MEGADYNE™ Telescoping Smoke Evacuation Soft Tissue Dissector

Powered by GEM Technology. Less thermal damage* and a flexible working length, with smoke evacuation. 

MEGADYNE™ Telescoping Smoke Evacuation Soft Tissue Dissector

Supporting Documentation

Product Support

MEGADYNE™ Telescoping Soft Tissue Dissectors Product Information
 

MEGADYNE™ Telescoping Smoke Evacuation Soft Tissue Dissector Fact Sheet

MEGADYNE™ Telescoping Soft Tissue Dissectors Value Analysis Summary

Geometric Electron Modulation (GEM) Technology Technical Monograph
 

References

*    In ACE Mode vs. standard monopolar electrosurgery: In a preclinical porcine model on abdominal wall dermis that measured thermal damage via histology (p<0.05). (075571-190301) 

†    Based on proprietary GEM Technology and preclinical porcine testing on abdominal wall dermis that measured thermal damage via histology (p<0.05). GEM Technology and test results are achieved when used on the Megadyne Mega Power generator in GEM Mode only. (083164-190305) 

‡    (075573-190306)  

§    (100922-190429)

¶    (100925-190429)

1.    In a clinical study vs. cold steel scalpel that demonstrated noninferior wound healing/scar formation via the Patient Scar Assessment Scale (PSAS) (p<0.0001). Lee BJ, et al. Advanced Cutting Effect System versus Cold Steel Scalpel: Comparative Wound Healing and Scar Formation in Targeted Surgical Applications. Plast Reconstr Surgery Glob Open. 2014;2(10). (075570-190305)

2.    In ACE Mode vs. standard monopolar electrosurgery: In a preclinical porcine model vs. uncoated stainless steel blades at 60W (p<0.001). Kisch T, et al. Electrocautery Devices with Feedback Mode and Teflon-Coated Blades Create Less Surgical Smoke for a Quality Improvement in the Operating Theater. Medicine, 2015;94(27). (075563-190304) 

For complete indications, contraindications, warnings, precautions, and adverse reactions, please reference full package insert.