(Press-News.org) COLUMBUS, Ohio -- An Ohio State University mathematician and his colleagues are finding ways to tell the difference between healthy cells and abnormal cells, such as cancer cells, based on the way the cells look and move.
They are creating mathematical equations that describe the shape and motion of single cells for laboratory analysis.
Though this research is in its early stages, it represents an entirely new way of identifying cell abnormalities, including cancer. It could one day be useful in gauging future stages of a disease -- for example, by detecting whether cancer cells are aggressive and likely to spread throughout the body, or metastasize.
In a paper published online in the Bulletin of Mathematical Biology, researchers describe a mathematical model which analyzes image sequences of single, live cells to determine abnormalities manifested in their shape and behavior. A brain tumor cell was one of the cell types they analyzed in the study.
Huseyin Coskun, visiting assistant professor of mathematics at Ohio State and leader of the project, described their novel approach as a first step toward developing mathematical tools for diagnosing cell abnormalities and for giving potential prognoses.
Because the technique would allow doctors to view how cancer cells behave under different physical or chemical conditions, it could also be used to test different treatment strategies for each individual patient -- such as determining the most efficient dose of chemotherapeutic agents or radiation -- or even to test entirely new treatments.
In addition, Coskun sees his technique as a tool for also pathologists, who typically look at photographs of biopsied cells to identify cancer and judge how advanced the cancer may be.
"A pathologist can diagnose cancer, but as far as predicting the future, they don't have many tools at their disposal -- particularly if a cancer is in its early stages," Coskun said. "That's why I believe that one of the most important applications of this research is profiling cancer cells. Given a cell's motion and its morphological changes, we want to be able to determine what's happening inside the cell. If it looks like a cancer cell, and a particularly aggressive one, we would like to quantify how likely it is that the cancer cells will invade the body."
In a very basic sense, diagnosing a "sick" cell such as a cancer cell by its appearance, motion, and behavior is analogous to diagnosing a sick human, he said. "When we get sick, our behavior changes. We may stay in bed, sleep a lot -- maybe we are coughing or sneezing. These are basic symptoms that a doctor will consider to determine if we're sick. Abnormalities oftentimes manifest themselves as behavioral changes in all living organisms. Therefore, a careful analysis of and profiling the behavioral patterns of single cells could provide valuable information."
Cell motion is important for all life, he continued. White blood cells move when they attack microbes that have invaded the body. A wound heals when newly grown cells move in to close it. But something about aggressive cancer cells causes them to move from the tumor where they originated into the blood stream, where they migrate to different organs and grow out of control.
Living cells often change shape, expand, or contract, and Coskun believes that he and his colleagues can create unique "personality profiles" of cancer cells.
Coskun and his colleague, Hasan Coskun, assistant professor of mathematics at Texas A&M University-Commerce, used a branch of physics called continuum mechanics to derive equations that describe cells' appearance and behavior. They compared their model outcomes to findings from past cancer studies, which indicated that cancer cells are more deformable than normal cells.
The researchers discovered that their model results agree with those experimental findings.
Obtaining data from live cell image sequences to use as an input in the mathematical models is not easy. For this, Coskun collaborated with Hakan Ferhatosmanoglu, an associate professor, and his then-student, Ahmet Sacan, both of computer science and engineering at Ohio State. They created open source software called CellTrack to extract data from movies of cell motion.
Given a movie of live cells under the microscope, CellTrack tracks individual cells, extracts data that can be used in the mathematical models, and provides other useful statistical information about the motion.
Huseyin Coskun acknowledged the current limits of his methodology. The researchers were able to show that their mathematical models can be applied to analyze single cell motion and obtain useful information. They were also able to hypothesize a biological explanation for very complex mechanism of cell motion based on their mathematical model outcomes. But he and his partners need many more high-resolution movies of healthy cells and cancer cells to build upon this initial work. That's why Coskun is setting up collaborations with medical researchers at Ohio State and other universities.
Coskun believes that mathematical techniques such as his are becoming more common in the biomedical sciences because they allow researchers to perform studies that would be too difficult, time-consuming or expensive in real life. He hopes his technique could be used to answer emerging questions in cell biology.
###
Contact: Huseyin Coskun, (614) 292-5131; coskun.5@osu.edu
Written by Pam Frost Gorder, (614) 292-9475; gorder.1@osu.edu
END
AURORA, Colo. (Jan. 25, 2011) – A new study led by researchers at the Children's Outcomes Research (COR) Program at The Children's Hospital and Colorado Health Outcomes Program (COHO) at the University of Colorado School of Medicine explores the barriers, facilitators and alternative approaches to providers sending reminder notices for immunization using a statewide immunization registry. Reminder or recall messages, usually in the form of postcards, letters, or phone calls, have long been regarded as an effective way to increase immunization rates within primary care ...
COLUMBIA, Mo. – One of the first studies published from the University of Missouri Brain Imaging Center (BIC) gives researchers insight into the brain and memory and may provide researchers clues to treating a variety of debilitating disorders.
Nelson Cowan, director of the BIC and Curator's Professor in the Department of Psychological Sciences, used the BIC's magnetic resonance imaging (MRI) to produce graphics that depict the structure and function of the brain during various mental tasks in an effort to understand abstract working memory. People use their abstract ...
DURHAM, NC – Duke University bioengineers have developed a new method for rapidly producing an almost unlimited variety of man-made DNA sequences.
These novel sequences of recombinant DNA are used to produce repetitive proteins to create new types of drugs and bioengineered tissues. Current methods for producing these DNA sequences are slow or not robust, the researchers said, which has hindered the development of these increasingly important new classes of protein-based polymers.
Researchers have already demonstrated that when a large protective macromolecule – known ...
Surgery has not been an option in the past for children with ACL tears because of the possible damage to the growth plate that can cause serious problems later in life.
With this new technology, surgeons can actually see from one point to the other on either side of the knee, and can safely position the tunnels where they will place the new ligament.
John Xerogeanes, MD, chief of the Emory Sports Medicine Center, and colleagues in the laboratory of Allen R. Tannenbaum, PhD, professor in the Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and ...
WASHINGTON, DC, January 25, 2011 – The tiger reserves of Asia could support more than 10,000 wild tigers – three times the current number – if they are managed as large-scale landscapes that allow for connectivity between core breeding sites, a new paper from some of the world's leading conservation scientists finds. The study, co-authored by World Wildlife Fund (WWF) scientists, is the first assessment of the political commitment made by all 13 tiger range countries at November's historic tiger summit to double the tiger population across Asia by 2022.
"A Landscape-Based ...
VIDEO:
Jerry Nick, M.D., associate professor of medicine at National Jewish Health, discusses recent research on biofilms, bacterial infections and contact lenses.
Click here for more information.
Researchers at National Jewish Health and the University of Texas Southwestern Medical Center have discovered a new method to fight bacterial infections associated with contact lenses. The method may also have applications for bacterial infections associated with severe burns and ...
A study by researchers at Washington University School of Medicine in St. Louis has raised safety concerns about an investigational approach to treating cancer.
The strategy takes aim at a key signaling pathway, called Notch, involved in forming new blood vessels that feed tumor growth. When researchers targeted the Notch1 signaling pathway in mice, the animals developed vascular tumors, primarily in the liver, which led to massive hemorrhages that caused their death.
Their findings are reported online Jan. 25 in the Journal of Clinical Investigation and will appear ...
New Rochelle, NY, January 25, 2011—Give caffeine to cells engineered to produce viruses used for gene therapy and the cells can generate 3- to 8-times more virus, according to a paper published in Human Gene Therapy, a peer-reviewed journal published by Mary Ann Liebert, Inc. (www.liebertpub.com). The paper is available free online at www.liebertpub.com/hum
This simple and inexpensive strategy for increasing lentivirus production was developed by Brian Ellis, Patrick Ryan Potts, and Matthew Porteus, University of Texas Southwestern Medical Center, Dallas. In their paper, ...
WEST LAFAYETTE, Ind. - Researchers have invented a technique that uses inexpensive paper to make "microfluidic" devices for rapid medical diagnostics and chemical analysis.
The innovation represents a way to enhance commercially available diagnostic devices that use paper-strip assays like those that test for diabetes and pregnancy.
"With current systems that use paper test strips you can measure things like pH or blood sugar, but you can't perform more complex chemical assays," said Babak Ziaie, a Purdue University professor of electrical and computer engineering and ...
Washington, D.C. (January 25, 2011) -- In a development that may revolutionize handheld electronics, flat-panel displays, touch panels, electronic ink, and solar cells, as well as drastically reduce their manufacturing costs, physicists in Iran have created a spintronic device based on "armchair" graphene nanoribbons. Spintronic devices are being pursued by the semiconductor and electronics industries because they promise to be smaller, more versatile, and much faster than today's electronics.
As described in the American Institute of Physics journal Applied Physics Letters, ...