Osteotome Instrument, Concave, Angulated Concave, Angled, Ø 3.4 / 3.8 Red Mark, for Implants with Ø 4.3 | Helmut Zepf No. 47.943.38

The Dental Osteotome from Helmut Zepf GmbH is a precision-engineered instrument designed to support controlled bone condensation and expansion during implant site preparation. This instrument features a concave, angulated concave, and angled working end, with a diameter specification of Ø 3.4 / 3.8 (Red Mark), making it specifically suited for use with implants of Ø 4.3. The angulated design provides improved access to posterior sites and facilitates precise osteotomy procedures in challenging anatomical regions.

Key Features

• Profile: Concave and angulated concave working end
• Diameter: Ø 3.4 / 3.8 — identified by Red Mark color coding
• Implant Compatibility: Designed for implants with Ø 4.3
• Angled design for enhanced access and clinical versatility
• Manufactured in Germany to Helmut Zepf's established quality standards

Clinical Application

As a Dental Osteotome, this instrument is intended for professionals performing implant placement procedures that require precise bone shaping and compaction. The concave tip geometry allows for controlled lateral bone compression, while the angulated configuration aids visibility and instrument placement in posterior quadrants. The Red Mark color coding system enables quick identification during clinical workflows.

Made in Germany

This Dental Osteotome is manufactured in Germany, reflecting Helmut Zepf GmbH's commitment to precision craftsmanship and consistent instrument quality. Helmut Zepf No. 47.943.38 is the product reference for this specific configuration.

FAQ

What implant diameter is this osteotome designed for? This instrument is designed for use with implants of Ø 4.3.

What does the Red Mark indicate? The Red Mark is a color-coding identifier that corresponds to the Ø 3.4 / 3.8 diameter specification of this instrument.

Why is an angulated design beneficial? The angled working end improves access to posterior regions of the oral cavity, allowing for more controlled and accurate bone preparation during implant procedures.