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Study finds non-invasive imaging predicts cancer malignancy

Wed, 10/04/2017 - 19:54
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Colorectal cancer particularly affects epithelial tissue, which emanates a sufficient signal in NL-MPM without the addition of any foreign dye, because chemicals natural to the tissue will emit autofluorescence

A study by Osaka University researchers has found that non-labelling multiphoton microscopy (NL-MPM) can be used for quantitative imaging of cancer that is safe and requires no resection, fixation or staining of tissues. Professor Masaru Ishii and his team of scientists have been exploring non-labelling microscopy methods as a means to observe and diagnose the cancer while preserving as much information as possible.

To diagnose cancer and determine the proper treatment plan, pathologists depend on biopsies from the patient. The cutting, fixing and staining of the specimen generally provides reliable information, but these pathology-based diagnostic procedures require substantial time and cause tissue damage.

"MPM is an effective tool that enables the visualization of deep regions within living tissues and organs. We are developing NL-MPM to diagnose the malignancy of colorectal cancer," said Professor Ishii. "MPM relies on second harmonic generation (SHG) in addition to autofluorescence, and the basement membrane beneath the epithelial cells gives a strong SHG signal.”

He added that the signal comes specifically from the basement membrane of the tissue, a region that is difficult to observe using contemporary staining techniques.

Colorectal cancer has some ideal properties for the application of NL-MPM. Traditionally, microscopy of living organisms has depended on the attachment of a fluorescent dye to the target tissue. However, these dyes are often toxic, and it would be desirable to visualise human tissues without the need for additional labelling.

Colorectal cancer particularly affects epithelial tissue, which emanates a sufficient signal in NL-MPM without the addition of any foreign dye, because chemicals natural to the tissue will emit autofluorescence.

Using NL-MPM, Ishii's group, in collaboration with other scientists at Osaka University, was able to quantify the severity of the cancer using two parameters they created, index N and index S. Index N is a number that describes the size of the nuclei in the cell, while index S is a number that summarizes the intensity of SHG signals. Normal tissue was defined as that with an index N £ 9.5 (a larger index N indicating larger nuclei) and an index S > 3.1 (healthy tissue, because of its regular structure, gives off a stronger SHG signal).

​ ​​ ​Figure 2: Images of "tissue diagnosis without cuttage" : (a-b) Representative image of normal colorectal mucosal tissue by NL-MPM (a). It is easy to detect the characteristics of colorectal mucosa such as ductal structures in NL-MPM image, compared to conventional HE staining image (b). (c) Representative NL-MPM image of colorectal carcinoma tissue. It is easy to recognize the morphological features of colorectal carcinoma. (Credit: Osaka University)
Images of "tissue diagnosis without cuttage" : (a-b) Representative image of normal colorectal mucosal tissue by NL-MPM (a). It is easy to detect the characteristics of colorectal mucosa such as ductal structures in NL-MPM image, compared to conventional HE staining image (b). (c) Representative NL-MPM image of colorectal carcinoma tissue. It is easy to recognize the morphological features of colorectal carcinoma. (Credit: Osaka University)

"Any tissues that were outside these boundaries were deemed cancerous," said Ishii. The two indices also provide a highly reliable prediction of the malignancy of the cancer.

Ishii acknowledges that the technology needs improvement before it reaches clinical use, but is excited about its prospect for patient care.

"We envision the use of endoscopy with the MPM system, as well as the use of NL-MPM during operations because of its rapid analysis," he said.

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