For years, we’ve lead the way in providing the highest quality Nitinol components, balloon components, and balloon catheters. We continue to focus our commitment to working with multi-national medical device companies to provide the finest products and support in the following categories:


THERAPEUTIC AREAS

Through our unparalleled technical expertise, proven experience, and partnership with our clients, we have perfected the process necessary to deliver high-quality components in the aortic intervention, neurovascular, structural heart, electrophysiology, peripheral vascular, ENT, and orthopedic spaces.

Therapeutic Areas

AORTIC INTERVENTION

Experience designing and producing implantable devices and sealing balloons that feature low profiles, can handle tortuous aortic neck angles, and provide seal with fixation in complex anatomies.

Unique understanding of AAA/TAA disease states, biomechanics of the abdominal aorta and thoracic aorta, and existing stent graft design advantages and disadvantages.

Fully immersed in the specific needs and challenges of developing devices with complex geometries and technically challenging fixation features for the endovascular market.

Advanced wireform joining techniques development and large diameter balloon expertise.

Aortic Intervention

NEUROVASCULAR

Extensive knowledge in developing high-quality, high-performing neurovascular stents, retrievers and occlusion balloon catheters.

Fully immersed in the specific needs and challenges of developing devices with complex geometrics, delicate structures, and tight tolerances for the neurovascular market.

Deep understanding of ischemic and hemorrhagic stroke, the biomechanics associated with each state, and criticality of device profile and flexibility to effectively treat these conditions.

Specialized laser cutting and surface treatment processes in addition to micro-balloon design and manufacturing expertise.

Neurovascular

STRUCTURAL HEART

Support and assist in the development of minimally invasive balloon catheter-based technologies and Nitinol devices for the management of complex cardiovascular diseases.

Fully immersed in the specific needs and challenges of developing devices with complex geometries and technically challenging fixation features for the structural heart market.

Comprehensive understanding of the complexities of aortic and mitral valve replacement and repair.

Optimized edge rounding, shape setting, fixation, and surface finishing capabilities for transcatheter heart valves and cardiovascular devices.

Heart

ELECTROPHYSIOLOGY

Proven experience in rapid iterations through product development and manufacturing of mapping and ablation catheters as well as balloon catheters (cryo, laser, RF) that help evaluate and treat abnormal cardiac rhythms.

Experience in addressing the specific needs and challenges of developing devices with complex geometries and technically challenging fixation features for the electrophysiology market.

Electrophysiology

PERIPHERAL VASCULAR

Expertise in developing high-quality, high-performing peripheral stents, PTA balloons, IVC filters, and guidewires, with numerous products commercialized.

Detailed understanding of peripheral artery disease and chronic venous insufficiency, biomechanics of the arterial and venous systems, and existing device design advantages and disadvantages.

In-depth knowledge of needs and challenges associated with developing stents with adequate flexibility and strength specifically for the arterial and venous systems.

Strong capabilities designing novel high pressure and drug coated PTA balloons and balloon catheters.

Peripheral Vascular

ENT

Enhanced functionality and production capabilities for medical devices that are essential to the ENT space.

Comprehensive knowledge and experience in product design and manufacturing of sinuplasty balloons used to treat chronic sinusitis.

ENT

ORTHOPEDIC

Specialized team with expertise in developing balloons used in kyphoplasty procedures.

Detailed involvement and knowhow to address the specific needs and challenges of developing devices with complex geometries and technically challenging fixation features for the orthopedic market.

Orthopedic