[FG] Center for Intelligent Optics[FG] Center for Intelligent OpticsHead of Research Unit Dr. Ferda Canbaz, Dr.OverviewMembersPublicationsProjects & CollaborationsProjects & Collaborations OverviewMembersPublicationsProjects & Collaborations Projects & Collaborations 7 foundShow per page10 10 20 50 10005506 - Comprehensive analysis of determinants of polyethylene wear and the related tissue response to improve outcomes in total hip arthroplasty Research Project | 2 Project MembersImported from Grants Tool 4723208 «Comprehensive analysis of determinants of polyethylene wear and the related tissue response to improve outcomes in total hip arthroplasty Research Project | 2 Project MembersImported from Grants Tool 4722912 Plate Explorer – Mobile robotic microscope for cell culture inspection in incubators Research Project | 3 Project MembersImported from Grants Tool 4708389 LAROCARE Research Project | 4 Project MembersFor hundreds of years, damage to the smooth tissue in our knee joints, called articular cartilage, was considered unrepairable. Because of this, people with insufferable knee pain often had to get part or all of their knee replaced. Only recently, researchers discovered that cells from the articular cartilage can be encouraged to grow in a lab. These cells can then be placed back into damaged areas, allowing the cartilage to regrow and heal. Our project aims to make this technique more successful by using a tiny robot with a laser to precisely remove damaged tissue. This approach is less invasive and should help reduce the chances of failure. LASER-Blade Research Project | 1 Project MembersImported from Grants Tool 4665501 Innosuisse Cheque: Ultrasound Depth Sensor Research Project | 1 Project MembersNo Description available Optoacoustical feedback sensor for laser osteotomy Research Project | 1 Project MembersNo Description available 1 1 OverviewMembersPublicationsProjects & Collaborations
Projects & Collaborations 7 foundShow per page10 10 20 50 10005506 - Comprehensive analysis of determinants of polyethylene wear and the related tissue response to improve outcomes in total hip arthroplasty Research Project | 2 Project MembersImported from Grants Tool 4723208 «Comprehensive analysis of determinants of polyethylene wear and the related tissue response to improve outcomes in total hip arthroplasty Research Project | 2 Project MembersImported from Grants Tool 4722912 Plate Explorer – Mobile robotic microscope for cell culture inspection in incubators Research Project | 3 Project MembersImported from Grants Tool 4708389 LAROCARE Research Project | 4 Project MembersFor hundreds of years, damage to the smooth tissue in our knee joints, called articular cartilage, was considered unrepairable. Because of this, people with insufferable knee pain often had to get part or all of their knee replaced. Only recently, researchers discovered that cells from the articular cartilage can be encouraged to grow in a lab. These cells can then be placed back into damaged areas, allowing the cartilage to regrow and heal. Our project aims to make this technique more successful by using a tiny robot with a laser to precisely remove damaged tissue. This approach is less invasive and should help reduce the chances of failure. LASER-Blade Research Project | 1 Project MembersImported from Grants Tool 4665501 Innosuisse Cheque: Ultrasound Depth Sensor Research Project | 1 Project MembersNo Description available Optoacoustical feedback sensor for laser osteotomy Research Project | 1 Project MembersNo Description available 1 1
10005506 - Comprehensive analysis of determinants of polyethylene wear and the related tissue response to improve outcomes in total hip arthroplasty Research Project | 2 Project MembersImported from Grants Tool 4723208
«Comprehensive analysis of determinants of polyethylene wear and the related tissue response to improve outcomes in total hip arthroplasty Research Project | 2 Project MembersImported from Grants Tool 4722912
Plate Explorer – Mobile robotic microscope for cell culture inspection in incubators Research Project | 3 Project MembersImported from Grants Tool 4708389
LAROCARE Research Project | 4 Project MembersFor hundreds of years, damage to the smooth tissue in our knee joints, called articular cartilage, was considered unrepairable. Because of this, people with insufferable knee pain often had to get part or all of their knee replaced. Only recently, researchers discovered that cells from the articular cartilage can be encouraged to grow in a lab. These cells can then be placed back into damaged areas, allowing the cartilage to regrow and heal. Our project aims to make this technique more successful by using a tiny robot with a laser to precisely remove damaged tissue. This approach is less invasive and should help reduce the chances of failure.
Innosuisse Cheque: Ultrasound Depth Sensor Research Project | 1 Project MembersNo Description available
Optoacoustical feedback sensor for laser osteotomy Research Project | 1 Project MembersNo Description available
