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China, Chinese Dual Wavelength 980 1470nm Spider Vein Laser Facial Redness Minimally Invasive Device1 Industrial Products Supplier Manufacturer Details, price list catalog:
China Industrial Products Supplier Manufacturer List Catalog
Beauty EquipmentBody Beauty EquipmentDual Wavelength LaserSpider Vein Treatment
Yoeshon Physiotherapy Limited
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Product Description Dual Wavelength 980 1470nm Spider Vein Laser Facial Redness Minimally Invasive DeviceProduct Description1) Technical Principle (Spider Vein & Facial Redness)How does the 980+1470nm dual wavelength laser treat spider veins and facial redness?The 980+1470nm diode laser delivers precise intraluminal energy to the affected microvasculature. Light is selectively absorbed by hemoglobin (980nm) and water in vessel walls (1470nm), generating controlled heat that coagulates and collapses the target vessels. This leads to gradual absorption by the body, leaving surrounding skin intact and minimizing discomfort.Why use 980 nm + 1470 nm together?1470 nm (water-targeted): Effectively heats vessel walls, causing shrinkage and closure of larger superficial or mid-dermal veins with minimal collateral damage.980 nm (hemoglobin-weighted): Complements 1470 nm by enhancing coagulation in tiny tributaries or telangiectasia where blood absorption improves efficiency.Role of cooling and pulse modulation:Advanced cooling system protects epidermis, reducing thermal spread and pain.Adjustable pulse width (15-100ms) and frequency (1-20Hz) allows customization for vessel diameter, depth, and skin type.Fiber-end design:Radial-emitting fiber tips distribute energy circumferentially, lowering peak fluence and reducing ecchymosis while maintaining high closure rates. 2) Why Do Spider Veins Occur?Structural and vascular factors:Valve weakness in superficial veins can allow retrograde blood flow.Chronic venous pressure due to heredity, hormonal factors, sun exposure, or lifestyle contributes to dilation.Vessel wall degeneration leads to visible telangiectasia and facial redness. 3) How Does the Laser Mechanism Work?Targeted energy delivery:The laser selectively heats the microvessel wall and intraluminal blood, causing photothermal denaturation of collagen and smooth muscle proteins.Thermal shrinkage and vessel closure:Heat induces protein denaturation and contraction, collapsing the vessels which are later resorbed naturally, clearing visible redness.Blood flow rerouting:Closure of abnormal vessels redirects circulation through healthy microvasculature, improving skin appearance.Minimally invasive & quick recovery:Treatment requires only fiber contact at the target vein, no large incisions, minimal downtime, and negligible post-procedure bruising. 4) Surgical Principle / Treatment WorkflowAssessment & planning:Evaluate affected areas with dermoscopy or high-resolution imaging, map target vessels, and prioritize treatment zones.Patient positioning & preparation:Clean and mark affected vessels. Local anesthesia or tumescent infiltration applied for analgesia and thermal protection.Energy delivery (laser application):Laser activated in CW or pulsed mode, fiber guided along the vessels to deliver controlled energy.1470 nm for vessel wall heating, 980 nm for hemostasis and tributaries.Adjunct procedures:Tiny residual telangiectasias can be treated with sclerotherapy or follow-up sessions if necessary.Post-treatment care:Immediate gentle compression recommended; patients can resume normal activities quickly.Visible improvement typically appears within few days to weeks.4) Surgical Principle / Treatment WorkflowAssessment & Planning: Evaluate affected areas with dermoscopy or high-resolution imaging, map target vessels, and prioritize treatment zones.Patient Positioning & Preparation: Clean and mark vessels, apply local anesthesia or tumescent infiltration for analgesia and thermal protection.Energy Delivery: Activate laser in CW or pulsed mode, fiber guided along vessels to deliver controlled energy (1470 nm for wall heating, 980 nm for tributary coagulation).Adjunct Procedures: Residual telangiectasias can be treated with sclerotherapy or follow-up sessions.Post-Treatment Care: Gentle compression recommended; immediate ambulation; visible improvement in few days to weeks.5) Application RangeFacial spider veins, telangiectasia, and rednessCherry hemangiomas and fine vascular lesionsCapillary dilation on nose, cheeks, and chinSuitable for all skin types, including sensitive skin6) Product Features & Technical SpecificationsFeatureSpecificationLaser TypePulse / CW / SingleWavelength980 + 1470nmPower20W/980nm + 3W/1470nm standard; 30W/980nm + 9W/1470nm optionalPulse Width15-100msFrequency1-20HzTransmissionBiquartz optical fiberDisplay10.4-inch touch screenCoolingAdvanced integrated system7) Advantages for Spider Vein & Redness TreatmentPrecise Coagulation: Targets only affected vesselsMinimally Invasive: Reduces downtime and discomfortFast Recovery: Visible improvement within few sessionsAll Skin Types: Safe for sensitive and darker skin tonesDual Wavelength Efficiency: Combines hemoglobin and water absorption for superior resultsClinic Trusted: Preferred by dermatologists and aesthetic clinics worldwide8) Optional FunctionsNail fungus removal (onychomycosis)Endolift / lipolysis / minor laser surgerySkin rejuvenationEczema & herpes treatment9) Precautions & NotesAvoid sun exposure and strong skincare immediately post-treatmentMinor redness or swelling may occur, typically resolving within 1-3 daysFollow physician instructions for compression and care
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