Sunday, November 24, 2019
Finding a New Purpose for an Ultrafast Laser
Finding a New Purpose for an Ultrafast Laser Finding a New Purpose for an Ultrafast Laser Finding a New Purpose for an Ultrafast LaserSinisa Vukelic, a lecturer in the departement of mechanical engineering at Columbia University, attributes the direction of his career to a mix of my interest and serendipity, a fortunate development that recently led to a breakthrough turning an imaging tool into a noninvasive treatment device for common eye conditions.As a doctoral student in mechanical engineering at Columbia, he worked with ultrafast lasers to change the properties and structure of glass. After earning his degree, he set out to search for an area of research using the speedy femtosecond laser that he could call his own.I realized that in biology, femtosecond lasers were considered a glorified cutting tool, Vukelic says. I felt that there had to be something more we could do with them. Then I welches looking at the oscillator and thinking can I do something with a low-power laser.Fo r You Whats It Like for an Engineer to Work at a Startup After a bit more research, he laid out some theories, and one thing led to another. The result is what Vukelic believes is the firststudy to use a regimen with a femtosecond laser oscillator for noninvasive change of corneal curvature for treatment of such problem as myopia, hyperopia, astigmatism, and irregular astigmatism. The femtosecond laser oscillator delivers pulses of very low energy at a rapid tarif to selectively and locally alter corneal tissue. Modifying the corneal curvature changes the focusing ability of the eye, which results in permanent vision correction. Vukelics team recently published its paper in Nature Photonics.Using the tool in this way alters biochemical and biomechanical properties of any collagenous tissue without causing damage to cells or tissue in the area. Vukelics earlier work with glass served him well because of the similarities in treating glass and the cornea, since both are dielectrics.Cor neal topography before (top) and after the treatment (bottom), paired with virtual vision that simulates the effects of induced refractive power change. Image Sinisa Vukelic/Columbia EngineeringTreatments are currently available for these eye conditions, but they include surgery and wearing eye glasses or contact lenses, something many people want to avoid. While surgery has a relatively high success rate, it cannot be performed on some people and has post-surgical risks associated invasive procedures. Furthermore, myopia (nearsightedness) is reaching epidemic proportions, affecting almost 2.5 billion people globally. Scientists believe it may be due to people looking afar less and less because they are glued to computers and smartphone screens, indicating that myopia is only going to continue to increase.We had to work out the entire protocol from scratch because this had never been done before, Vukelic says. I feel like that was the main challenge. In addition, we are a young lab and we dont have a lot of resources. So it was How do we make the most of the resources we have? My philosophy is lets see what we can do with what we have. Thats what I tell my lab team Lets make sure we achieve something with what we have.Critical to the projects success was confirming that the laser did indeed succeed in the crosslinking, or formation of chemical bonds, that alters collagen properties and results in the new shape and structure. The team hopes to start clinical trials by the end of the year.We probably have at least five or six years ahead of us, maybe even more, before it could be on the market to correct peoples vision, Vukelic says. As engineers, we try to make things that make life better. Its not just academic curiosity. Thats a huge part of it. You want to make a useful tool. And when you start dealing with humans, you have to be very cautious and careful.The technique can be used on other collagen-rich tissues as well Vukelics lab has been collaborating wit h the Musculoskeletal Biomechanics Laboratory of Prof. Gerard Ateshian to treat early osteoarthritis.The preliminary results are very, very encouraging, he says. With the eye, we stiffen the cornea in different places to adjust its curvature for the correct vision with cartilage we use the technique to stiffen the cartilage to make it last longer. We dont care about curvature changes so much.Nancy S. Giges is an independent writer.Read MoreA Cheap Way to Convert Vapor into Fresh Drinking WaterThese Robots Kill Antibiotic-Resistant BacteriaStudent-Designed Heart Pump Is Lighter Than the RestIn biology, fermtosecond lasers were considered a glorified cutting tool. I felt that there had to be something more we could do with them.Prof. Sinisa Vukelic, Columbia University
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