10600nm Fractional CO2 Laser Machine For Skin Resurfacing Scar Removal Wrinkle Reduction And Dermatology Treatments

10600nm Fractional CO2 Laser Machine For Skin Resurfacing Scar Removal Wrinkle Reduction And Dermatology Treatments

What is Fractional CO₂ Laser Technology?

The Fractional CO₂ Laser System is a high-precision medical and aesthetic device that emits 10600nm wavelength infrared laser energy, which is strongly absorbed by water molecules in biological tissues. Because human skin, mucosa, and soft tissue contain a high percentage of water, this wavelength is highly effective for controlled vaporization, coagulation, and thermal stimulation.

• Fractional mode: The laser beam is divided into thousands of microscopic columns called microthermal zones (MTZs). These zones create precise damage to targeted tissue while leaving surrounding areas intact, promoting rapid healing, collagen remodeling, and skin rejuvenation.

• Continuous and ultra-pulsed mode: Provides precise cutting, vaporization, and coagulation for minor surgical procedures. Ultra-pulsed mode allows high peak power in extremely short pulses, reducing thermal damage to surrounding tissue and minimizing patient downtime.

• Thermal stimulation mechanism: The laser penetrates the epidermis and dermis, inducing collagen contraction and neocollagenesis (new collagen formation). This tightens loose skin, reduces wrinkles, and improves skin texture and elasticity.

• Gynecology applications: Using specialized vaginal probes, fractional CO₂ laser stimulates mucosal regeneration, improves tissue hydration, elasticity, and vaginal health, supporting intimate wellness treatments.

• Skin and soft tissue remodeling: Micro-ablation and heat stimulation also trigger the body’s natural repair mechanisms, promoting vascular remodeling, scar reduction, and improved pigmentation.

Advantages of fractional CO₂ laser technology:

1. Controlled micro-damage: Targets specific tissue depth without harming surrounding areas.

2. Minimal downtime: Rapid healing due to fractional microthermal zones.

3. Versatile treatment: Effective for dermatology, minor surgery, and gynecology.

4. Collagen stimulation: Induces long-term skin tightening and rejuvenation.

5. Precision: Adjustable scan patterns, spot size, pulse width, and energy allow customized treatment for various clinical indications.

This advanced laser technology combines precision ablation, thermal coagulation, and fractional delivery to achieve superior clinical results while maintaining patient safety and comfort.

Application Range

The CO₂ Laser System is designed for multiple clinical and aesthetic purposes, including:

• Skin resurfacing and rejuvenation

• Wrinkle and fine line reduction

• Scar revision (acne scars, surgical scars, trauma scars)

• Pigmentation and age spot treatment

• Vaginal tightening and mucosal rejuvenation

• Minor dermatological surgery (nevus, papilloma, keratosis removal)

• Soft tissue cutting with minimal bleeding

Product Attributes

Product Details

• Multi-functional probes: Includes scanner probe for fractional resurfacing, vaginal probe for gynecology treatments, and surgical probe for precise dermatological procedures.

• Smart scanning patterns: Multiple customizable shapes allow physicians to adapt treatment for various indications.

• Efficient cooling: Internal coolant ensures consistent performance and longer device lifespan.

• User-friendly design: High-definition LCD screen and microcomputer control enable easy parameter adjustments.

• Flexible delivery system: 7-joint articulated arm ensures stable energy transmission with high accuracy.

How to Perform Fractional CO₂ Laser Treatment?

Step 1. How to prepare the patient before treatment
The doctor conducts a consultation, evaluates skin condition or gynecological needs, reviews medical history, and sets clear treatment goals. Patients should avoid sun exposure and irritating skincare before the session.

Step 2. How to prepare the treatment area
Clean the skin thoroughly and disinfect the treatment site. Apply topical anesthesia if required to minimize discomfort.

Step 3. How to set the parameters of the CO₂ laser
Adjust the energy level, scanning pattern, pulse mode, and spot size according to the specific indication, such as skin resurfacing, scar revision, or gynecology treatment.

Step 4. How to apply the laser correctly
Use the appropriate probe (scanner, vaginal, or surgical) and move it evenly across the targeted area. Deliver energy in controlled pulses to create fractional microthermal zones or precise surgical incisions.

Step 5. How to cool the skin after laser application
Immediately apply a cold compress, soothing gel, or cooling mask to reduce redness, swelling, and discomfort.

Step 6. How to provide post-treatment care instructions
Guide the patient on daily aftercare: keep the area clean, moisturized, and protected with sunscreen. Avoid hot baths, strenuous exercise, and sun exposure for several days. Follow-up sessions may be recommended for best results.

Pre-treatment Precautions

• Avoid excessive sun exposure or tanning at least 2 weeks before treatment.

• Discontinue use of irritating skincare products (e.g., acids, retinoids) 5–7 days prior.

• Ensure the treatment area is free from open wounds or infections.

• Patients with a history of keloid formation should inform the physician.

• Remove all makeup or skincare products before starting the procedure.

Post-treatment Care

• Expect temporary redness, swelling, or mild discomfort lasting 1–3 days.

• Keep the treated area clean and moisturized with gentle products.

• Avoid direct sunlight; apply broad-spectrum sunscreen (SPF 30+) daily.

• Do not pick or scratch peeling skin during the healing process.

• Refrain from strenuous exercise, saunas, or hot baths for 3–5 days.

• Follow the recommended follow-up sessions for optimal results.

Contraindications

• Pregnancy or breastfeeding

• Active skin infections (bacterial, viral, or fungal)

• Severe systemic diseases (e.g., uncontrolled diabetes, cardiovascular issues)

• Photosensitive conditions or medications

• Patients with pacemakers or other implantable electronic devices

• History of abnormal wound healing or keloid formation