The hook needle is designed to assist in gentle and controlled retraction of delicate tissues across various surgical settings.
- SURGICAL NEEDLE
- HOOK NEEDLE
SURGICAL NEEDLE
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Innovative Surface Grinding Technology
The suture needle's sophisticated finishing and innovative surface grinding technology provide 20% higher penetration (sharpness) than existing needles.
The sharp edge is firmly formed, ensuring the durability of the edge even with repeated use, allowing it to maintain the same penetrating power as the first time.
It easily penetrates tissue to minimize wounds, allowing for rapid treatment.
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Surface Luster
The surface treatment of the suture needle is improved to a subtle gloss to block reflected light.
This reduces eye fatigue and allows the suture area to be observed clearly, minimizing errors that may occur during microscopic or laparoscopic surgery.
REGULAR EYE
SPRING EYE
FRENCH EYE
DRILLED END
| Material | AISI/SUS 304 |
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| Coating | Silicone |
| Size | 3mm~100mm |
| Eye type | Spring Eye, Regular Eye, French Eye, Drilled-end |
| Shape | Reverse cuttung, Conventional cutting, Taper point, Taper cutting, Blunt, Diamond cutting, Spatula Cutting, etc. |
| Circle | 1/4, 3/8, 7/16, 1/2, 5/8, Hook, Compound, Str, Ski |
HOOK NEEDLE
Hook Needles for Delicate Tissue Retraction
| Features | Its refined hook configuration allows the tissue edge to be engaged with minimal interference, supporting improved exposure of the surgical field. When connected to sutures or fixation points, the device helps maintain stable and consistent traction. |
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| Available in multiple sizes and hook configurations, the hook needle offers flexibility to accommodate different tissue characteristics, surgical approaches, and surgeon preferences. | |
| The device is primarily intended for procedures requiring precise tissue handling and may be applied in selected surgical situations where delicate membrane or dura retraction is required. |
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Multiple hook sizes for different tissue thicknesses
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Various hook shapes to accommodate diverse surgical approaches
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Optimized design for controlled and stable traction
