Studies
Latest research from the “Università degli studi di Pavia” on the active ingredient ATX-NAT (formerly BTX-NAT) in application with JetPeel™.
To view the study, please click here or on the preview image on the right.
Hydroporation via JetPeel™ Dermalinfusion
The effects of the treatment were documented in a study “Hydroporation via JetPeel™ Dermalinfusion – Efficacy Analysis Documented by Standardized Photography and Biophysical Measurement Methods” conducted by the University of Hamburg, Department of Biochemistry and Molecular Biology, Cosmetics Science Division, under the direction of Professor Dr. med. Martina Kerscher.
To view the poster, which was presented at AMWC 2013 in Monaco, click here or on the preview image on the left.
Histological Studies on Penetration Depth Using JetPeel™
The penetration depths of the original JetPeel active serums JetPeel™ Vitamin C and Hyaluronic Acid through hydroporation and pneumoporation using JetPeel™ were thoroughly investigated by Prof. Dr. med. Uwe Paasch (University Hospital Leipzig). Various intervals and their effect on the deposition of active ingredients in the skin were examined and scientifically proven.
To view Professor Paasch’s research results, please click here or on the preview image on the right.
Interview on JetPeel™ Studies with Prof. Dr. Paasch, University Dermatology Clinic Leipzig
Minerva Chirurgica
Short review on face rejuvenation procedures: Focus on preoperative antiseptic and anesthetic delivery by JetPeel™-3 (A high oxygen delivery device)
To access the study, please click here or on the preview image on the left.
Technical Report Regarding Speed, Droplet Size, and Air-Gas Flow
The patented JetPeel™ system was investigated according to biophysical criteria at the Turbo and Jet Engine Laboratory, Faculty of Aerospace Engineering, Technion-Israel Institute of Technology, Haifa by Dr. Vitaly Ovcharenko and Prof. Yeshayahou Levy (1).
Using a special measuring apparatus – a Phase Doppler Particle Analyzer/Laser Doppler Velocimeter (TSI PDPA/LDV) – droplet size and velocity were measured as a function of exit distance.
The Israeli institute has a broad research spectrum: nozzles of jet aircraft, rockets, and engines are examined, as are inkjet printers and asthma inhalers. The researchers found that JetPeel™ accelerates a narrow parallel beam (collimated) of very small liquid droplets (average size 17.03 ?m) at a speed of >202.2 m/sec at a distance of 20 mm from the exit nozzle.
These measurement data are comparable to a high-pressure nozzle of an aircraft engine in miniature. Despite these enormous performance data, treatment with the JetPeel™ micro-nozzles is completely painless and also pleasantly cools the skin surface. Due to the speed of the air/liquid jet of over 200 m/s, the skin barrier is not injured, but only stretched.
Literature: Ovacharenko V, Levy Y. Droplet Size and Velocity Measurements for Tav-Tech Ltd. Report to Tav-Tech Ltd, ISRAEL. Turbo and Jet Engine Laboratory, Faculty of Aerospace Engineering, Technion-Israel Institute of Technology, Haifa, JTL 002-07-2015.
