiting NCT04843891 - Evaluation of PET Probe [64]Cu-Macrin in Cardiovascular Disease, Cancer and Sarcoidosis. Phase 1
Active, not recruiting NCT03844048 - An Extension Study of Venetoclax for Subjects Who Have Completed a Prior Venetoclax Clinical Trial Phase 3
Completed NCT03109041 - Initial Feasibility Study to Treat Resectable Pancreatic Cancer With a Planar LDR Source Phase 1
Completed NCT03167372 - Pilot Comparison of N-of-1 Trials of Light Therapy N/A
Terminated NCT01441115 - ECI301 and Radiation for Advanced or Metastatic Cancer Phase 1
Recruiting NCT06206785 - Resting Energy Expenditure in Palliative Cancer Patients