Veeda Ultra-Thin Pads offer day and nighttime protection for moderate, regular and heavy incontinence needs to support men and women with bladder leaks. Our natural incontinence pads offer discreet maximum absorbency with or without wings to support a leak proof lifestyle. Veeda incontinence products do not contain any harsh chemicals and have been hypoallergenic and dermatologically tested so they won’t irritate your body. Our incontinence pads can also be used as a postpartum pad or maternity pad for women after birth who experience weak bladder leakage.
-
FEEL DRY AND COMFORTABLE ALL DAY LONG – Veeda incontinence pads have a special top sheet and distribution layers designed for the rapid flow of urine. Veeda incontinence pads instantly absorb urine through super absorbent polymers contained in the product that are designed to absorb and lock in heavy volumes of urine quickly. Incontinence pads leave you feeling dry and comfortable all day or all night long.
- WORRY FREE ODOR PROTECTION - Veeda incontinence products are made with a wicking fabric that quickly draws moisture away from the skin and neutralizes urine odor.
-
DISCREET - Designed for Light Bladder protection. Made to be ultra-thin and discreet whilst providing comfort and coverage you can count on. Veeda’s natural incontinence pads provide day or overnight protection no matter what you're doing or how you sleep.
-
DERMATOLOGICALLY TESTED - Hypoallergenic, safe for Sensitive skin, ultra-thin incontinence pads for daily reliable protection. Safe for everyday use and won’t irritate your skin.
-
NATURAL INGREDIENTS - Our plant-based incontinence pads feature an absorbent bio-core blend with FSC certified pulp, totally chlorine-free, dye-free, lotion-free, fragrance-free and no harmful chemicals for a stay-put design and leak-proof protection.
-
THOUGHTFULLY DESIGNED - The added Green Tea Leaf Extract in our Veeda Incontinence Pads, liners and underwear helps calm irritation, soothe redness and swelling and helps eliminate bacteria and other pollutants on the skin’s surface.