BIOTRONIK announces the CE approval and launch of Freesolve™ Resorbable Magnesium Scaffold (RMS). This third generation RMS has been engineered to provide optimized vessel support, yet achieves magnesium resorption within 12 months.1 The new Freesolve RMS is a groundbreaking vascular advancement based on reliable clinical evidence. Recent BIOMAG-I trial data highlights an exceptional 99.3% magnesium strut degradation 12 months after implantation2, consistent performance, regardless of lesion characteristics, and restoration of vasomotion.3"Having closely observed the evolution of resorbable magnesium scaffolds, the Freesolve RMS achieves a 99.3% resorption rate at 12 months and provides better scaffolding than its predecessors," said Prof. Michael Haude, Rheinland Klinikum, Neuss, Germany. "The enhanced properties of the Freesolve RMS can establish a true alternative to DES, benefitting from the advantages of a resorbable device while maintaining a reliable and predictable outcome with the long-term sa
BIOTRONIK announced today the enrollment of the first patient in the BIOMAG-II trial aiming to evaluate the safety and clinical performance of its new-generation resorbable magnesium scaffold (RMS), Freesolve™, compared to a contemporary drug-eluting stent (DES). "We are delighted to enroll the first patient in the BIOMAG-II trial, which may play a critical role in helping establish resorbable metallic scaffolds as part of clinical practice in the future and I am particularly encouraged by the implantation results of the Freesolve resorbable magnesium scaffold," said Dr. Juan F. Iglesias, HUG - University Hospital Geneva in Switzerland. "Resorbable scaffolds have shown potential in reducing long-term adverse events compared to DES, marking a significant advancement in vascular intervention. We finally have a scaffold that delivers on its promise." The BIOMAG-II trial is a prospective, international multi-center randomized-controlled study spanning 21 countries across Europe and the Asia-Pacific region
BIOTRONIK has been granted Breakthrough Device Designation (BDD) from the US Food and Drug Administration (FDA) for the Freesolve™ below-the-knee resorbable magnesium scaffold (BTK RMS). The Freesolve BTK RMS is designed for individuals suffering from chronic limb-threatening ischemia (CLTI). CLTI is the most severe form of peripheral arterial disease (PAD), estimated to affect 11% of the 200 million people suffering from PAD globally. CLTI is associated with high rates of amputation and mortality as well as high care costs.1 To qualify for a Breakthrough Device Designation, a device technology must address an unmet need and show that it has the potential to provide for more effective treatment of life-threatening diseases or irreversibly debilitating conditions. The goal of the program is to provide patients and clinicians with timely access to these breakthrough treatments by accelerating their development, assessment and review while maintaining regulatory standards for pre-market approval
New two-year follow-up data from the BIOMAG-I first-in-human trial confirms a reliable and predictable long-term safety profile for Freesolve™, the third-generation resorbable magnesium scaffold (RMS), establishing it as a true alternative to contemporary drug-eluting stents (DES). The results were presented by Prof. Dr. Michael Haude at the EuroPCR 2024 conference yesterday in Paris. At the 24-month follow-up, the incidence of target lesion failure (TLF) was 3.5% alongside a corresponding 3.5% incidence of target lesion revascularization (TLR) compares favorably with various second-generation DES. No cases of myocardial infarction (MI), cardiac death, or definite/probable scaffold thrombosis were reported.1 “At this two-year time point, the Freesolve RMS with its new Magnesium alloy which allows for increased radial strength, showed again excellent clinical and safety,” said Prof. Michael Haude, Rheinland Klinikum, Neuss, Germany. “With this highly competitive device, we're advancin
Indicated for de novo coronary artery lesionsa SupportResorbable coronary scaffolds widen coronary artery stenoses and provide temporary vessel support. Thereby, scaffolds enable unobstructed blood flow in the coronary arteries with low rates of stent thrombosis (ST) and target lesion revascularization (TLR).ResorbBy degrading after fulfilling their scaffolding function, they offer all options of future therapies.
BIOTRONIK is pleased to announce the availability of an expanded Maximum Allowed Diameters (MAD) range for the Orsiro® Mission Drug Eluting Stent (DES). Diameters 2.25mm to 3.00mm of the Orsiro Mission DES can now be extended up to 4.0mm, while diameters 3.5mm and 4.0mm can reach up to 5.0mm.This new MAD expansion follows the approvals from CE, FDA, and Health Canada obtained in the past months. This update reflects a global effort for the Orsiro Mission stent technology to match contemporary Percutaneous Coronary Intervention (PCI), enabling practitioners to optimize vessel apposition and conform to tapered anatomies.Subsequently to these approvals, an updated labelling, additionally to the modified Instructions for Use (IFU), will provide further guidance to practitioners.Always consult the Instructions for Use specific to your country when applying the Maximum Allowed Diameters (MAD).More information on Orsiro® Mission DES here.-END-Disclaimer: Orsiro and Orsiro Mission are trademarks or registered
BIOTRONIK is pleased to announce the limited release of its Oscar® (One Solution: Cross. Adjust. Restore) multifunctional peripheral catheter and start of promotional activities at LINC, the Leipzig Interventional Course held June 6-9 in Leipzig, Germany. As indicated per Instructions for Use, the Oscar catheter is intended for dilation of stenotic segments in peripheral vessels. The device is comprised of three fully user-adjustable components (support catheter with integrated Lock Grip, extendable dilator and length-adjustable PTA balloon). It was developed to provide support during access into and to dilate stenoses in femoral, popliteal and infrapopliteal arteries. The multifunctional system will be featured in the first symposium focused on the Oscar catheter at LINC 2023, with presentations from Drs. Koen Deloose, Peter A. Schneider, Ralf Langhoff, and Mariano Palena on Wednesday, June 7 at 12:30 PM in Main Arena 1 during the session “Versatility Without Compromise: The PAD Workflow of the F
BIOTRONIK is proud to introduce the Micro Rx™ catheter, a novel rapid exchange microcatheter developed to easily enhance guidewire support during percutaneous coronary interventions (PCI). This cutting-edge device, exclusively distributed by BIOTRONIK, is manufactured by IMDS (Interventional Medical Device Solutions). Micro Rx catheter marks the fourth IMDS product BIOTRONIK has brought to the U.S., creating a compelling portfolio of devices which includes NHancer Rx, TrapIT, and ReCross catheters. The Micro Rx catheter features a reinforced distal shaft with a core wire between two layers of braids for optimal push transfer and a tapered tip with the market's smallest tip leading edge1 for high penetration force. Additionally, it features a thoughtfully engineered Proximal-End-Stop that allows for seamless integration of a guide extension catheter2 to gain additional support. The Micro Rx catheter is commercially available today in
