![]() To overcome the limitations of the existing microrobot manufacturing method, DGIST Professor Hongsoo Choi’s research team developed a method to create microrobots at a high speed of 100 per minute by flowing a mixture of magnetic nanoparticles and gelatin methacrylate, which is biodegradable and can be cured by light, into the microfluidic chip. This process result may not be uniform when using magnetic nanoparticles with high concentration. In addition, the magnetic nanoparticles contained in the robot can block the light path during the two-photon polymerization process. However, a disadvantage exists in that producing one microrobot is time consuming because voxels, the pixels realized by 3D printing, must be cured successively. This technology can produce a structure with nanometer-level precision. Among them, ultra-fine 3D printing technology called two-photon polymerization method, a method that triggers polymerization by intersecting two lasers in synthetic resin, is the most used. Microrobots aiming at minimal invasive targeted precision therapy can be manufactured in various ways. Nelson’s team at ETH Zurich to develop a technology that produces more than 100 microrobots per minute that can be disintegrated in the body. Mary’s Hospital, Catholic University of Korea, and Professor Bradley J. We are proud of our involvement with this project for the NHS Dorset CCG, and wish the staff and patients a smooth changeover on September 2nd.”ĭiane McLaughlin from NHS Dorset CCG said:“This has been a great project to work on and we are all delighted with the new home for the patients and staff of Carlisle House Surgery which will offer people real benefits from day one once it is opened in early September.Daegu Gyeongbuk Institute of Science & Technology (DGIST, President Yang Kook) Professor Hongsoo Choi’s team of the Department of Robotics and Mechatronics Engineering collaborated with Professor Sung-Won Kim’s team at Seoul St. Initially serving 6000 patients, the medical centre has been strategically designed and ‘future proofed’ to cater for the area’s growing population, and will eventually have the capacity for up to 13,000 patients, offering 84 parking spaces, with allocated spaces for disabled patients. The new location is also just 100 metres from a bus stop for patients using public transport.Ĭhris Kane, Director, Greendale Construction Limited said:“Greendale’s full fit-out of Lifeboat Quay Medical Centre, which included all new partitions, joinery, air conditioning, heating, lighting and security systems, will be a huge improvement to the current patients relocating from Carlisle House Surgery, as well as the growing population for this part of Poole. Lifeboat Quay Medical Centre will now offer its patients eight consulting rooms and three treatment spaces, as well as an interview room, staff welfare facilities, and an office base to allow an independent district nurse to operate from the surgery. British Chambers of Commerce South Westĭorset Chartered Builders, Greendale Construction Limited, has completed work on the £1.5 million project with the NHS Dorset Clinical Commissioning Group, which saw Carlisle House Surgery, Lagland Road, Poole, relocated to a modern, fit-for-purpose location in the Lifeboat Quay building off Holes Bay Road, Poole.Health and Wellbeing initiative – Fit for the Future. ![]() Dorset Chamber Members Pay Tributes to The Queen.
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