A simple injection that can help regrow damaged tissue has long been the dream of physicians and patients alike.
A new study from researchers at UBC Okanagan brings it closer to reality with a device that makes encapsulating cells much faster, cheaper and more effective.
香蕉视频直播淭he idea of injecting different kinds of tissue cells is not a new one,香蕉视频直播 said Keekyoung Kim, assistant professor of engineering at UBC Okanagan and research study co-author.
香蕉视频直播淚t香蕉视频直播檚 an enticing concept because by introducing cells into damaged tissue, we can supercharge the body香蕉视频直播檚 own processes to regrow and repair an injury.香蕉视频直播
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Kim says everything from broken bones to torn ligaments could benefit from this kind of approach and suggests even whole organs could be repaired as the technology improves.
The problem, he said, is that cells on their own are delicate and tend not to survive when injected directly into the body.
香蕉视频直播淚t turns out that to ensure cell survival, they need to be encased in a coating that protects them from physical damage and from the body香蕉视频直播檚 own immune system,香蕉视频直播 said Mohamed Gamal, doctoral student in bio-medical engineering and research study lead author.
香蕉视频直播淏ut it has been extremely difficult to do that kind of cell encapsulation, which has until now been done in a very costly, time consuming and wasteful process.香蕉视频直播
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Kim and Gamal have solved that problem by developing an automated encapsulation device that encases many cells in a microgel using a specialized blue laser and purifies them to produce a clean usable sample in just a few minutes.
The advantage of their system is that over 85 per cent of the cells survive and the process can be easily scaled up.
香蕉视频直播淩esearch in this area has been hampered by the cost and lack of availability of mass-produced cell encapsulated microgels,香蕉视频直播 said Kim.
香蕉视频直播淲e香蕉视频直播檝e solved that problem and our system could provide thousands or even tens of thousands of cell-encapsulated microgels rapidly, supercharging this field of bioengineering.香蕉视频直播
In addition to developing a system that香蕉视频直播檚 quick and efficient, Gamal says the equipment is made up of readily available and inexpensive components.
香蕉视频直播淎ny lab doing this kind of work could set up a similar system anywhere from a few hundred to a couple of thousand dollars, which is pretty affordable for lab equipment,香蕉视频直播 said Gamal.
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The team is already looking at the next step, which will be to embed different kinds of stem cells香蕉视频直播攃ells that haven香蕉视频直播檛 yet differentiated into specific tissue types香蕉视频直播攊nto the microgels alongside specialized proteins or hormones called growth factors.
The idea would be to help the stem cells transform into the appropriate tissue type once they香蕉视频直播檙e injected.
香蕉视频直播淚香蕉视频直播檓 really excited to see where this technology goes next and what our encapsulated stem cells are capable of,香蕉视频直播 Gamal said.
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