Duoblade features a uniquely designed tapered cutting edge with a doubly insulated structure, incorporating a highly durable oxide layer. This advanced technology enables exceptionally low-temperature soft tissue dissection, limiting tissue temperatures to below 100°C.
Infrared thermal images for the Duoblade and Traditional Electrosurgery in Cut mode at 35W.
DATA
Duoblade is designed to minimize four key factors
Operating temperature, Thermal injury, Bleeding, and Surgical smoke.
Low Operating Temperatures ¹
Duoblade operates below 100℃
Traditional electrosurgery operates up to 250℃
1. TRE-00069 Rev. A. Preclinical operating temperature study. Data on File
Minimal Thermal Injury ¹
Histology studies using Masson’s Trichrome confirms minimal thermal injury (red) with Duoblade.
Up to 70% reduction in thermal injury compared to traditional electrosurgery devices. (35W CUT mode)
Duoblade incision - low thermal injury.
Traditional device - significant thermal injury.
1. TRE-00069 Rev. A. Preclinical operating temperature study. Data on File
Exceptional Hemostasis ²
Quantification of blood loss demonstrated outstanding hemostatic performance at the CUT & COAG 35W setting. Duoblade showed significantly lower estimated blood loss compared to a scalpel and other competing advanced energy blades. (P < 0.05)
Blood Loss Quantification - Duoblade << Competitive Device < Scalpel
2. TRE-00082 Rev. A Comparative Bleeding Control Study. Data on File
Less Surgical Smoke ³
Innovation to promote a cleaner surgical environment. With lower operating temperatures, Duoblade reduces surgical smoke by generating less smoke particles.
Low-profile integrated distal suction provides additional reduction of smoke helping improve overall visualization of the surgical site.
3. DOC-00044 Duoblade Technical Deck
Scienrific Publications
Performance Evaluation of Electrosurgical Pencils: Insights into Surgical Smoke Mitigation and Thermal Damage Reduction
International Journal of Surgery, IF 15.3
2025
Under Peer review
A Machine Learning Optimized Dielectric Ultra-focused Oscillatory (DUO) Electrode for Low Temperature Electrosurgery
Nature – Scientific Reports, IF 3.9
2025
Published
Reinforced Learning Based Structural Optimization of a Dielectric Heating Electrode and Its Evaluation for Low Temperature Tissue Dissection
The Korean Institute of Power Electronics
2025
Accepted
Dielectric Ultra-focused Oscillatory (DUO) Monopolar Blade for Minimizing Thermal Damage in Electrosurgical Applications
International Conference on Biomedical Engineering and Applications
2025
Published
A Study on the Cutting Mechanism Characteristics of Monopolar Electrosurgical Electrode Based on Coating Structures
The Korean Institute of Power Electronics
2024
Published
Improvement of Electrosurgical Unit Performance through Impedance Resonance
The Korean Institute of Power Electronics
2023
Published
Optimal Blade Structure Design for Electric Surgical Instruments
The Korean Institute of Power Electronics
2023
Published
Ready to Advance?
Experience Duoblade today and set a new standard in your OR.