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Vero provides comprehensive equipment and services to support a broad range of specialized processes in medical device manufacturing, leveraging the pivotal role of fiber optic technology in today’s medical innovations. Fiber optics have revolutionized diagnostics and therapy, offering transformative solutions that enhance precision and patient care. Here’s how fiber optic technology is integral in modern medical devices:

  1. Minimally Invasive Surgeries: Fiber optics are crucial in minimally invasive surgeries, offering precision and minimizing patient trauma. Key instruments like endoscopes, equipped with fiber optic cables, illuminate internal structures and provide high-definition imaging, facilitating surgeries with smaller incisions. This technology enables intricate procedures like laparoscopic surgeries with increased accuracy and reduced recovery times.

  2. Biomedical Sensors: In medical settings, fiber optic sensors measure vital parameters like temperature, pressure, and pH levels. Their small size and immunity to electromagnetic interference make them ideal for real-time monitoring during surgical procedures and within medical devices.

  3. Medical Imaging: Fiber optics have transformed medical imaging, enabling high-resolution views of internal body structures. Technologies like endoscopy and Optical Coherence Tomography (OCT) rely on fiber optics for detailed, minimally invasive diagnostics, aiding in the early detection and treatment of various conditions.

  4. Laser Surgeries: In laser surgeries, fiber optics deliver targeted treatments with high precision, minimizing damage to adjacent tissues. This technology is essential in procedures like lithotripsy and has the added benefit of integrating real-time imaging, enhancing surgical accuracy.

  5. Illumination: Fiber optics provide intense, focused lighting in surgical and diagnostic procedures, offering clear visualization without the heat of traditional light sources.

  6. Data Transmission: The role of fiber optics in transmitting medical data quickly and securely is crucial, especially in telemedicine and remote monitoring. This technology facilitates remote diagnostics, patient monitoring, and consultations.

  7. Therapeutic Devices: In treatments like Photodynamic Therapy (PDT) for cancer, fiber optics deliver specific light wavelengths to activate photosensitive drugs, targeting cancer cells with precision.

  8. Prosthetics and Neural Devices: Advanced prosthetics and neural devices increasingly incorporate fiber optics for real-time, precise information relay, enhancing the integration between devices and the human body.

In summary, fiber optic technology, with its flexibility, biocompatibility, precise light delivery, and high-speed data transmission capabilities, has become indispensable in medical devices. Its diverse applications have led to safer, more efficient, and innovative medical interventions, marking it as a cornerstone of contemporary medical advancements.

Designed for high strength fusion splicing of standard and specialty fibers for factory, manufacturing and R&D applications.

Designed for splicing standard diameter 80um up to 500μm cladding fiber with low splice loss.

FITEL High-end Fusion Splicer S185 series featuring ROF (Ring of Fire)

The Combiner Manufacturing System (CMS) is an optical glass processing system designed to maintain production level repeatability for combiners and other fused optical components.

Large Diameter Splicing system for fiber bundling, tapering, end-caps and splicing.

High performance piezo cleaver for 125um to 1000um fiber utilizing 3SAE's Liquid Clamp Technology™ patent pending

Cost effective, high precision cleaver designed for fibers with cladding diameters of 125-550 μm

An advanced electronic fiber cleaver for fibers up to 250 μm designed for use in production lines where ease-of-use, process speed and a high production yield is crucial.

Single action wheel cleaver

Thermal mechanical stripper for 125um high strength fibers.

Thermal mechanical stripper for fiber diameters (30-1000um)

Thermal Stripper with extended stroke for stripping fibers up to 225mm.

Simple and automated method for cleaning electrodes used in 3SAE’s arc based fusion splicers

Hand-Held, Core Alignment Fusion Splicer

Precision ultrasonic blade for use with 80um to 200um fibers. Fiber holder compatible.

High performance polisher for large diameter fiber processing, 400um to 2000um

Frequency tuned, designed specifically for optical fibers.

Automatic mid-span fiber stripping unit utilizing Burst Technology™.

The ProCoater is an ultra-compact fiber recoater designed to cover a wide range of fiber diameters and coating materials, from standard to low & high index compounds.

Polyimide mid-span window stripper utilizing Ion Enhanced Cold Plasma Technology™.