New York: Scientists have developed a 'virtual biopsy' device that can quickly and non-invasively determine whether a skin tumour is cancerous and needs to be removed surgically.

Using sound vibrations and pulses of near-infrared light, the device can determine a skin lesion's depth and potential malignancy without using a scalpel, according to the researchers from a Rutgers University in the US.

The ability to analyse a skin tumour non-invasively could make biopsies much less risky and distressing to patients.

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Currently, physicians who perform surgical biopsies often do not know the extent of a lesion - and whether it will be necessary to refer the patient to a specialist for extensive tissue removal or plastic surgery - until surgery has already begun.

The first-of-its-kind experimental procedure, called vibrational optical coherence tomography (VOCT), creates a 3D map of the legion's width and depth under the skin with a tiny laser diode.

It also uses soundwaves to test the lesion's density and stiffness since cancer cells are stiffer than healthy cells. An inch-long speaker applies audible soundwaves against the skin to measure the skin's vibrations and determine whether the lesion is malignant.

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"This procedure can be completed in 15 minutes with no discomfort to the patient, who feels no sensation from the light or the nearly inaudible sound," said Frederick Silver, a professor at Rutgers University.

"It's a significant improvement over surgical biopsies, which are invasive, expensive and time consuming," said Silver.

The study found that a prototype device is able to accurately distinguish between healthy skin and different types of skin lesions and carcinomas.

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The researchers tested the device over six months on four skin excisions and on eight volunteers without skin lesions.

Further studies are needed to fine-tune the device's ability to identify a lesion's borders and areas of greatest density and stiffness, researchers said, which would allow physicians to remove tumours with minimally invasive surgery.