激光美白去斑 (深層色斑) laser removal of deep (dermal) pigmentation eg Melasma








深層色素沉著(位於真皮層)通常呈灰棕色或藍灰色,比表皮色素更難治療,常見於黃褐斑的真皮型、炎症後色素沉著(PIH)的深層型,以及一些先天性或後天性真皮黑色素沉著如太田痣、伊藤痣等。

常見的真皮層色素沉著類型

類型深度典型外觀特點
真皮型黃褐斑真皮層灰棕或藍灰色斑塊,對稱分布於臉頰、額頭、上唇與荷爾蒙、紫外線相關,慢性且易復發
深層炎症後色素沉著(PIH)真皮層灰棕色斑痕,常見於痤瘡或濕疹後在深膚色人群更常見,持續時間長
太田痣(Nevus of Ota)/ 伊藤痣(Nevus of Ito)真皮層藍灰色斑塊,分布於三叉神經或肩臂區域屬於真皮黑色素細胞增生,治療困難
苔癬樣色素沉著(Lichen Planus Pigmentosus)真皮層灰棕色斑塊,常見於日曬或皺褶區域慢性且難治療
接觸性皮膚炎後色素沉著(Riehl’s melanosis)真皮層灰棕色斑塊,常見於化妝品或染料過敏後屬於慢性接觸性皮膚炎的後果

臨床特徵

為何重要

區分表皮與真皮色素沉著是治療成功的關鍵。表皮型色素(如雀斑、日光性黑子)容易清除,而真皮型色素(如太田痣、真皮型黃褐斑)則更頑固,需要更長期且複合的治療策略。

總結:臉部的深層色素沉著包括 真皮型黃褐斑、深層 PIH、太田痣/伊藤痣、苔癬樣色素沉著、接觸性皮膚炎後色素沉著。這些病灶位於真皮層,顏色偏灰或藍灰,治療難度高,需謹慎選擇雷射波長與治療方式。

論文:皮秒雷射在真皮層色素治療中的應用

引言

真皮層色素沉著因其深度、慢性特性及易復發而極難治療。傳統的 Q 開關雷射(532/1064 nm)長期以來是主要治療方式,但皮秒雷射——能在皮秒級釋放超短脈衝——已成為一種有前景的替代方案。它能更有效地擊碎色素顆粒,並減少熱損傷,特別適合頑固的真皮病灶。

作用機制

臨床應用

優點

挑戰

結論

皮秒雷射(532/1064 nm)在治療真皮層色素方面是一項進步。其超短脈衝能更有效擊碎色素、減少熱損傷,並可能降低矛盾性加深的風險,相較於 Q 開關 Nd:YAG 更具優勢。然而,復發、成本及多次療程仍是挑戰。最佳療效需謹慎選擇波長、保守能量設定,並搭配嚴格的輔助措施,如防曬及外用淡斑藥物。

Deep pigmentation (located in the dermal layer) usually appears gray‑brown or bluish‑gray. It is more difficult to treat than epidermal pigmentation. It is commonly seen in dermal‑type melasma, deep post‑inflammatory hyperpigmentation (PIH), and certain congenital or acquired dermal melanoses such as nevus of Ota and nevus of Ito.

Common Types of Dermal Pigmentation

TypeDepthTypical AppearanceFeatures
Dermal MelasmaDermisGray‑brown or bluish‑gray patches, symmetrically distributed on cheeks, forehead, upper lipRelated to hormones and UV exposure; chronic and prone to recurrence
Deep PIH (Post‑inflammatory Hyperpigmentation)DermisGray‑brown marks, often after acne or eczemaMore common in darker skin types; long‑lasting
Nevus of Ota / Nevus of ItoDermisBluish‑gray patches, distributed along trigeminal nerve area or shoulder/arm regionDue to dermal melanocyte proliferation; difficult to treat
Lichen Planus PigmentosusDermisGray‑brown patches, often in sun‑exposed or flexural areasChronic and resistant to treatment
Riehl’s Melanosis (Pigmentation after Contact Dermatitis)DermisGray‑brown patches, often after cosmetic or dye allergyA consequence of chronic contact dermatitis

Clinical Features

Why It Matters

Distinguishing epidermal from dermal pigmentation is critical for successful treatment. Epidermal pigmentation (such as freckles, solar lentigines) is easier to clear, while dermal pigmentation (such as nevus of Ota, dermal melasma) is more stubborn and requires long‑term, combined treatment strategies.

Summary: Deep facial pigmentation includes dermal melasma, deep PIH, nevus of Ota/Ito, lichen planus pigmentosus, and Riehl’s melanosis. These lesions lie in the dermis, appear gray or bluish‑gray, are difficult to treat, and require careful selection of laser wavelength and treatment methods.

Essay: Picosecond Laser in the Treatment of Dermal Pigmentations

Introduction

Dermal pigmentations are notoriously difficult to treat due to their depth, chronicity, and tendency to relapse. Traditional Q‑switched lasers (532/1064 nm) have long been the mainstay, but picosecond lasers—delivering ultra‑short pulses in the picosecond range—have emerged as a promising alternative. Their ability to shatter pigment particles more efficiently with less thermal damage makes them particularly suitable for stubborn dermal lesions.

Mechanism of Action

Clinical Applications

Advantages

Challenges

Conclusion

Picosecond lasers (532/1064 nm) represent an advancement in the treatment of dermal pigmentations. Their ultra‑short pulses allow more efficient pigment fragmentation, reduced thermal damage, and potentially lower risk of paradoxical darkening compared to Q‑switched Nd:YAG. However, recurrence, cost, and the need for multiple sessions remain challenges. Optimal outcomes require careful wavelength selection, conservative fluence, and strict adjunctive measures such as sun protection and topical depigmenting agents.