Rochester Pean Hemostatic Forceps, 14 cm, Curved | Helmut Zepf No. 23.107.14
The Rochester Pean Hemostatic Forceps from Helmut Zepf GmbH is a precision-crafted surgical instrument designed for reliable vessel clamping and tissue control in clinical and dental procedures. Measuring 14 cm in length and featuring a curved configuration, this instrument offers excellent access and visibility in confined operative fields.
Key Features
- Design: Classic Pean (Rochester) pattern with curved jaws for improved angulation and tissue access
- Length: 14 cm — a versatile size suited for a wide range of procedural demands
- Configuration: Curved jaw design facilitates precise clamping in anatomically challenging areas
- Craftsmanship: Manufactured in Germany to stringent quality standards by Helmut Zepf GmbH
Clinical Applications
The Rochester Pean Hemostatic Forceps is widely used for hemostasis, tissue grasping, and controlled manipulation during surgical and dental procedures. The ratcheted locking mechanism ensures a secure, consistent grip, reducing operator fatigue and improving procedural accuracy. The curved jaw geometry is particularly advantageous when working at depth or around anatomical structures.
Made in Germany

Helmut Zepf GmbH instruments are manufactured in Germany, reflecting a tradition of engineering excellence and meticulous quality control. Every Rochester Pean Hemostatic Forceps unit undergoes rigorous inspection to ensure consistent performance, instrument longevity, and practitioner confidence across every use.
FAQ
What is the Rochester Pean Hemostatic Forceps used for? It is used primarily for clamping blood vessels and soft tissue during surgical and dental procedures to control bleeding and facilitate tissue manipulation.
What length is this model? This model measures 14 cm, making it suitable for a broad range of clinical applications requiring moderate reach and precise control.
Is this instrument curved or straight? This specific model features a curved jaw configuration, which is ideal for accessing confined or angled operative areas with greater ease and precision.

