User-Friendly Computational Tool May Help to Optimize Cancer Treatment

by Madhumathi Palaniappan on  December 23, 2016 at 2:37 PM Cancer News
RSS Email Print This Page Comment bookmark
Font : A-A+

A new computational tool developed by a research team from the Columbia University Medical Center (CUMC) may predict the genes that are implicated in cancer and recommend treatment options.
User-Friendly Computational Tool May Help to Optimize Cancer Treatment
User-Friendly Computational Tool May Help to Optimize Cancer Treatment

It is the first of its kind to incorporate a user-friendly web interface which needs only little knowledge on bioinformatics.

The researchers found that iCAGES identified personal cancer "drivers" 77 percent of the time when presented with a pair of randomly chosen driver genes and non-driver genes, compared with about 51 percent for other computational tools.

The study was published online today in Genome Medicine.

Most cancers are caused by the accumulation of somatic (versus inherited) genetic mutations, or variants. Many of the variants involved in numerous types of cancer have been identified with genetic sequencing studies of large numbers of patients. However, this information is not always clinically useful on an individual level. Cancer "drivers" can vary from patient to patient, and there are no practical clinical tools for predicting which variants in an individual's genome are driving his or her disease and which are present but not causing disease. "Even when the genes driving cancer are known, clinicians don't have an efficient way to choose among the hundreds of possible drug therapies," said study leader Kai Wang, PhD, associate professor of biomedical informatics and director of clinical informatics at the Institute for Genomic Medicine at CUMC.

To address this shortfall, Dr. Wang and his colleagues developed a computational tool called integrated CAncer GEnome Score (iCAGES). First, iCAGES analyzes the patient's entire genome, comparing it to the genomic sequence of the patient's tumor to identify possible cancer-causing variants. Next, iCAGES cross-references these variants to databases of known cancer-causing genes, using statistical analyses and machine learning techniques to prioritize the most likely driver genes. Finally, iCAGES matches the variants to FDA-approved and experimental drug therapies that specifically address those variants or genes. The entire process takes about 30 minutes. In contrast, conventional approaches require many separate steps involving human input, taking as long as several weeks.

In a test designed to show how the tool would be used in actual practice, Dr. Wang retrospectively tested iCAGES using detailed sequencing data from a patient with lung cancer. Out of 129 possible cancer drivers, iCAGES focused on a gene called ARAF. iCAGES used the genomic sequencing data to select sorafenib as the top drug candidate out of 122 possible treatments. The patient's oncologists had reached the same conclusions, but they used a much more complex and time-consuming approach, involving expert knowledge throughout the decision-making process. "The patient was given sorafenib and had an extraordinary clinical response," said Dr. Wang. "It's worth noting that sorafenib is not FDA-approved for this indication. Nonetheless, the result suggests that iCAGES may help to identify novel treatment strategies and off-label use of existing approved drugs."

When tested on various cancer patient databases, iCAGES was found to be superior to other computational tools at predicting cancer drivers from personal genomes and at identifying beneficial treatment.

"We hope that iCAGES can help clinicians take full advantage of the massive amounts of data on genomic sequencing and cancer variants, and shed light on personalized cancer therapy," said Dr. Wang.

A pilot clinical trial is now being planned to evaluate the translational potential of iCAGES.



Source: Eurekalert

Post a Comment

Comments should be on the topic and should not be abusive. The editorial team reserves the right to review and moderate the comments posted on the site.
Notify me when reply is posted
I agree to the terms and conditions

More News on:

Cancer and Homeopathy Cancer Facts Cancer Tattoos A Body Art Common Lifestyle Habits that Cause Diseases Health Benefits of Dandelion Plant 

News A - Z

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

News Search

Medindia Newsletters

Subscribe to our Free Newsletters!

Terms & Conditions and Privacy Policy.

Find a Doctor

Stay Connected

  • Available on the Android Market
  • Available on the App Store

News Category

News Archive

Loading...