Rochester-Carmalt Hemostatic Forcep – STR & CVD, 16 cm (6 1/4″) & 20 cm (8″) Surgical Vessel Clamps
Features and Description:
The Rochester-Carmalt Hemostatic Forcep, available in Straight (STR) and Curved (CVD) variants, is a premium surgical instrument designed for secure clamping of blood vessels and tissue, particularly in gynecological, abdominal, and general surgeries. Renowned for its cross-serrated jaws that extend longitudinally, this forcep provides maximum gripping power, making it ideal for clamping large vessels and tough connective tissue.
Available in 16 cm (6 1/4″) and 20 cm (8″) lengths, the Rochester-Carmalt forceps offer optimal reach and maneuverability for both superficial and deeper operative fields. The ergonomic ring handles with ratchet locking mechanism ensure stable, hands-free clamping, reducing surgeon fatigue during prolonged procedures.
Constructed from surgical-grade stainless steel, these instruments are durable, corrosion-resistant, and fully autoclavable, ensuring consistent performance in professional surgical environments. Whether straight or curved, the jaws provide a secure, non-slip grip, allowing for controlled vessel occlusion and precise tissue handling.
Key Features:
- Surgical-grade stainless steel construction for long-term durability
- Available in Straight (STR) and Curved (CVD) variants for versatile access
- Lengths: 16 cm (6 1/4″) and 20 cm (8″) for optimal reach
- Cross-serrated jaws for superior gripping and secure clamping
- Ergonomic ring handles with ratchet locking for stable, hands-free operation
- Corrosion-resistant, reusable, and fully autoclavable
- Ideal for general, gynecological, abdominal, and vascular surgeries
Applications:
- Clamping large blood vessels during general and gynecological surgeries
- Achieving hemostasis in deep operative fields
- Controlled tissue manipulation and vessel occlusion
- Suitable for hospitals, operating rooms, and surgical centers
The Rochester-Carmalt Hemostatic Forcep is an essential surgical instrument, combining strength, precision, and reliability, ensuring safe and effective vessel clamping in demanding surgical procedures.