Theory for E-light
The E-Light technology fully combines the advantages of optical energy and radio frequency. With the impedance difference in skin and pre-heat produced when the skin selectively absorbs optical energy, the targeted tissue absorbs radio frequency with lower optical energy. So, with a very low risk of side effects-pigment lesion, blistering-generally caused by higher optical energy, we are able to achieve good result with comfortable treatment. The traditional IPL device can only reach 2mm into the skin, however, the Diana E-light creates a deep penetration into the dermis about 5mm. So, with this technology of E-light, we can achieve more applications, especially on wrinkle treatments and skin tightening.

Theory for RF
RF rejuvenation system uses its unique adjustable technology of 2-4 MHZ could effectively control the exchange of the polarity and set up the best frequency. Because the skin tissue has natural defense to the electrode change, it will result in heating the collagen. The collagen will change its nature, collagen link shrinks and the further effect is starting up the inflammation which includes the rebirth of the original fiber cell and the reconstruction of the collagen. It will make the skin as tight, smooth, and tender as possible! So you will reach your goal of lifting and wrinkle-removal.

Theory for Laser
With dual wavelength-1064nm and 532nm, the laser sends out high energy and causes an instantaneous explosion in the targeted tattoo or pigment particles. Thus the melanin will be fragmented so small that they can be metabolized by the lymphatic system or egested out of body, which makes the targeted pigment disappear or lighter. Because normal skin absorbs little energy induced by laser at the wavelength of 1064nm and 532nm, the laser selectively targets and destroys tattoo pigments while leaving surround normal tissues unharmed and intact. This provides sufficient laser energy for efficacious results with minimal side effects.

1. E-light surface splash removal and exogenous pigments removal

2. Tighten skin, eliminate fine wrinkles, and enhance skin elasticity.

3. Removal laser, Dispels epidermal splash, Skin whitening

Treatment features
1. The three in one function design allows the three handles operate independently, and you can own the functions of three machines with only one machine.
2. The three functions have separate interface to ensure each single function has no energy reduction.
3. The IPL output energy could up to 50J/cm, and could achieve fast hair removal and skin rejuvenation.
4. The YAG laser function has three treatment heads (1064nm, 532nm and black doll) with multifunction.
5. The RF duty cycle adjustment range: 50~2500ms, 20 Grades, which is suitable for flexible adjustment.

The E-light treatment handpiece

1. The imported lamp optimization cavity design makes the luminous efficiency higher, effects better, and the lifetime of the handle longer.
2. The handle has two specifications: 12*30mm or 15*50mm. The customers could choose it freely.
3. Filter style design makes the function exchange more convenient.
4.5 in 1 machine, more powerful functions: Pigmentation Therapy, Skin Rejuvenation, Vascular Therapy, Acne Therapy, Hair Removal.

The YAG Laser handpiece

1. The three treatment heads can be switched makes boarder applications.
2. The quality YAG crystal laser rod and high efficient waterway cooling system enables the machine to work for several hours continuously.

The Bipolar RF handpiece

1. Bipolar RF design, exquisite and more convenient.
2. The output power is higher, and can remove the wrinkles effectively.
Parameters for E-light
Light source                Intense pulsed light
Range of Spectrum          480-1200nm Acne removal  (filter)
530-1200nm Pigmentation removal  (filter)
560-1200nm Skin rejuvenation (filter)
590-1200nm Telangiectasis(filter)
640-1200nm Hair removal(filter)
IPL Max Energy             50J/CM 2
Power                     1200W
Spot size                   12*30mm or 15*50mm
Amount of pulse             1~6, adjustable
Interval of Pulse             1~100ms, adjustable
Sub-pulse Width             1~10ms, adjustable
Cycle                       1-4s, adjustable.
IPL Cooling                  semi-conductor cooling
System output control         IC count control
Spare function               Independent handpiece
Parameters for bipolar RF
RF Frequency               1 MHz
RF Max Energy:             20Grades, RF duty cycle 2500ms
Size for the RF head         Inner diameter 12mm
                            Outer diameter 30mm
RF Power                   200W
Parameters for YAG
Laser type                  Q-switched ND: YAG LASER
Wavelength                 1064nm    532nm    Black doll
Pulse Energy                20-1000mj
Pulse Duration               ~10ns
Pulse Rate                  1~10Hz
Size of the machine:          54*54*123cm
N.W:                      55kg
G.W:                        79KG

IV Infusion:

Intravenous simply means "within vein" (or "inside the vein"). Therapies administered intravenously are often included in the designation of specialty drugs. Intravenous infusions are commonly referred to as drips because many systems of administration employ a drip chamber, which prevents air from entering the blood stream (air embolism), and allows an estimation of flow rate.

Intravenous therapy may be used to correct electrolyte imbalances, to deliver medications, for blood transfusion or as fluid replacement to correct, for example, dehydration. Intravenous therapy can also be used for chemotherapy.

Compared with other routes of administration, the intravenous route is the fastest way to deliver fluids and medications throughout the body. The bioavailability of the medication is 100% in IV therapy.

Intravenous infusions are fluid solutions administered through a vein. There are numerous different types of solutions available, but they can be broken down into simple categories depending on the function they serve. Some replace lost fluids, and others provide nutrients, replace lost blood, and deliver medications.

One of the most common uses for intravenous infusions is to replenish fluids lost through dehydration. These infusions often contain normal saline solution, a combination of sterile water and sodium chloride. This solution is known as an isotonic crystalloid, or a solution that contains the same amount of electrolytes as plasma in the body. It is used in cases of moderate to severe dehydration, such as that caused by vomiting or diarrhea, when replacing the fluids quickly is vital.

When a patient`s gastrointestinal tract is compromised and nutrients cannot be absorbed - or eating can worsen the condition - intravenous infusions called total parenteral nutrition may be given. These solutions contain a mix of sterile water, electrolytes, sugar, proteins, fats, and other nutrients, depending on the needs of the patient. Diseases and disorders that commonly require total parenteral nutrition include late stages of Crohn`s disease, obstructive bowel disorder, and ulcerative colitis.

Intravenous infusions are also used to deliver medication directly to the blood stream. Certain medications, such as intravenous immunoglobulin, a type of antibody, can only be given through the vein. Other medications, such as certain narcotic pain relievers, are given intravenously because the method allows them to they work faster than when taken orally. Chemotherapy for treatment of cancer is also typically given intravenously.

When performed by a medical professional, intravenous infusions are typically safe. The most common reaction is mild pain and redness at the site of the injection, although different medications may cause different side effects. Any time the skin is punctured, there is a risk of infection. Having a medical professional, typically a nurse, monitor the Intravenous Infusion and change the injection site when irritation is evident can help prevent complications.

IV Infusion

IV Infusion, Glucose IV Infusion,Intravenous Infusion