专利奖项
以医生与医疗工程师之间的跨学科合作为基础。我们致力于提供高精准度、个人化的一站式医疗方案。我们的理念和努力得到了全球各地的多个奖项认可。
公司不断完善设计流程,提高生产效率,并为行业设定了示范性参数。我们已获得超过10项产品专利,并继续与大学和研究机构密切合作,推动技术的进步,将临床应用扩展到骨科以外的领域。
科能希望利用医疗技术,为病人提供更好选择,提升手术成效。
奖项
2024
- 第49届日内瓦国际发明展铜奖
2023
- 第48届日内瓦国际发明展金奖
- 第48届日内瓦国际发明展银奖
2022
- 2022年 香港工商业奖(设备与机械设计项目)优异证书
- 香港企业创新指数(CII)2星中小型企业
- 特別版日内瓦国际发明展银奖
- 特別版日内瓦国际发明展铜奖
2021
- 2021年日内瓦国际发明展览银奖
2019
- 广东创业创新大赛众创杯银奖
- 第二届亚洲发明展览会金奖
- 第47届日内瓦国际发明展览评判特别嘉许金奖
- 第47届日内瓦国际发明展览中国代表团优秀奖
- 第47届日内瓦国际发明展览银奖
2018
- 中国国际发明展览会发明创业奖(金奖)
- 香港工商业奖:设备及机器设计优异证书
- 第46届日内瓦国际发明展览银奖
- 香港信息及通讯科技奖智能市民(智慧乐龄奖)
- 香港科技大学-信和百万奖金创业大赛(第三名)
- 香港科技大学-信和百万奖金创业大赛(电梯演讲奖)
- 第7届中国创新创业大赛港澳台赛大赛 成长企业组-生物医药(优异奖)
专利
注册产品:人造骨、金术手术刚性支架、可放入药物的骨板
[1] 用于骨科手术中对手术部位骨头夹持的器械. HK Short-term Patent HK30037230, granted, 2021 – 2028. TW Utility Model Patent M614254, granted, 2021-2031.
[2] 固形人工骨の制造装置及び制造方法. JP Invention Patent P6838162, granted, 2021. HK Short-term Patent HK1224885, granted, 2016-2024.
[3] 薬物を放出可能なインプラント. JP Utility Model Patent U3230574, registered, 2021.
[4] 用于制造人工固定骨的装置和方法. Vorrichtung und Verfahren zur Herstellung von künstlichen festen Knochen. DE Patent DE112017004508T5, published, 2020.
[5] 手术用的刚性支架. CN Utility Model Patent 201920372078.4, granted, 2020. PCT Patent PCT/IB2019/052585, applied, 2019. HK Utility Model Patent 19122339.5, filed, 2019. TW Utility Patent 108204139, applied, 2019.
[6] 可释放药物的植入物. TW Utility Patent M578148, granted, 2019 – 2029. JP Utility Model Patent U3230574, registered, 2021. 可释放药物的植入物和制造及使用方法. PCT Invention Patent PCT/IB2019/050697, applied, 2019. HK Standard Patent 18102217.3, applied, 2018. CN Utility Model Patent 201920148150.5, applied, 2019. CN Invention Patent 201910081798.X, applied, 2019.
[7] 金属三维列印产品的自动化定位加工系统. HK Priority Filing 19121556.5, filed, 2019.
[8] 一种人造骨. TW Utility Patent M575326, granted, 2019 – 2029. HK Short-term Patent 1246069, granted, 2018. CN Utility Model Patent 201820619237.1, granted, 2019. PCT Patent PCT/IB2018/059433, applied, 2018.
[9] 制造人工实心骨的装置和方法.HK Short-term Patent HK1224885, granted, 2016-2024.
[10] 利用二维医学影像基于人工智能重建三维模型的方法. A method of using two-dimensional images to reconstruct a three-dimensional model based on artificial intelligence and an application thereof.
[11] 用于生物医学研究的金属制器官芯片. Metal organ-on-a-chip for biomedical research.
[12] 机器人协同系统及其应用和加工精度评价方法. CN 114310877B, granted, 2024.
论文
“Improving the Performance of V-Net Architecture for Volumetric Medical Image Segmentation by Implementing a Gradient Pre-Processor”, Clin Surg. 2021; 6: 3383 (2021).
“Additive Manufacturing in Customized Medical Device”, Intechopen Book (2021).
“Design and Development of a Tri Robot Machining Cell for Medical Product Manufacture”, 5th International Conference on Robotics and Automation Sciences (2021).
“Hybrid metal 3D printing for selective polished surface”, Materials Science Forum, 1027, 136 (2021).
“Kinematic Modelling of a Tri Robot Machining Cell”, 6th International Conference on Control and Robotics Engineering (2021).
“3D-printed cobalt-chromium porous metal implants showed enhanced bone-implant interface and bone in-growth in a rabbit epiphyseal bone defect model”, Bone Reports, Volume 13 (2020).
“Hybrid metal 3D printing for selective polished surface”, MSME 2020, Sanya (2020).
“Metal 3D printing in gerontechnology: Precision surgical instruments and future development”, International Conference of Gerontechnology 2020, Hong Kong (2020).
“Medical metal 3D printing technology and application”, 4th SICOT & 2019 COAS 6th Meeting, Shenzhen (2019).
“3D-printed cobalt-chromium porous metal implants showed enhanced bone-implant interface and bone in-growth in a rabbit epiphyseal bone defect model”, HKOA 2019 Congress, Hong Kong (2019).
“Application of 3D Medical Printing Technology for Foot and Ankle Surgery”, 7th AFFAS, Bangkok (2019).
“医疗金属3D打印技术及应用”, 第3届中国研究型医院学会骨科创新与转化专业委员会数字骨科学组年会暨第4届SICOT中国部数字骨科学会广东省分会学术年会暨2019年COAS脊柱微创专业委员数字化技术与导航研究学组第6次会议, 深圳 (2019).
资助项目
1) ESS [B/E051/16] (2016-2018)
Building of Orthopedic Implants with Inner Super-lattice Structure by Integrated Machining 3D Metal Laser Sintering Technology
2) ESS [B/E043/18] (2019-2021)
A Synchronized Trio-Robots Cutting System with ‘DRY’ Lubrication Technology for Post 3D-Metal Laser Sintered Biomedical Products
3) PSTS COVID-19 [SST/189/20SP] (2020)
Anti-infection Face shield with Enhanced Vision and Comfort
4) UICP [UIM/400] (2020-22)
A Novel Local Anesthetic Drug Carrying Bone Plate (DCBP) with Diffusion Optimized Micro-fluid Channels for Fracture Repair Manufactured by Integrated Machining Direct Metal Laser Sintering (IM-DMLS) 3D Printing Technology
5) ITF [GHP/180SZ] (2022)
Artificial Intelligence Assisted Orthopaedic Prosthesis Design and Surgical Planning System