Chemical Peeling: The Science Behind Skin Rejuvenation

What is chemical peeling and how does it work?

Chemical peeling is a cosmetic procedure that involves the application of specific acids, salts, or a combination of both to the skin. How do these substances cause controlled exfoliation of the outer layers of the skin?

Chemical Peeling: Understanding the Process

Chemical peeling is a popular cosmetic procedure that aims to rejuvenate the skin by promoting controlled exfoliation of the outer layers. The key components involved in chemical peeling are acids, salts, and microdermabrasion.

Chemical peeling works by using specific acids, salts, and microdermabrasion to exfoliate the skin and stimulate cell regeneration. Here's how each component plays a role in the process:

1. Acids:

Chemical peels utilize various types of acids like alpha hydroxy acids (AHAs) and beta hydroxy acids (BHAs). These acids help break down the bonds between skin cells, promoting exfoliation and revealing fresher, smoother skin underneath.

2. Salts:

Some chemical peels contain salts such as trichloroacetic acid (TCA) or Jessner's solution, which provide additional exfoliating effects. These salts can penetrate deeper into the skin layers, targeting specific skin concerns like acne scars or pigmentation.

3. Microdermabrasion:

Microdermabrasion is often used in combination with chemical peeling. It involves spraying fine crystals onto the skin's surface to gently abrade the outer layer, removing dead skin cells and stimulating collagen production for a smoother complexion.

Chemical peeling is typically performed by trained professionals and customized based on individual skin type and concerns. Consulting with a healthcare provider or skincare professional is crucial to determine the most suitable approach for each person's unique needs.

← Understanding isotopes and ions in chemistry How to convert radians to degrees →