Providence Hemostatic Forcep – STR & CVD, 14.5 cm (5 3/4″) Surgical Vessel Clamp
Features and Description:
The Providence Hemostatic Forcep, 14.5 cm (5 3/4″) is a precision surgical instrument designed for reliable clamping of blood vessels and soft tissue during a wide range of surgical procedures. Available in both Straight (STR) and Curved (CVD) configurations, this forcep provides excellent control, visibility, and maneuverability in both superficial and moderately deep operative fields.
Manufactured from high-quality surgical-grade stainless steel, the Providence forceps offer superior strength, corrosion resistance, and long-lasting performance in demanding clinical environments. The finely serrated jaws ensure a secure, non-slip grip on vessels and tissue, enabling effective hemostasis while minimizing trauma.
The instrument features ergonomic ring handles with a dependable ratchet locking mechanism, allowing surgeons to maintain stable, hands-free clamping with precise pressure control. Its 14.5 cm length provides an optimal balance between reach and precision, making it suitable for various surgical specialties.
Widely used in hospitals, operating rooms, and surgical centers, the Providence Hemostatic Forcep is an essential tool for safe and efficient vessel control.
Available Variants:
- Straight (STR) — 14.5 cm (5 3/4″)
- Curved (CVD) — 14.5 cm (5 3/4″)
Key Features:
- Premium surgical stainless steel construction
- STR (Straight) and CVD (Curved) jaw options
- Length: 14.5 cm (5 3/4″)
- Fine serrations for secure vessel and tissue grip
- Ratchet locking mechanism for stable occlusion
- Corrosion-resistant and reusable
- Fully autoclavable for sterilization
- Designed for professional surgical use
Applications:
- Hemostasis during surgical procedures
- Vascular and general surgery
- Tissue and vessel clamping
- Operating room and clinical use
- Laboratory and medical settings
The Providence Hemostatic Forcep delivers precision, reliability, and safety, making it a trusted instrument for surgeons performing controlled vessel and tissue clamping.