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Near-infrared imaging helps doctors
detect, treat breast cancer
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[SEPT. 29, 2006]
CHAMPAIGN
-- A near-infrared imaging technique being developed by researchers
at the University of Illinois at Urbana-Champaign could have a
significant impact in the way doctors detect, diagnose and treat
breast cancer.
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Called optical coherence
tomography, the technique works by focusing a beam of near-infrared
light -- like that used in CD players -- into tissue and measuring
the intensity and position of the resulting reflections. Similar in
operation to ultrasound, optical coherence tomography can be used
for guiding needle biopsies and for identifying tumor margins during
surgery. "Tissue removed during biopsy or surgery must be
microscopically examined by a pathologist, which can sometimes
result in a lengthy and anxious wait for the patient," said Stephen
Boppart, a professor of
electrical and computer engineering,
bioengineering, and
medicine at the U of I. "We
want to move the microscopic examination of tissue from the
pathology lab to the patient's point of care and do the analysis in
real time."
The adult human breast consists of two main types of tissue:
fibrous tissue and fat cells. Because breast tumors are very dense,
they stand out in sharp optical contrast against both types of
normal breast tissue.
Pinpointing a suspicious mass from a mammogram during a needle
biopsy, however, can be difficult for the doctor and painful for the
patient. "What we need is a real-time imaging system to accurately
guide us to the site of tissue collection," said Boppart, who also
is a physician and a researcher at the
Beckman Institute for
Advanced Science and Technology and at the
Institute for Genomic Biology
at the U of I. He has devised two techniques for providing
image-guided needle biopsies.
Conventional biopsy needles have an outer sheath and an inner
shaft tipped with pincers for snipping small pieces of tissue for
pathological analysis. In his first technique, Boppart temporarily
replaces the inner shaft with an optical fiber that provides optical
coherence tomography imaging at the needle tip. When positioned
against a suspicious mass, the fiber is withdrawn, pincers inserted
and tissue specimen collected.
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 In his second technique, Boppart uses a specially designed biopsy
needle with an integrated optical fiber and lens assembly
terminating at a groove in the needle. As the needle penetrates the
breast, tissue slides through the groove. By monitoring the index of
refraction and other optical tissue properties, Boppart can
differentiate tissue types as the needle approaches a suspicious
mass. Doctors using the technique may eventually not require tissue
specimens for an accurate diagnosis.
Boppart and graduate student Freddy Nguyen have also developed a
portable optical coherence tomography system for use in hospital
operating rooms. In collaboration with surgeons at Carle Foundation
Hospital in Urbana, they have used the system to image tumor tissue
immediately upon removal from the patient.
"A common concern of both doctor and patient is whether all of
the tumor has been removed," Boppart said. "Optical coherence
tomography can assist the surgeon by imaging the tumor margins and
highlighting suspicious areas."
Imaging resected tissue at micron resolution creates enormous
data sets that must be quickly acquired, analyzed and displayed.
Boppart and graduate student Adam Zysk have been working on ways to
increase the speed of analysis from the optical tomography system.
They describe their latest computational methods in a paper accepted
for publication in the Journal of Biomedical Optics.
"Our next goal is to further improve our computer-aided tissue
identification algorithms," Boppart said. "Ultimately, we would like
to see optical coherence tomography serve as an automated diagnostic
tool for the detection of breast cancer."
The work was funded by the National Institutes of Health, the
National Science Foundation, Carle Foundation Hospital and the U of
I.
[University of Illinois news release] |
