Squeak Of Cancer: Scientists From NUST MISIS Develop a New Ultrasound Tomography System for Cancer Diagnosis

    The device developed at the NUST MISIS Laboratory of laser ultrasound non-destructive control can be used for detecting oncological tumors, as well as for online visualization of the patient's blood vessels, diagnosing the insertion of medical needles or other instruments into the vessels during various procedures, such as shunting or stenting. The development solves the problem of low contrast and low-resolution images of many biological tissues and organs obtained with standard...

MOSCOW, 05/08/2019 (informazione.news - comunicati stampa - istruzione e formazione)

 

The device developed at the NUST MISIS Laboratory of laser ultrasound non-destructive control can be used for detecting oncological tumors, as well as for online visualization of the patient's blood vessels, diagnosing the insertion of medical needles or other instruments into the vessels during various procedures, such as shunting or stenting.

The development solves the problem of low contrast and low-resolution images of many biological tissues and organs obtained with standard ultrasound. In comparison with conventional ultrasound, the new technology provides the doctor not only with standard ultrasound images, but also with additional information about those tissues which are poorly distinguished acoustically (using ultrasound), but at the same time have different absorption capacity. These tissues include cancer.

The whole system is based on a well-known physical phenomenon – the optoacoustic effect. The essence of it is following: laser radiation of a very short wavelength is absorbed in the irradiated object (in this case, living tissues of the body), which leads to rapid heating of a part of this object. Heating leads to the expansion of the substance of tissues and the corresponding excitation of ultrasonic waves. Thus, irradiation with short laser pulses leads to "vibration" of a tissue area and the emission of ultrasound by it. Roughly speaking, a living organ "squeaks" on ultra-high tones.

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Thus, the device allows receiving two types of images at the same time - optical-acoustic and laser ultrasonic. Images of the first type provide optical contrast - they allow to clearly distinguish areas that absorb optical radiation in different ways. The second type of images (laser ultrasound) provides acoustic contrast - allows you to clearly distinguish areas that reflect ultrasound waves in different ways. Accordingly, the image obtained on the new device as a combination of these two types provides physicians with much more information for diagnostics in comparison with standard ultrasound.

Currently, the research team is engaged in improving the characteristics of the experimental system prototype, adapting it to specific tasks and searching for promising consumers.

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