The Only 3-In-1

Pneumo-Management System

The AP 50/30 is the only insufflator on the market that offers high performance Pneumostability, Smoke Evacuation, and Advanced Gas Conditioning Technology.

The AP 50/30 is the only insufflator on the market that offers high performance Pneumostability, Smoke Evacuation, and Advanced Gas Conditioning Technology.

Other Insufflation Systems Make You Choose

Between Stable Pneumoperitoneum and Smoke Evacuation OR Gas Conditioning

LEXION Medical is the only 3-in-1 system

Providing all three, creating the Optimal Surgical Insufflation Environment

The AP 50/30 is a Carbon Dioxide insufflator and intelligent pneumo-management system for laparoscopic and robotic surgery. This stable platform gives you excellent pneumoperitoneum so you can perform top of the line care.

AP 50/30 Insufflator delivers stable pneumo regardless of leaks or spikes

Stable Platform

Delivers 100% Carbon Dioxide

LEXION is committed to using 100% Carbon Dioxide. Other insufflation systems may supplement Carbon Dioxide with added room air. Using air, which includes nitrogen, to supplement pneumo has been shown to be hazardous, and harmful to patients¹,².

Other insufflation systems might supplement pneumo with room air. LEXION does not.
A sensor in the trocar measures pressure and flow rates in real time

Intelligent Insufflation

The AP 50/30 utilizes real-time intra-cavitary pressure and flow sensing technology to optimize gas delivery and provide pneumo-stability for the duration of surgery.

AP 50/30 operational modes includes: Standard Insufflation, High Flow, Pediatric, Bariatric, Vessel Harvest, and TAMIS

Multi-Operational

AP 50/30 operational modes includes: Standard Insufflation, High Flow, Pediatric, Bariatric, Vessel Harvest, and TAMIS modes
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Use with our Gas Delivery Disposable

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Use with our Active Smoke Evacuator

Try it for yourself.

 

  1. Huntington, Ciara R., et al. “Safety First: Significant Risk of Air Embolism in Laparoscopic Gasketless Insufflation Systems.” Surgical Endoscopy, vol. 33, no. 12, 2019, pp. 3964–3969., https://doi.org/10.1007/s00464-019-06683-4.

  2. Herrmann E, Schaeffer-Reiss C, Venot C, Noll E, Joshi G, Diemunsch P.  CO2 pneumoperitoneum contamination with air during laparoscopic surgery: valveless versus conventional insufflation systems. Am Soc Anesthesiol 126:1425–1426