AHA & BHA for skin: What to know?

AHA & BHA for skin: What to know?

Every day, millions of cells are produced and shed by our skin. Sunburns, excessive oil production, dry skin, and other issues begin to appear when too much dust is accumulated on our skin. It becomes crucial for us to exfoliate frequently in order to protect our skin from these problems. Additionally, it improves blood circulation, keeps your skin healthy, and helps you look younger. Hydroxy acids like AHA and BHA are used to treat skin issues including acne. Alpha-hydroxy acid is referred to as AHA, and beta-hydroxy acid is referred to as BHA. Glycolic acid, lactic acid, and salicylic acid are some of the most prevalent hydroxy acids. One of the most prevalent advantages. The benefit of hydroxy acids in treating sun-damaged skin is a well-known fact.

To measure improvements in sun-damaged skin, doctors check skin roughness, changes in skin colour, and collagen density. AHAs and BHAs both work as exfoliants, but they work in different ways. AHAs function by lowering the level of calcium ions in the skin. This encourages the surface shedding of skin cells.

Salicylic acid provides added antimicrobial effects above BHAs, which are also used as skin peeling agents. While both AHAs and BHAs are exfoliants, each hydroxy acid has unique qualities that make one more suitable for treating particular skin disorders or enhancing particular skin traits. BHAs boost the skin's resistance to UV skin damage and also have antibacterial effects, which is another distinction between BHAs and AHAs. BHAs are suitable components for acne products due to their antibacterial properties. AHAs offer more vigorous exfoliation, which might be better suited for mending sun-damaged skin and lessening the signs of ageing.

How do I use it?

As a general guideline, avoid using products containing vitamin C and retinol right after using AHAs on such days. This allows your skin to focus on just one active ingredient at a time, lowering the possibility of overstimulation resulting in negative reactions.