Science & Technology

Scientists develop non-invasive technique to assess burn wound healing

A mere laser light is enough to check the status of recovery

By Dinesh C Sharma
Published: Wednesday 19 December 2018
Burn injuries
Credit: Getty Images Credit: Getty Images

Assessing a burn wound to know the status of healing is currently an invasive process such as biopsy, which is both painful and scarring. Now scientists have developed a non-invasive technique that involves mere flash of a laser light to assess healing.

The method exploits a particular property of some tissue proteins—ability to re-emit light upon absorption. Such proteins, known as tissue fluorophores, have chemical compounds that can re-emit light. Collagen is one such protein that is vital in wound healing. So when a laser light is flashed on tissues under examination, the amount of re-emitted light from the healing tissue directly corresponds to collagen concentration, which in turn, indicatesthe status of recovery process.

Researchers at the Manipal Academy of Higher Education used commercially available 325 nm laser light to inspect healing by exploring tissue fluorophores, and a detector to collect re-emitted light. The re-emitted spectra were recorded using a fibre optic probe kept very close—about 3 mm—to the wound site. The spectra was then analysed in a spectrograph connected to a computer. 

The collagen levels measured by this technique, known as auto fluorescence, were validated by biochemical tests of patient tissues. The comparison showed that auto fluorescence was consistent and suitable for assessment of burn wound healing. This study also shown tissue collagen can be used as an optical biomarker for assessing burn wound healing, researchers explained. Tissue samples were collected from burn patients admitted to the Department of Plastic Surgery and Burns,Kasturba Medical College.

In earlier studies, the technique was used in lab-induced wounds in animals. Now it has been tested in tissue samples from human burn patients suffering from different degree of burn wounds. Tissue formed following treatment was excised before grafting and utilized for auto fluorescence measurement.

“Our technique is user-friendly and solely dependent on excitation and emission of tissue fluorophores without the addition of any external dye molecule. This helps maintain tissue architecture during the assessment of healing,” Dr Vijendra Prabhu of Department of Biotechnology at the Manipal Institute of Technology, a member of the research team, told India Science Wire.

For clinical management of wounds, periodic evaluation of injured tissue is necessary to know progress of healing. Sometimes wound assessment is done by trained clinicians but it is a subjective method. The other method is to conduct histopathology and biochemicalanalysis to measure amount of collagen deposited. Repetitive invasive tests can result in fresh wounds and possibility of infection and scarring.

Through auto fluorescence technique, collagen information of the tissue can be gathered just 10 to 15 seconds. “It can provide complementary data conducive to making clinical decisions. After successful testing on clinical samples, we are ready for mass testing on burn wound patients. This system can also be utilized to test collagen disorders in patients,” Dr Prabhu said.

The research team included researchers from Manipal Academy of Higher Education—Prof KK Mahato (Department of Biophysics, School of Life Sciences); Dr VijendraPrabhu (Manipal Institute of Technology); Anusha Acharya (School of Life Sciences); Prof B.S. Satish Rao (Department of Radiation Biology and Toxicology),Bharath Rathnakar (Department of Biophysics); Dr Pramod Kumar (Department of Plastic Surgery and Burns) and Dr. Vasudeva Guddattu (Department of Statistics). The study was funded by the Indian Council of Medical Research (ICMR), and research findings have been published in Journal of Biophotonics. (India Science Wire)

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