Faqs

How Does The Q-Switched Nd:yag Laser Work To Treat Skin Pigment Issues? Achieve Clearer Skin With Advanced Technology

Learn how Q-Switched Nd:YAG lasers use dual wavelengths (1064nm/532nm) to shatter melanin and clear skin pigment effectively and safely.

What Conditions Has Radiofrequency Microneedling (Rfm) Been Used To Treat Successfully? Discover Versatile Skin Solutions

Explore how RF Microneedling effectively treats acne scars, skin laxity, hyperhidrosis, and aging signs with advanced thermal energy technology.

What Are The Main Advantages Of Picosecond Lasers? Experience Precision Pigment Removal With Minimal Downtime

Explore the top benefits of picosecond lasers, including enhanced safety, fewer sessions, and superior results for all skin types compared to traditional lasers.

What Is Advanced Fluorescence Technology (Aft) In Shr? Boost Efficiency And Patient Comfort With Spectral Conversion

Learn how Advanced Fluorescence Technology (AFT) optimizes SHR hair removal by converting wasted UV light into effective therapeutic energy.

What Is Selective Photothermolysis And How Is It Related To Q-Switching? Achieve Precise Pigment Removal

Learn how selective photothermolysis and Q-switching work together to target pigments precisely while protecting surrounding healthy skin tissue.

What Are Supramaximal Contractions And How Frequently Do They Occur During A Hifem Session? Boost Muscle Density Fast

Learn how HIFEM technology induces 20,000 supramaximal contractions in 30 minutes to force rapid muscle hypertrophy and structural reconstruction.

How Are The Highest Pulse Energies And Shortest Pulse Durations Achieved In Q-Switched Lasers? | Expert Optimization

Learn how to maximize pulse energy and minimize duration in Q-switched lasers through repetition rate control and resonator design.

How Is A Q-Switched Laser Utilized For Medium Depth Nonablative Skin Resurfacing? Achieve High-Satisfaction Photoaging Results

Learn how frequency-doubled 532 nm Q-switched lasers provide effective medium depth resurfacing with minimal downtime for photoaged skin.

How Does An Nd:yag Laser Generate Its Laser Beam? Understanding The Science Of Optical Pumping And Crystal Doping

Learn the mechanics of Nd:YAG laser beam generation, from optical pumping of neodymium ions to its deep-penetrating 1064nm infrared output.

What Does The Acronym 'Laser' Stand For And What Are Its Key Properties? Mastering Precision Light Technology

Learn the meaning of LASER and explore its key properties like monochromaticity and collimation for precise medical and aesthetic energy delivery.

What Are The Benefits Of Laser Skin Therapy? Achieve Flawless Skin Texture With Precision And Minimal Downtime

Discover how laser skin therapy delivers precise results, improves skin tone, and ensures rapid recovery for a more youthful appearance.

How Does The Pulse Width Of A Picosecond Laser Compare To A Traditional Q-Switched Laser? Unlock Precision & Safety

Discover why picosecond lasers' ultra-short pulses offer superior pigment clearance and less thermal damage than traditional Q-switched systems.

What Is A Q-Switch Nd:yag Laser Highly Effective For? The Universal Gold Standard For Tattoo & Pigment Removal

Discover why the Q-Switch Nd:YAG laser is the safest, most effective choice for tattoo removal and pigmentation across all skin types, including dark tones.

What Role Do High-Precision Microneedle Treatment Devices Play In Dermatological Aesthetic Procedures? Transform Skin

Learn how high-precision microneedle devices stimulate collagen and maximize nutrient absorption for professional skin rejuvenation and repair.

What Are The Clinical Advantages Of Dual-Wavelength Laser Systems? Expert Vascular Therapy Solutions

Unlock the benefits of 532nm and 1064nm lasers: treat superficial and deep vascular lesions with one versatile clinical platform.

How Do Energy Parameter Settings In Fractional Laser Devices Influence The Treatment Of Deep-Seated Melasma?

Learn how energy settings (mJ) control Microthermal Zone depth to effectively target and clear deep-seated melasma in fractional laser treatments.

Why Adjust Laser Energy For Fitzpatrick Skin Types? Ensure Safety & Efficacy In Professional Scar Treatment

Learn why calibrating laser fluence and pulse duration based on Fitzpatrick skin type is essential to prevent burns and PIH during scar treatment.

What Role Does The D-Pulse (Dp) Pulse Shape Play In Deep Tissue Remodeling? Unlock Superior Skin Tightening & Elasticity

Learn how the V-shaped D-Pulse targets the reticular dermis for vertical contraction, deep thermal remodeling, and enhanced skin elasticity.

What Are The Benefits Of Using An Ultra-Short Pulse Mode In Co2 Laser Systems? Precision Skin Ablation Explained

Learn how ultra-short pulse CO2 lasers minimize thermal damage, accelerate healing, and ensure high-precision treatment for superficial skin lesions.

What Role Does Industrial Cold Air Cooling Play In Laser Hair Removal? Ensure Safety And Maximize Treatment Efficacy

Learn how industrial-grade cold air cooling protects the skin, enables higher laser energy, and improves patient comfort during hair removal.

Why Are Different Power And Scanning Parameters Required For Vaginal Versus Vulvar Treatments? Co2 Laser Safety Guide

Understand why anatomical differences dictate specific laser power and scan settings for vaginal (40W) vs. vulvar (25W) Fractional CO2 treatments.

Why Is An Integrated Air Cooling System Essential For High-Energy Nd:yag Lasers? Ensure Safety And Efficacy.

Learn how integrated air cooling protects the epidermis and enables higher energy outputs during Nd:YAG laser treatments.

Why Are 800Nm Diode And Ruby Lasers Effective For Hidradenitis Suppurativa? Prevent Flare-Ups With Advanced Technology

Learn how 800nm diode and ruby lasers serve as secondary prevention for HS by targeting follicles to reduce disease severity by up to 65%.

Why Is The 1064 Nm Wavelength Preferred For Addressing Hyperpigmentation In Macular Amyloidosis? Safe Dermal Targeting

Discover why the 1064 nm wavelength is the gold standard for treating Macular Amyloidosis by reaching deep pigment while protecting the epidermis.

What Are The Benefits Of Transparent Coupling Gel In Diode Laser Hair Removal? Maximize Safety And Efficiency

Discover how transparent coupling gel reduces laser reflection, protects equipment, and ensures patient comfort during diode laser treatments.

Why Customize Co2 Laser Density And Depth? Essential Precision For Superior Clinical Acne Scar Results

Learn why adjusting density and depth in fractional CO2 lasers is vital for safe collagen regeneration and personalized acne scar treatment.

Why Is Papillary Bleeding A Milestone In Facial Xanthoma Laser Treatment? Mastering Depth For Superior Outcomes

Learn why reaching the papillary bleeding point is the essential technical endpoint for safe and effective laser ablation of diffuse xanthoma.

What Is The Primary Role Of A Medical Carbon Dioxide (Co2) Laser System In The Treatment Of Burn Scar Contractures?

Learn how Medical CO2 Laser Systems use thermal ablation and collagen remodeling to soften scars and restore mobility in burn contracture patients.

How Do Diode Lasers Function In Controlling Sebum Overproduction? Control Acne With Precise Thermal Gland Targeting

Learn how diode lasers (810-1450nm) utilize selective photothermolysis to shrink sebaceous glands and reduce oil production at the source.

What Are The Core Clinical Advantages Of Combining Microneedle Devices With Topical Ascorbic Acid? Maximize Collagen Loss

Learn why combining microneedle devices with ascorbic acid outperforms monotherapy for scar reduction and collagen production.

What Is The Primary Function Of A Cpg In Fractional Co2 Laser Treatments? Enhance Precision & Safety

Learn how the Computerized Pattern Generator (CPG) optimizes fractional CO2 lasers by preventing thermal overlap and accelerating skin healing.

What Is The Primary Mechanism Of 532 Nm Lasers For Freckles? Achieve Precise Pigment Clearing With Q-Switch Technology

Learn how 10ns short-pulse 532 nm lasers use selective melanin fragmentation and photomechanical effects to remove freckles safely and effectively.

Why Are Multi-Wavelength Laser Systems Incorporating 532Nm And 755Nm Necessary For Removing Colored Tattoos?

Learn why 532nm and 755nm wavelengths are essential for shattering red, green, and blue tattoo inks through selective absorption and photoacoustics.

Which Physical Metrics Evaluate Fractional Co2 Laser Effectiveness For Keloid Scars? Guide To Lesion Flattening

Learn why lesion height reduction is the gold standard metric for evaluating Fractional CO2 Laser success in treating dense keloid scar tissue.

How Does Prp And Fractional Lasers Enhance Facial Rejuvenation? Achieve Superior Skin Recovery And Growth

Discover how the synergy of PRP and fractional lasers accelerates healing and boosts collagen for professional skin rejuvenation.

Why Is The Measurement Of Vaginal Ph Levels Critical For Evaluating Fractional Co2 Laser Treatments? Tracking Recovery.

Understand why vaginal pH is the essential biomarker for measuring the success of Fractional CO2 laser treatments in vaginal rejuvenation.

Why Is The Use Of Transparent Conductive Gel Essential During Diode Laser Hair Removal? Ensure Safety And Efficacy

Learn how conductive gel optimizes energy transfer, protects skin from friction, and extends the life of your diode laser equipment.

What Role Do Microneedle Rf And Mesotherapy Devices Play In Facial Rejuvenation? Enhance Your Camera-Ready Image

Discover how Microneedle RF and mesotherapy combat 'Zoom fatigue' by stimulating collagen and delivering nutrients for firm, camera-ready skin.

How Does Ablative Fractional Laser (Afxl) Enhance Drug Delivery? Unlock Faster & Deeper Actinic Keratosis Treatment

Discover how AFXL 2940nm and 10600nm lasers bypass the skin barrier to maximize drug delivery and clearance rates for Actinic Keratosis treatment.

What Is The Primary Function Of High-Precision Scanner Management Software? Optimize Fractional Co2 Laser Outcomes

Learn how scanner software controls laser beam distribution to preserve 60-90% of skin tissue, ensuring rapid healing and patient safety.

What Are The Technical Advantages Of The Fractional Scanning Mode Of A Co2 Laser? Modern Acne Management Explained

Learn why fractional scanning mode is superior for acne management, offering faster recovery and lower risks through Micro-Thermal Zones (MTZs).

What Is The Primary Mechanism Of Action For Fractional Co2 Laser In Gsm? Harness Biological Remodeling For Restoration

Learn how fractional CO2 lasers treat GSM by triggering thermal micro-trauma, fibroblast activation, and collagen regeneration for tissue health.

What Is The Rationale For Adjusting Spot Size And Energy Density? Master Depth And Safety In Q-Switched Laser Therapy

Learn the physics of light scattering, spot size, and fluence to optimize penetration depth and safety for Q-Switched laser treatments.

What Is The Primary Mechanism Of Action For Fractional Co2 Laser Equipment In Vva? Achieve Non-Hormonal Tissue Renewal

Learn how Fractional CO2 lasers treat Vulvovaginal Atrophy by stimulating protein denaturation, fibroblast activation, and collagen regeneration.

What Are The Technical Advantages Of Using Microneedling As A Transdermal Delivery Route? Boost Treatment Bioavailability

Learn how microneedling overcomes the stratum corneum barrier to deliver macromolecules and enhance bioavailability in aesthetic therapies.

What Is The Function Of A Dynamic Cooling Device (Dcd) In Laser Hair Removal? Enhance Safety & Comfort

Learn how Dynamic Cooling Devices (DCD) use cryogen spray to protect the skin and improve laser hair removal efficacy.

Why Use Long-Pulse 1064Nm Nd:yag Laser For Thick Scars? Key Insights For Treating Dark Skin And Deep Tissue Safely.

Learn why the 1064nm Nd:YAG laser is essential for deep scar penetration and safe treatment of dark-skinned patients with reduced burn risks.

Which Physical Indicators Of Keloids Are Most Significantly Improved By Fractional Co2 Laser Therapy? Expert Results

Learn how Fractional CO2 laser therapy reduces keloid height, normalizes pigmentation, and restores pliability for superior scar remodeling results.

What Technical Improvements Does Picosecond Laser Equipment Offer? Enhanced Tattoo & Scar Removal Solutions

Discover how picosecond lasers use photoacoustic effects to shatter pigment into dust-like particles for faster, safer tattoo and scar removal.

How Does A 50 Ms Pulse Width Protect Healthy Tissue During The Laser Removal Of Eyelid Tattoos? Precision Safety Guide

Learn how the 50 ms pulse width utilizes thermal confinement to protect delicate eyelid tissue and prevent PIH during tattoo removal.

How Do Highly Controllable Laser Systems Support Scientific Validity? Key Methods For Reliable Clinical Studies

Learn how advanced laser systems use sham and double-blind modes to ensure scientific validity and eliminate bias in clinical research.

What Is The Mechanism Of Action For Specialized Laser Equipment In Vascular Treatment? Precision Selective Photothermolysis

Learn how selective photothermolysis and oxyhemoglobin targeting effectively treat port-wine stains and telangiectasia with specialized lasers.

What Is The Clinical Significance Of 8Mm Spot Size & 1.3 J/Cm² In Carbon Laser? Maximize Safety & Depth

Learn why an 8mm spot size and 1.3 J/cm² fluence are the optimal parameters for effective carbon-assisted laser therapy with minimal thermal risk.

What Is The Primary Mechanism Of Afxl-Pdt For Actinic Keratosis? Unlock Enhanced Laser-Assisted Drug Delivery

Learn how Ablative Fractional CO2 Laser-assisted PDT bypasses the skin barrier using micro-channels to boost drug absorption and treat AK lesions.

What Is The Function Of A Professional Red Led Therapy System? Enhancing Pdt Efficacy With Precise Photo-Activation

Learn how professional red LED systems (630-635nm) serve as the essential activation trigger in PDT protocols to ensure deep tissue penetration.

Why Is A Low-Density, Multiple-Pass Technique Preferred In Fractional Laser Treatment? Safety & Uniformity Guide

Learn why multiple low-density passes are the gold standard for fractional lasers to prevent bulk heating and reduce hyperpigmentation risks.

What Is The Technical Significance Of Cryogen Spray Duration? Optimize Laser Hair Removal For Forehead Flaps

Understand how cryogen spray duration controls cooling depth to protect the epidermis while ensuring effective follicle destruction.

What Role Does A Skin Cooling System Play During High-Energy Laser Hair Removal? Ensure Safety And Efficacy

Learn how skin cooling systems prevent thermal injury, manage pain, and enable high-energy laser hair removal for superior clinical results.

What Protective Role Does Specialized Laser Cooling Gel Play? Enhance Safety And Efficiency In Laser Hair Removal

Learn how specialized laser cooling gel protects the skin, prevents thermal injury, and improves optical coupling for better hair removal results.

What Is The Function Of The Multi-Joint Mirror Arm Delivery System In A Medical Co2 Laser? Precision Optics Explained

Learn how the multi-joint mirror arm delivery system enables precise cutting and coagulation in medical CO2 lasers through advanced optical design.

How Does The Adjustment Of Pulse Duration In Fractional Lasers Ensure Safety? Master Clinical Precision In Scar Treatment

Learn how precise pulse duration control (280-500 μs) balances ablation and coagulation for safe, effective scar remodeling in fractional lasers.

How Do Hybrid Ablative And Non-Ablative Dual-Wavelength Laser Systems Work? Achieve Total Facial Rejuvenation

Learn how hybrid dual-wavelength lasers combine surface resurfacing and deep collagen stimulation for superior skin rejuvenation results.

Why Are Energy-Based Devices Like Fractional Lasers Or Rf Systems Alternatives To Mht? Explore Non-Hormonal Solutions

Discover why Fractional Lasers and RF systems are essential, non-hormonal alternatives to MHT for targeted tissue restoration and patient safety.

How Do Co2 Laser Parameters Influence Hailey-Hailey Disease Healing? Optimize Thermal Control For Superior Outcomes

Learn how pulse width and energy settings in CO2 laser systems affect thermal management, healing speed, and recurrence in Hailey-Hailey Disease.

Why Is Precise Control Of Laser Penetration Depth Critical? Ensuring Safety And Efficacy In Vaginal Laser Treatments

Learn why laser precision is vital in vaginal treatments to prevent scarring and HPV risk while ensuring rapid tissue regeneration.

Why Is Ultra-Pulse Mode Preferred In Co2 Laser Treatments For Scar Tissue? Achieve Precision With Minimal Side Effects

Learn how Ultra-pulse CO2 laser technology protects healthy skin while vaporizing scar tissue for faster healing and fewer complications.

What Role Does A Beam Homogenizer Play In A Laser Hair Removal Experimental Setup? Achieving Flat-Top Precision

Learn how beam homogenizers transform irregular laser outputs into flat-top profiles to eliminate experimental bias and ensure precise fluence.

Why Is The Gradated Withdrawal Technique Essential For Vaginal Laser Treatments? Ensure Precision & Uniform Results

Learn how Gradated Withdrawal ensures uniform energy delivery, prevents thermal injury, and eliminates gaps in vaginal laser treatments.

What Is The Primary Role Of Fractional Co2 Laser Systems In Pih Research? Discover Advanced Research Mechanisms

Learn how fractional CO2 lasers serve as precision tools to study laser-induced PIH by simulating injury and triggers for pigmentation research.

What Are The Safety Characteristics Of The Long-Pulse 1064Nm Nd:yag Laser? Safe Solutions For All Skin Types

Explore the safety of 1064nm Nd:YAG lasers, featuring low melanin absorption and deep penetration for safe treatments on all skin tones.

How Does The Single Pulse Mode Of A Picosecond Nd:yag Laser Contribute To Treatment Safety And Efficacy? | Belis Guide

Learn how Single Pulse Mode in Picosecond Nd:YAG lasers ensures energy stability, prevents thermal damage, and enhances clinical safety and results.

Why Is The Precise Delivery Of Laser Energy Critical For Sui? Master Precision For Optimal Patient Outcomes

Learn why precise laser energy delivery is the key to safe, effective Stress Urinary Incontinence (SUI) treatment through collagen remodeling.

Why Is Maintenance Treatment Recommended 6-12 Months After Laser Incontinence Therapy? Preserve Your Clinical Results

Learn why a maintenance session between 6 and 12 months is essential to sustain tissue remodeling and urinary control after laser treatment.

How Does Dual-Phase Pulse Technology Improve Fractional Co2 Laser Outcomes? Enhance Vaginal Health & Tissue Elasticity

Learn how dual-phase pulse technology in fractional CO2 lasers optimizes vaginal rejuvenation through precise ablation and deep collagen stimulation.

What Are The Hardware Advantages Of Picosecond Lasers? High-Peak Power For Superior Tattoo Removal

Learn how Picosecond hardware uses photoacoustic effects and ultra-short pulses to shatter pigment more efficiently than traditional lasers.

What Are The Core Technical Advantages Of A High-Performance Picosecond 1,064-Nm Nd:yag Laser In Treating Pih?

Learn how picosecond Nd:YAG lasers use photoacoustic effects to treat PIH safely, reducing heat damage compared to traditional nanosecond lasers.

What Is The Primary Function Of Er:yag Laser Pretreatment For Actinic Keratosis? Boost Treatment Efficacy

Learn how Er:YAG laser pretreatment disrupts the stratum corneum to enhance drug penetration and Photodynamic Therapy (PDT) results.

Why Is The 1064Nm Long-Pulse Nd:yag Laser Utilized As An Auxiliary Treatment For Hidradenitis Suppurativa?

Discover how 1064nm Nd:YAG lasers treat Hidradenitis Suppurativa by targeting follicles, reducing inflammation, and preventing disease progression.

Why Is The Regulation Of Angiogenesis Emphasized During Wound Management Following Fractional Laser Treatment?

Learn why angiogenesis is critical for post-fractional laser healing, driving nutrient delivery and tissue regeneration for atrophic scar repair.

What Were The Findings Of Studies On Elos Systems That Combine Rf With A Diode Laser? Proven Clinical Skin Rejuvenation

Clinical studies confirm that combining RF and diode laser energy effectively reduces wrinkles and tightens skin with results lasting over 6 months.

What Are The Defining Features And Risks Of High Power Class Iv Lasers? Balancing Power With Clinical Safety

Learn the engineering intent, thermal risks, and the 'power paradox' of High Power Class IV lasers to ensure safe and effective medical treatments.

How Do Q-Switched Lasers Differ From Picosure Lasers? Discover The Pico Vs. Nano Advantage

Understand the differences between Q-switched and PicoSure lasers: pulse speed, photo-mechanical effects, and faster pigment clearance for clinics.

What Were The Results Of A Study Using A 1064 Nm Q-Switched Nd:yag Laser For Facial Photodamage? Key Rejuvenation Data

Study shows 60% of patients improved Glogau scores using 1064 nm Q-switched Nd:YAG laser for photodamage with zero pain or downtime.

What Other Adverse Effects Can Q-Switched Laser Therapy Cause? Essential Risks Beyond Pigmentation

Learn about thermal damage, allergic reactions, and safety protocols associated with Q-switched laser therapy in medical aesthetics.

Why Is The Nd:yag Laser With A 1,064 Nm Wavelength Used For Laser Lipolysis? Discover The Gold Standard In Fat Removal

Learn why the 1,064 nm Nd:YAG laser is the top choice for lipolysis, balancing deep penetration, controlled heat, and blood vessel coagulation.

What Is The Role Of External Closed-Circuit Thermoelectric Chillers? Powering Stable Hair Removal Operations

Learn how thermoelectric chillers stabilize laser diodes, extend equipment lifespan, and ensure patient comfort in laser hair removal systems.

How Do Microneedling Devices Facilitate Mechanical Skin Reconstruction? Restore Scalp Health Post-Transplant

Learn how microneedling devices remodel scar tissue and restore skin elasticity at hair transplant sites through advanced mechanical reconstruction.

Why Is Multi-Angle Rotational Laser Emission Necessary For Treating Vaginal Atrophy? Eliminate Treatment Blind Spots

Discover why multi-angle rotational laser emission is essential for uniform energy distribution and consistent results in vaginal atrophy therapy.

Why Is A Specialized Vaginal Treatment Probe Necessary For Fractional Co2 Laser Therapy? Ensure Safety And Precision

Learn why specialized probes are essential for CO2 laser therapy, ensuring 360-degree coverage and safe tissue regeneration in gynecology.

Why Is The 532 Nm Laser Preferred For Facial Telangiectasia? Master Selective Photothermolysis For Redness

Learn why 532 nm is the gold standard for treating superficial facial redness and telangiectasia through high oxyhemoglobin absorption.

How Does The Pulse Frequency Of A Laser System Affect The Thermal Safety Of Metal Eye Shields? Ensure Patient Protection

Understand how laser pulse frequency impacts heat accumulation in metal eye shields to prevent thermal injury during clinical procedures.

What Role Does The Smart Stack Function Play In The Parameter Settings Of A Fractional Co2 Laser? Achieve Precision Depth.

Learn how the Smart Stack function optimizes fractional CO2 laser treatments by controlling depth and maximizing collagen remodeling with less downtime.

How Does Injector-To-Surface Distance Influence Cooling Efficiency In Cryogen-Assisted Laser Treatments? Optimize Safety

Learn how the 85mm optimal distance regulates droplet velocity and density to form a protective cooling film during laser treatments.

Why Is A High-Performance Cooling System Essential For Non-Ablative Laser Skin Resurfacing Equipment? Key Safety & Results

Learn why high-performance cooling is critical for non-ablative laser resurfacing, ensuring patient safety, comfort, and maximum treatment efficacy.

How Does An Integrated Cryogen Spray Cooling Device Enhance Laser Treatments? Maximize Safety & Efficacy Today

Learn how integrated cryogen spray cooling (CSC) protects the epidermis, enables higher energy settings, and improves patient comfort in laser therapy.

What Is The Primary Role Of 1927Nm Thulium Lasers? Master The Melanin Shuttle For Flawless Skin Brightening

Learn how the 1927nm thulium laser uses the melanin shuttle mechanism to clear pigment and remodel collagen for superior skin brightening results.

Why Is It Necessary To Use Specialized Optical Contact Gel With Ipl? Maximize Safety And Results In Hair Removal

Learn why specialized optical gel is essential for IPL: it ensures deep light penetration, prevents burns, and maximizes treatment effectiveness.

How Does The Integrated Sapphire Cooling Head In Diode Laser Systems Contribute To Safety? Expert Guide To Skin Protection

Learn how sapphire cooling technology protects the epidermis, prevents burns, and enables safe hair removal for all skin types in diode systems.

Why Is Precise Regulation Of Laser Energy Required During Combined Fractional Laser And Prp? Optimize Patient Safety

Learn why regulating laser energy is vital for Fractional Laser & PRP therapy to maximize absorption, speed up healing, and prevent skin damage.

What Is The Core Function Of Medical-Grade Automatic Microneedling For Acne Scars? Transform Scars Into Smooth Skin

Learn how medical-grade automatic microneedling triggers collagen production to effectively rebuild the dermal matrix and treat atrophic acne scars.