Hull and Doncaster, United Kingdom, 8 September - Shanghai MicroPort Endovascular MedTech (Group) Co., Ltd. (Endovastec™) announced recently that the first implantations of the Castor® Branched Aortic Stent-Graft System (Castor® Stent), Hercules®️ Low Profile Thoracic Stent Graft and Delivery System (Hercules®️-LP Stent Graft System) and the Minos® Abdominal Aortic Stent-Graft and Delivery System (Minos® Stent Graft System) have been successfully completed in the United Kingdom. The Castor® Stent, Hercules®️-LP Stent Graft System and Minos® Stent Graft System are already available in numerous European countries, with their successful usage in the UK further solidifying Endovastec™'s profile in Europe.

The first implantation of the Castor® Stent and Hercules®️-LP Stent Graft System in the UK was performed by a team, led by Dr. Raghu Lakshminarayan, at the Hull Royal Infirmary, England. The patient was diagnosed with Type B Thoracic Aortic Dissection by CT angiography. The tear ran from the posterior left subclavian artery (LSA) through to the straight segment of the abdominal aorta with multiple ruptures in between, meaning that use of a conventional tubular stent would result in LSA reconstruction due to the proximity of the dissection to the LSA. Such reconstruction procedures involve a series of techniques that risk overcomplexity, endoleaks and major trauma. Using the Castor® Stent and the Hercules®️-LP Stent Graft System for the procedure, the stent was placed at the target position without migration, it conformed to the vessel shape, and the triple mini spring structure at the proximal end of the stent sealed effectively without any endoleaks, ensuring smooth blood flow in the LSA.

After the successful procedure, the experts noted, 'The Castor® Stent features a unique unibody structure that allows for one-off access and release, providing a creative solution to the problems of access and positioning of unibody branched stent-grafts. It allows for easy reconstruction of the LSA while avoiding gutter endoleaks that could result from the chimney technique and long-term stability risks brought on by the window technique. The Castor® Stent not only reduces surgical trauma, but also improves surgical safety. '

The first implantation of the Minos® Stent Graft System in the UK was performed by a team, led by Drs. Duncan Drury and Jon Desiqueira, at the Doncaster Royal Infirmary.

After the procedure, the doctors commented that, 'It is the excellent performance of Minos® that made the procedure a success. Its ultra-low profile delivery sheath is able to conform to the shape of the patient's tortuous iliac artery. The system provides an extremely smooth control experience throughout the procedure.'

The Minos® Stent Graft System features a three-piece design that enables a flexible assembly to accommodate different size requirements. Its main body was constructed from a laser-cut M-stent with integrated barbs and covered with seamless woven graft, and its iliac limbs are woven by a single wire in a spiraling pattern. The advanced core technologies are able to meet the treatment needs of a wider range of abdominal aortic aneurysms with complex anatomy, which reduces the risk of complications such as device migration, endoleaks or occlusion, thus lowering the risk of long-term reintervention.

About Shanghai MicroPort Endovascular MedTech(Group) Co., Ltd.

Shanghai MicroPort Endovascular MedTech(Group) Co., Ltd. ('Endovastec™'), is a subsidiary of MicroPort Scientific Corporation (Stock code: 00853). As it continues to make its products available in new markets, Endovastec™ will focus on independent innovation and development, further enhancing in-depth cooperation with overseas clinical experts, while striving to promote more high-quality and innovative solutions for the treatment of aortic and peripheral vascular diseases in overseas markets to benefit more patients worldwide.

Attachments

  • Original document
  • Permalink

Disclaimer

MicroPort Scientific Corporation published this content on 08 September 2021 and is solely responsible for the information contained therein. Distributed by Public, unedited and unaltered, on 16 September 2021 03:51:04 UTC.