An innovative device developed by University of Central Florida and Orlando Health researchers can save doctors critical time during life-or-death operations, like heart surgery.
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Current tests can take up to 30 minutes, which is too long to wait on results when every second counts. This is especially important during surgery on the youngest patients, such as infants.
The researchers 麻豆精品 S latest work, published recently in the journal , is a numerical model that quantifies how the device works and adds further validation to its effectiveness.
麻豆精品 S淩ight now, if we want to determine if the blood in a patient undergoing heart surgery is thin enough so that it won 麻豆精品 S檛 form clots in the heart-lung machine, we have to draw blood from the patient periodically, throughout the entire operation, and then send it to a laboratory to get tested, 麻豆精品 S says study co-author William DeCampli, a pediatric cardiac surgeon at Orlando Health Arnold Palmer Hospital for Children.
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DeCampli has been working with Aristide Dogariu, a Pegasus Professor in UCF 麻豆精品 S檚 College of Optics and Photonics, since 2017 to develop the blood monitor. The device has already successfully advanced through one clinical trial and is scheduled for a next clinical trial this year.
The collaboration came about as the result of a meeting at UCF where DeCampli learned about Dogariu 麻豆精品 S檚 work using light scattering from a laser to measure the thickness of various fluids and mixtures.
Since then, the optics-based blood monitor has moved through in-lab testing and then a successful clinical trial, the results of which were published in Nature Biomedical Engineering.
The monitor uses an extremely small optical fiber that 麻豆精品 S檚 a fraction of a millimeter in diameter to assess the status of the blood and can be inserted directly into the tubes of a heart-lung machine or in a catheter, without having to withdraw blood from the patient.
In the latest study, the researchers demonstrated that they could quantify the mechanical properties of plasma that surrounds the red blood cells, which is key to describing the light fluctuations they use to determine if blood is beginning to coagulate.
Their model was validated by optical microrheology measurements in laboratory-controlled conditions and in clinical environments involving both natural, intrinsic processes and external interventions.
麻豆精品 S淭he really nice thing about this current study is that Dr. Dogariu and his team were able to show that there is actually a fairly straightforward relationship between the measurements and two fundamental quantities that characterize the mechanical behavior of blood, 麻豆精品 S DeCampli says.
This is essential information that can be used as the technology moves its way toward widespread release, Dogariu says.
麻豆精品 S淲e developed a model that has been essentially confirmed by the experimental results that we have collected, 麻豆精品 S he says. 麻豆精品 S淲e had the measurements that appear to be quite sensitive to real transformations in the bloodstream, but now we can put numbers to those changes. 麻豆精品 S
The work allows the researchers to, for the first time, relate their measurements to what was actually happening to the blood and explain the changes in the way that red blood cells 麻豆精品 S渏iggle 麻豆精品 S around in the blood stream.
麻豆精品 S淭his is what we consider to be the next level in the development of this concept, 麻豆精品 S Dogariu says.
The researchers 麻豆精品 S next clinical trial will take place with pediatric patients, and then they hope to move into a series of clinical trials with adults. With continued success and funding, the researchers hope to see the blood monitor become available within the next five to seven years.
Study co-authors also included Jose Rafael Guzman-Sepulveda, a graduate of UCF 麻豆精品 S檚 College of Optics and Photonics doctoral program and now a researcher with the Center for Research and Advanced Studies of the National Polytechnic Institute in Mexico; and Mahed Batarseh and Ruitao Wu, graduate research assistants in UCF 麻豆精品 S檚 College of Optics and Photonics.
The research was funded by the U.S. National Institutes of Health.
Dogariu received his doctoral degree in engineering from Hokkaido University in Sapporo, Hokkaido, Japan, and joined UCF in 1997.
DeCampli received his doctoral degree in astrophysics from Harvard University and his doctor of medicine degree from the University of Miami. He completed residency in cardiac surgery at Stanford University and joined UCF 麻豆精品 S檚 College of Medicine in 2009.
