JCXY-B5 1064nm Nd Yag Laser lipolysis Surgical Slimming Machine

Working Principle:

Core Principle: Selective Photothermolysis

The foundation is selective photothermolysis—using a specific wavelength of light (1064nm) that is preferentially absorbed by target chromophores (fat and water) with minimal effect on surrounding tissues, within a controlled pulse duration to confine the thermal energy.

Selective Fat Destruction via photothermal liquefaction.

Minimized Trauma via Vessel coagulation.

Active Skin Remodeling via Deep dermal collagen stimulation.

This triad of effects—lipolysis, hemo-stasis, and dermo-genesis—makes it a powerful tool for body contouring, especially in cases where skin tightening is a desired outcome alongside fat reduction.

Applications:

1. Lipolysis

2. EVLT (Endovenous Veins Laser Treatment)

3. PLDD (Percutaneous Laser Dsic Decompression )

4. Hemorrhoid

5. Orthopaedics

6. Dermatology

7. General surgery

8. Vascular

Advantages 

Precision and Controlled Thermal Effect

Selective Photothermolysis: The 1064nm wavelength has a strong affinity for fat (adipose tissue) and water. JCXY-B5 efficiently targets and liquefies fat cells while causing minimal damage to surrounding structures.

Coagulation: The laser energy coagulates small blood vessels (vasoconstriction) as it works, leading to significantly less bleeding, bruising, and swelling compared to traditional methods.

Minimally Invasive & Reduced Downtime

Smaller Cannulas: Because the fat is liquefied, it can be removed with much smaller, gentler cannulas. This means smaller incisions (often just 1-2mm).

Local Anesthesia: The procedure can frequently be performed under local tumescent anesthesia rather than general anesthesia, reducing associated risks.

Faster Recovery: Patients typically experience less trauma, leading to quicker healing, less post-operative pain, and a faster return to normal activities (often within a few days).

Skin Tightening / Collagen Stimulation

JCXY-B5 is one of the most significant advantages over traditional liposuction.

The controlled thermal energy from the 1064nm laser stimulates fibroblasts in the dermis to produce new collagen and elastin.

This results in gradual skin tightening and contraction over 3-6 months post-procedure, reducing the risk of sagging skin—a common concern, especially in older patients or areas with less skin elasticity.

Safety Profile

Reduced Physical Effort: The surgeon does not need to use vigorous physical force to break up fat, leading to more consistent results and less trauma.

Real-time Feedback: The laser fiber is contained within a cannula, allowing the surgeon to work in a precise, controlled manner.

Hemostasis: The coagulative effect reduces the risk of hematoma (blood collection) and promotes a safer surgical field.

Versatility

The 1064nm wavelength is effective for treating a wide range of body areas, including delicate and fibrous areas that are challenging for traditional liposuction:

Neck, Jawline, and Chin (Submental Fat): Excellent for precision contouring.

Arms, Inner Thighs, and Knees: Areas with thinner skin that benefit from the skin-tightening effect.

Abdomen, Flanks ("Love Handles"), and Back.

Gynecomastia (Male Chest): Particularly effective for breaking down the fibrous glandular tissue often found in this condition.

Efficiency in Procedure

The laser energy helps to pre-emulsify the fat, making the removal process smoother and sometimes faster for the surgeon.

It allows for a more uniform treatment of the surgical plane.

What are the Differences between the 1064nm Nd:YAG laser and the 980+1470nm Diode laser used for liposuction?

Operation:

During treatment, a small incision is made in the skin, insert  laser fiber optic cannula into the area that needs fat dissolving, controll the handle to perform laser fat dissolving.  After dissolving, a negative pressure suction device is used to suck out the liquefied fat; tights must be worn after the surgery.

Key Technical Factors Ensuring Safety & Efficacy

- Tumescent Anesthesia: The area is first infused with a cold tumescent solution. This provides anesthesia, hydrates the tissue (creating a safer medium for laser energy), and constricts blood vessels.

- Laser Parameters: The surgeon controls power (Watts), energy fluence (J/cm²), and pulse duration. Continuous or pulsed modes are used to manage heat delivery and prevent overheating.

- Continuous Motion: The surgeon constantly moves the laser fiber in a fan-like pattern to distribute heat evenly and avoid hot spots that could cause burns.

Product Parameters: