Dissolvable optical fiber with fiber Bragg gratings aims at inside-the-body medical sensing
FBGs created via UV laser light could be used to sense pressure at joints or examine the heart.
|Fiber Bragg gratings are used to turn an optical fiber into a sensing element by reflecting a specific wavelength back in the direction from which it came. New dissolvable fiber Bragg gratings can be used as sensors in the body and are safe even if the fiber were to accidentally break inside the patient. (Image: Maria Konstantaki, Foundation of Research and Technology – Hellas)|
Researchers at the Institute of Electronic Structure and Laser (IESL) of the Foundation of Research and Technology – Hellas (FORTH; Greece), in collaboration with scientists from the Politecnico di Torino and Istituto Superiore Mario Boella (Italy), have created the first fiber Bragg gratings (FBGs) inside optical a bioresorbable optical fiber.1
FBGs are widely used in optical fibers for sensing of temperature, strain, and other parameters. Under development, bioresorbable fibers, which potentially can be used for medical sensing, are safe inside the body because, if they break, the shards dissolve and are absorbed by the body. This first-time combination of these sensors and fibers could be used to sense pressure at joints or act as small probes that can safely reach and assess the heart and other delicate organs. Laser-based techniques for removing tumors could also be improved, which could simultaneously deliver a surgical laser beam and provide the accurate real-time temperature sensing necessary to monitor the laser-ablation process.
"Our approach could potentially be used to create various types of interconnected structures in or on bioresorbable optical fibers, allowing a wide range of sensing and biochemical analysis techniques to be performed inside the body," says Maria Konstantaki, a member of the FORTH research team.
To create optical FBGs that could be safely used in the body, the researchers developed a type of glass made of phosphorous oxide combined with oxides of calcium, magnesium, sodium, and silicon. "This glass combines excellent optical properties with biocompatibility and water solubility, thus providing a reliable platform from which to make optical fibers that dissolve in water or biological fluids," says Daniel Milanese from Politecnico di Torino. "The properties of the optical fibers can be tuned by properly changing the glass composition."
Tilted or nontilted FBGs
The gratings are created by patterning with a UV laser, resulting in either tilted or nontilted FBGs. Tilted gratings, which allow some of the reflected light to escape from the fiber core and enter into the surrounding cladding, are often used for sensing because changes on the fiber cylindrical surface modify the back-reflected light in a way that can be monitored.
After confirming that the patterns created by the inscription process operated as a fiber Bragg grating, the researchers immersed fibers with and without fiber Bragg gratings into a solution simulating the pH and temperature conditions of the human body for 56 hours. They found that the glass that had been etched with laser light dissolved faster than unexposed glass.
The researchers are now performing experiments to better understand how the fiber composition and UV laser irradiation conditions affect the speed at which the fiber Bragg grating dissolves. This information could be used to create fiber Bragg gratings that dissolve within a specific time period. Before being used in people, the dissolving and sensing properties of the fiber Bragg gratings will need to be studied in animals.
1. D. Pugliese et al., Optics Letters (2018); doi: 10.1364/OL.43.000671