Werejuvenateyou
Voted #1 Patient Satisfaction System
Elevating the Carboxy Therapy Practice How ?
Under Eye Dark Circles / Stretch Marks
Acne Scars / Anti-Ageing / Facial Revitalisation
Cellulite / Localized Fat / Combination Therapy
Hair Rejuvenation
Faster : Easy Settings, Ready in 2 minutes
Dosimetric : Dose of CO2 gas adjustable
Modern : A Digital Screen indicates all treatment variables & A Single Multidirectional Button Controls all the settings
Modern : A Digital Screen indicates all treatment variables & A Single Multidirectional Button Controls all the settings
Practical : A Little Vibration in the hand confirms the Right Delivery of the Dose
Universal : Accept Any Standard Needles
Deeper : Depth of Injection Adjustable from 1 to 10 mm
PainLess : Injection Begins with a Simple Pressure of the Carboxy-Pen on the Treated Area.Electronical & Progressive Control of the Flow of Gas Injection.
Safe : Injection Starts only when the Needles Reaches the Correct Depth.
By Injection of Carbon dioxide Gas (CO2) Using Medical Grade Needles for Therapeutic procedure similar to Mesotherapy into Intradermal Skin or Sub Cutaneous Layer.
Capillary Expansion upon Improvement in Blood Supply
Leading in BOHR Effect
Resulting Increase in Oxygen Supply for Tissue
Stimulating Collagen Synthesis
Neurovascularisation Effect
Receptor Activations & Lipolysis
Mechanism of action
The First Effect after the CO2 Injection is Vasodilation, Increasing Blood Flow & Higher pO2 in the Treated area. Local Oxygen Release is Improved because of the BOHR Effect. The BOHR Effect describes the tendency of Heamoglobin to have Less Affinity for Oxygen when the Blood Concentration of CO2 is Increased. This Lower Affinity leads the Heamoglobin to Release the Oxygen Better in Superficial Tissues & Muscles. CO2 is Quickly Converted to Bicarbonates & H+ Acid in Presence of the Carbonic Anhydrase Enzyme.
CO2 + H2O --> H+ + HCO3-
This reaction causes the tissue’s PH to become Acidic with even more dissociation of O2 from Heamoglobin, Allowing the Tissue to become even more oxygenated.