Picosecond vs Q-Switched Laser: Πλήρης οδηγός για αντιδράσεις τελικού σημείου & Προσαρμογή παραμέτρων

When treating pigmented lesions with πικοσκέδαση ή Q-switched (nanosecond) lasers, the ability to correctly judge the endpoint reaction is one of the most important clinical skills. Many practitioners adjust fluence based on whitening alone, but without understanding the mechanism of whitening, it’s easy to overtreat, burn the epidermis, and increase the risk of μεταφλεγμονώδης υπερμελάγχρωση (PIH).

In this guide, Mico Aes explains:

• Why whitening occurs
• How cavitation affects epidermal reactions
• Differences between picosecond and nanosecond pulse widths
• How to choose safe endpoint reactions for each lesion type

This article is designed for dermatologists, laser therapists, clinic owners, and distributors seeking deeper professional knowledge.

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1. What Is the “Endpoint Reaction” in Pigment Laser Treatment?

In pigment-targeting lasers (pico & Q-switched), the typical endpoint for epidermal pigmented lesions is:

✔ Immediate whitening of the lesion

Long-pulse lasers may also treat pigment, but their endpoint appears differently—usually:

✔ Slight darkening after several minutes

The degree of whitening can vary:

• Light white
• Gray-white
• Frost-white
• Porcelain-white

The darker and more melanin-dense the lesion is, the more obvious the whitening becomes.

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2. Why Does Whitening Occur? The Real Scientific Mechanism

Most whitening reactions are misunderstood. Whitening is not pigment turning white.

Whitening is an optical scattering effect produced by laser-induced vacuoles.

Here’s how it happens:

Step 1 — Laser absorption by melanin

Short-pulse lasers (ns and ps) deliver energy faster than thermal relaxation time.

Step 2 — Rapid thermoelastic expansion

Melanosomes heat instantly and expand.

Step 3 — Mechanical shockwave formation

This creates a powerful photoacoustic / photothermal-mechanical effect.

Step 4 — Cavitation and tissue disruption

Shockwaves rupture melanosomes and surrounding tissue, forming vacuoles in:

• Επιδερμίδα
• Dermal–epidermal junction (DEJ)

Step 5 — Light scattering

The vacuoles scatter incident light → the lesion appears white.

The bigger the vacuole, the whiter the reaction.

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3. Picosecond vs Nanosecond Laser: Why Their Whitening Looks Different

A key factor in cavitation size is πλάτος παλμού.

Nanosecond Lasers (Q-Switched)

• Produce larger cavitation vacuoles
• Stronger scattering
• Whitening is more obvious
• Frost-white appears easily
• Higher PIH risk if overtreated

Picosecond Lasers

• Create smaller vacuoles
• Whitening is milder → ideal endpoint = gray-white
• Frost-white suggests over-energy ή excess overlapping
• Lower thermal injury but easier to overtreat with high fluence

This explains why manufacturers recommend:

✔ Pico ideal endpoint: Light gray-white

✘ Frost-white: NOT ideal for pico

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4. Why You Must Avoid Frost-White with Picosecond Lasers

Frost-white during pico treatment indicates:

• Fluence too high
• Shockwave intensity excessive
• Cavitation too large
• Tissue damage increased

This significantly raises the risk of:

• PIH
• Prolonged erythema
• Micro-epidermal injury
• Scarring in sensitive skin types

For safe and effective pico treatment:

➡ Aim for light gray-white only.

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5. Clinical Parameter Setting Principles for Pico & Λέιζερ Q-switch

✔ 1. Treat epidermal lesions conservatively

Especially solar lentigines and freckles—the most PIH-prone lesions.

✔ 2. Do not chase “one-session clearance”

High fluence may clear pigment faster, but PIH makes overall results worse.

✔ 3. Pico → small cavitation → choose lower energy

• Endpoint = pale gray-white
• Avoid multi-pass overlapping

✔ 4. Nano → stronger cavitation → customize per lesion

• Light white for solar lentigo
• Frost-white may be acceptable for pigment-rich lesions
• Reduce fluence in Fitzpatrick III–V patients

✔ 5. Understand melanin density control

When melanin is abundant, even low energy may produce strong whitening.

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6. Summary: Choosing the Right Endpoint Reaction

Τύπος λέιζερ	Cavitation Size	Ιδανικό τελικό σημείο	Avoid	PIH Risk
Picosecond	Small	Gray-white	Frost-white	Μέσον
Q-Switched (ns)	Large	Light white	Excessive frost-white	Ψηλά
Long-pulse pigment lasers	Ελάχιστος	Slight darkening	Κανένας	Χαμηλός

Key Takeaways

1. Whitening is caused by light scattering from epidermal vacuoles.
2. Larger vacuoles → stronger scattering → whiter appearance.
3. Picosecond lasers should not produce frost-white under correct settings.
4. Choosing the right endpoint reaction is critical for preventing PIH.
5. Nanosecond lasers require more caution in darker skin types.

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Why Clinics Choose Mico Aes Pigment Lasers

As a trusted global manufacturer, Mico Aes provides professional-grade devices that help clinics achieve safer and more consistent pigment removal results:

✔ Stable medical-grade laser energy output

(755/1064/532nm pico, Q-switched, and hybrid systems available)

✔ Advanced beam homogenization

Reduces hot spots, lowers PIH risk.

✔ Proven clinical efficacy

Used by dermatology clinics, med spas, and distributors worldwide.

✔ Lifetime technical support

1-on-1 training + parameter guidance.

✔ OEM/ODM for distributors

Support for branding, manuals, marketing materials, and product customization.

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Ready to Upgrade Your Laser Portfolio?

Whether you operate a clinic or distribute aesthetic devices, Mico Aes offers the latest in picosecond, Q-switched, and fractional laser technology.

📩 Δικτυακός τόπος: https://micoaes.com/product-category/laser-tattoo-removal/
📞 WhatsApp: +86 18506287248
🌍 Global Shipping | CE/FDA/ISO Certified | OEM & Distributor Support

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